IdNumber of occurencesForms
12058 1  then simulating the dynamic aspects of biodiversity management in order to analyze the impact  
7115 2  probably in france, the main threat to biodiversity. this phenomenon is the corollary of the i 
neral lessons in terms of agriculture / biodiversity interactions. in this territory, there are 
7119 4 ze the conditions of internalization of biodiversity in agricultural activity. for this we have 
d the various social justifications put biodiversity under discussion. 2 - on the scale of farm 
social consequences of the inclusion of biodiversity management objectives. we will also discus 
 influence of social representations of biodiversity farmers on their technical choices  
7127 2 nteraction and consequently the loss of biodiversity. we will study the impact of global change 
e response of an important component of biodiversity in the tropics, and the specific mutualism 
7142 1 it is firstly an important component of biodiversity, but it is also an effective bio- indicato 
7245 1  work, we use the results of a study of biodiversity in seine and marl to establish a mapping o 
7264 1   research on phylogenetic structure of biodiversity experiencing unprecedented growth, particu 
7279 1 or the establishment and maintenance of biodiversity. dip will develop predictive models for es 
7297 2 tionally recognized as a "hot spot" for biodiversity. it is possible to imagine such biodiversi 
versity. it is possible to imagine such biodiversity quune in a macroscopic sense strongly reli 
7425 5                                         biodiversity of plant virus is still generally unknown. 
emographic and evolutionary phytovirale biodiversity, and to try to understand the conditions o 
biodivine the project will characterize biodiversity plant virus present in the agroecosystem c 
tool will identify, map and analyze the biodiversity of this territory phytovirale. moreover it 
tal and health impact of agriculture on biodiversity phytovirale a wild ecosystem, and vice ver 
7576 1  of this method of preservation of crop biodiversity. the project will also characterize the sp 
14360 1 at reportage is vital to monitoring the biodiversity and ecological quality of our environment. 
12585 1 restoration projects started with clear biodiversity goals and as a vehicle to fulfill psa targ 
12716 1  relevant to priority species in the uk biodiversity action plan: 1. global evolutionary comple 
1973 1 f products, and have been implicated as biodiversity indicators. until now, hybrid zones in mar 
10883 1           detecting and quantifying our biodiversity is a fundamental prerequisite to understan 
13712 1 f leaving trees on clearcuts to benefit biodiversity, introduced as a conservation tool in swed 
12751 1 ountries in preserving the rich natural biodiversity in forests under the international redd+ s 
12744 2 dence required to deliver defras global biodiversity sub-programme and to prepare outline proje 
project proposals for the international biodiversity assessment unit for the period 2008 – 2013 
14751 1 d endemic flora is crucial not only for biodiversity conservation per se but also for the resto 
12759 1 mpacts of geo-engineering activities on biodiversity and the availability of regulatory mechani 
10522 1 stringent targets for water quality and biodiversity. meeting these targets requires a detailed 
10752 1 stringent targets for water quality and biodiversity. meeting these targets requires a detailed 
10756 1 stringent targets for water quality and biodiversity. meeting these targets requires a detailed 
11807 1 stringent targets for water quality and biodiversity. meeting these targets requires a detailed 
12027 5  heterogeneity, dynamics and decline of biodiversity. in the mediterranean region, a global hot 
diterranean region, a global hotspot of biodiversity, the impact of human land-use change has c 
he norms, values and representations of biodiversity of local actors. the inter-disciplinary na 
on the ecological mechanisms underlying biodiversity evolution and conservation in human-domina 
 of scientific principles applicable to biodiversity conservation not only provides guidelines  
10075 2 rowth and what the impacts have been on biodiversity behind this change. 13 of the world s lead 
gy in our quest to discover and explain biodiversity changes.  
11513 2 rowth and what the impacts have been on biodiversity behind this change. 13 of the world s lead 
gy in our quest to discover and explain biodiversity changes.  
211 1 n-based approach, which argues that the biodiversity of human-degraded ecosystems, and their ha 
10709 1 rch on the impacts of climate change on biodiversity. conservation strategies must include adap 
11353 1 is also relevant to the conservation of biodiversity by serving as a case study for the consequ 
12067 2 ics, which support more than 90% of the biodiversity and are rapidly loosing forest habitats. l 
pization affects ecosystems by reducing biodiversity, by changing the landscape and creating ar 
2031 1 iability of populations, and thereby on biodiversity.  
12063 1 be to ensure the conservation of marine biodiversity and their services and, at the same time,  
1944 4 ing a national policy strategy on agro- biodiversity. from the chain/network perspective this p 
 for strengthening the position of agro-biodiversity in the food-supply-chain. on the basis of  
 in a national policy strategy on agro- biodiversity. this research project is directed towards 
tive and juridical implications of agro-biodiversity. in this project two oios work together on 
13979 1 h potentially great strategic impact on biodiversity conservation in general.  
6843 5             subject / introduction soil biodiversity is an intriguing facet of global biodivers 
ersity is an intriguing facet of global biodiversity. it is a really possibility that in the ne 
nce of the afforestation it is that the biodiversity in the forest–soil is always higher than i 
knowledge of long–term trends of forest biodiversity is important to evaluate the impact of her 
acticed methods of forest management on biodiversity. site description: the study fields are si 
10639 3 r this work will contribute to the nerc biodiversity theme to understand the role of biodiversi 
versity theme to understand the role of biodiversity in key ecosystem processes by studying the 
cesses by studying the response of soil biodiversity to a perturbation - addition of biochar -  
7430 1 lan to continue our actions in favor of biodiversity which results will be measured through nat 
7417 3 innovative tool for the preservation of biodiversity and reintegration. it is part of a product 
of resources and interests habitats for biodiversity relevant to the field and environmental pr 
ete improvements for the development of biodiversity within agroforestry plots cereal  
7111 2 s; 2 / the ability of farmers to manage biodiversity depends, in large part, to their type of p 
 management. for this we have developed biodiversity assessment methods of field margins using  
7413 4  grenelle of the environment, to regain biodiversity champenoise plain cereal. it is based on t 
d of plant species adapted to the local biodiversity on the plot of various grain farms to comp 
gronomic. the presence of reservoirs of biodiversity areas near these farms is also taken into  
ow crossing of the various interests in biodiversity in order to promote the emergence of techn 
523 2 ance; 2/ the farmers' ability to manage biodiversity depends, for a major part, on the producti 
ods, based on indicators, to assess the biodiversity of field borders.  
13310 3 rstanding of terrestrial and freshwater biodiversity and ecosystem functioning alarm will devel 
n assessment and forecast of changes in biodiversity and in structure, function, and dynamics o 
lationship between society, economy and biodiversity. in particular, risks arising from climate 
15187 1 ats have a great interest in the marine biodiversity conservation, since they have a high speci 
13593 1 ns often result in an increase in local biodiversity, the experiments are constructed to test a 
14416 3 gnized as one of the leading threats to biodiversity. there are still clear and important gaps  
our knowledge of their effect on native biodiversity and ecosystems. two main factors suggestin 
 main factors suggesting that bulgarian biodiversity is increasingly threatened by the introduc 
12016 3 tance of biological invasion in current biodiversity loss, international research has recently  
in invasions of insular ecosystems. the biodiversity and the threats upon it are not even well  
various stakeholders involved in island biodiversity management and invasive control. consequen 
13743 1 sions are among the greatest threats to biodiversity today. studies have shown that alien plant 
14103 1 aving a great importance for preserving biodiversity. the same is valid about boreo-nemoral dec 
13311 1 nding of the inter-relationship between biodiversity and the services it provides to society, a 
12709 1 estoration with recreation and tourism. biodiversity restoration is typically tied to tradition 
11067 2 these changes will determine changes to biodiversity as a whole. thus, exploring the interactio 
f climate change on regional and global biodiversity. this project will investigate altitudinal 
9965 2 these changes will determine changes to biodiversity as a whole. thus, exploring the interactio 
f climate change on regional and global biodiversity. this project will investigate altitudinal 
12037 6                                         biodiversity of amazonian landscapes. socio economic de 
d socioeconomic conditions, landscapes, biodiversity, productions and ecosystem services provid 
s, landscape composition and structure, biodiversity, agrosylvopastoral productions and ecosyst 
ical and/or landscape conditions affect biodiversity, the provision of ecosystem goods and serv 
conditions, landscapes built by people, biodiversity of plants and 7 groups of terrestrial and  
c types identified manage landscape and biodiversity and the ecosystem goods and services that  
11235 7 rove understanding of the importance of biodiversity for human health and well-being particular 
anage an amazonia-yungas observatory on biodiversity and indigenous health and wellbeing. such  
 provide vital evidence on the links of biodiversity and indigenous health and well-being in th 
nd run a yungas-amazonia observatory on biodiversity and indigenous health and well-being 2. to 
s of the yungas-amazonia observatory on biodiversity and indigenous health and well-being speci 
to review existing evidence on links of biodiversity and indigenous health in the yungas and am 
a 5 year yungas-amazonia observatory on biodiversity and indigenous health and well-being. c. t 
12051 1 venile stages. they are determinant for biodiversity conservation purposes. as their efficiency 
12479 1 al dune system. ecosystems also contain biodiversity discussed the role of ecosystems at a glob 
11861 2 issues that could potentially affect uk biodiversity.we have planned a collaboration of the lea 
he potential to be of importance for uk biodiversity in the next 50 years but have not been of  
12672 2  techniques assessing the importance of biodiversity and related ecosystem services in developi 
aden understanding of the importance of biodiversity in developing countries. to illustrate thi 
10650 1 c s current strategic science themes on biodiversity, sustainable use of natural resources, and 
13799 2 ifferent forms of urban green areas for biodiversity conservation and ecosystem functioning in  
 practices of these land uses influence biodiversity and ecosystem functioning of nup and surro 
7689 1 ee of green and blue, characteristic of biodiversity in the mediterranean region. knowledge and 
1085 1 nal types together with the analysis of biodiversity could be eventually apply to propose model 
15038 1 resenting the second threaten for earth biodiversity in terms of importance, being responsible  
15143 1  fragmentation are major threats to the biodiversity conservation. in agricultural landscapes,  
14862 2 hos. advances in the knowledge of their biodiversity are seriously hampered by the unreliabilit 
e leap forward in the following fields: biodiversity, discovery of new anatomical structures th 
14417 1 nd is considered to be a wide field for biodiversity and environmental protection investigation 
7630 1 re acquired and rehabilitated partly by biodiversity subsidiary of the Caisse des Dépôts et Con 
15333 3 ry, tourism, or urban development alter biodiversity at local, regional and global scale. due t 
mic development and the conservation of biodiversity at the local and regional scale. it also i 
t of the impact of pine exploitation on biodiversity, based on the information offered by ants. 
7120 1             the overall question is how biodiversity mainly apprehended in the nature conservat 
15575 4  is considered a major driver of global biodiversity loss, and has important effects on many ec 
 affects ecosystem services mediated by biodiversity are rare. biological pest control is one e 
 dont know to what extent natural enemy biodiversity can provide insurance against fluctuating  
 will explore the relationships between biodiversity, as mediated by agricultural land-use at d 
12046 1                               examining biodiversity in the ocean. the microscopic plants and a 
14892 1 e will have a complete understanding of biodiversity patterns of aquatic insects in a large lat 
10238 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
10697 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
11252 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
11262 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
11793 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
11800 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
11803 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
9971 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
9977 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
9986 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
9988 1 vironments. having described functional biodiversity, we aim to develop microarrays that will b 
12247 2 cent of our land is farmed and farmland biodiversity has declined significantly as a consequenc 
intensification over the last 40 years. biodiversity is now acknowledged as an essential compon 
11785 3 n of mps to quantify nematode molecular biodiversity would represent a major advance towards id 
 the use of mps in assessing the extant biodiversity in any meoi- or microfaunal or floral samp 
or hypothesis pertaining to the role of biodiversity in ecosystem functioning.  
10070 1  and they are high-profile habitats for biodiversity and conservation. lowland heathlands have  
14952 1 ost important determinants of change in biodiversity at a global scale, usually with harmful ec 
14638 1 ne shrimp populations studied and their biodiversity.these results shall allow to improve the i 
14583 1  as a consequence, to solve the lose of biodiversity caused by human activities.  
10973 2 s. the sequences will be used to assess biodiversity within planktonic ecosystems in the southe 
mised, will allow rapid and large-scale biodiversity and ecological studies of planktonic commu 
7485 1 erceived as a serious threat to natural biodiversity in europes marine waters. escaped fish may 
11635 1 ing. a subset of these that shows great biodiversity are the male-killing bacteria, inherited b 
12171 1 set-aside has had benefits for farmland biodiversity, particularly birds, for which it can prov 
10992 2                                         biodiversity in the recent past has been increasingly a 
nes. in order to better understand past biodiversity and the impact of factors such as climate  
419 3 ks incurred by the mediterranean marine biodiversity. this project proposes to work on the shad 
ms leading to changes in coastal marine biodiversity, thereby generating consequences on depend 
egy for monitoring mediterranean marine biodiversity. in addition, jointly with some economists 
7136 3 ssess the risks to mediterranean marine biodiversity. this project proposes to investigate the  
n lead to changes in the coastal marine biodiversity, thus generating an impact on the dependen 
sible to propose a mediterranean marine biodiversity monitoring strategy. finally, together wit 
7370 1 he adaptive potential and preserve wild biodiversity associated  
12252 1 pollution and impacting on habitats and biodiversity. the environmental effects can be direct a 
7666 1 ng programs. in-situ management of crop-biodiversity .  
14674 1 iated with measures that aim to benefit biodiversity. these schemes have been applied in europe 
12153 1 ence suggests that hefting can increase biodiversity with sheep, having an improved knowledge o 
7667 1 ment of ecosystem services of the urban biodiversity its a complementary step for the comprehen 
13501 1 is proposal unites the determination of biodiversity, the role of nutrient state in ecosystems, 
14784 1 aused a sensible diminution in the soil biodiversity, because of the tillage systems and the us 
15153 2 tal mechanism of community assembly and biodiversity conservation. in contemporary communities  
istory that has contributed to the vast biodiversity of the region and, second, facilitation se 
400 8                                         biodiversity is indispensable to ecosystem production o 
rine fisheries, recreation and tourism. biodiversity management has thus far mostly focused on  
hus far mostly focused on species-level biodiversity, but new research suggests genetic biodive 
sity, but new research suggests genetic biodiversity is equally important. this seems particula 
ill identify and map baltic sea genetic biodiversity and experimentally test its importance to  
 fish populations into account. genetic biodiversity is directly proportional to the capacity o 
e, policies and laws affect key genetic biodiversity, and following this, investigate possible  
ossible new ways to incorporate genetic biodiversity information into an ecosystem-based manage 
7572 1  evolutionary processes responsible for biodiversity  
12595 8 earer understanding of the potential uk biodiversity benefits that might arise from the propose 
 peat for horticulture. the governments biodiversity action plan . the lowland raised bog hap h 
sfully reached. it is important for our biodiversity because slightly less than half of the pea 
target will have for lowland raised bog biodiversity. the project will also consider what other 
at reduction target aims to benefit bog biodiversity by reducing or even eliminating peat extra 
peat extraction may have on the world's biodiversity. the project looks in detail at where peat 
nd will have in the future on bog-based biodiversity. it will be quantified by reference to sit 
the project will document the gains for biodiversity arising from these examples. it will also  
15563 1 urvival of beech forests and associated biodiversity for future generations.  
13482 1 tanding of pelagic ecosystems and their biodiversity, and necessary if we are to manage marine  
14278 2                             the belgian biodiversity platform is an initiative of the belgian s 
earch institutions. * promoting belgian biodiversity research at international fora.  
14329 3 ct on es. through which mechanisms does biodiversity promote es, what are the most crucial aspe 
ost crucial aspects and how to evaluate biodiversity in the es-context the fourth workshop deal 
 in the valuation of es how do we value biodiversity and the option value of potential es the f 
11319 1                                 benthic biodiversity of seamounts in the southwest indian ocean 
11320 1                                 benthic biodiversity of seamounts in the southwest indian ocean 
11585 1                                 benthic biodiversity of seamounts in the southwest indian ocean 
2476 3  for the monitoring of contaminants and biodiversity in the barents sea. these will be complime 
ffects for pahs in selected indicators. biodiversity indicators will be developed by applying a 
recent trends in newly acquired benthic biodiversity data sets of the barents sea. the results  
7260 1 arine ecosystem goods and services that biodiversity provides to human societies. it identifies 
12044 3 ems at the plot level would have on the biodiversity of agroecosystems at the plot and regional 
have on the dynamics and persistence of biodiversity in agroecosystems. this project is organis 
 the traits of landscapes favourable to biodiversity at the species and community levels; the p 
12015 3 ses the twin requirements of conserving biodiversity and fostering sustainable development. to  
 and local practices that aim to manage biodiversity. these issues are examined in an interdisc 
 identifying the elements pertaining to biodiversity management that should be taken into accou 
13335 8                             the loss of biodiversity and the degradation of ecosystems are majo 
 which are the relevant scales for many biodiversity issues. by networking 21 funding agencies  
odiversa2 aims to strengthen the era on biodiversity. building on the experience of the era-net 
biodiversa2 will promote a strategy for biodiversity research, in partnership with other player 
anize joint funding to better integrate biodiversity science. the objectives are to: -develop a 
e funding opportunity for transnational biodiversity research projects -play an active role in  
nable, independent funding platform for biodiversity research the project has 6 workpackages. w 
stainable funding platform for european biodiversity research, which will be fostered by wp4. w 
13312 6 d of terrestrial, freshwater and marine biodiversity. most era-net members are represented on o 
and recommend requirements for european biodiversity research: including the convention for bio 
l research co-operation in the field of biodiversity.research funding. with the aim of contribu 
ibuting to the implementation of the eu biodiversity strategy, biodiversa will allow the fundin 
th developing vountries in the field of biodiversity research funding. in order to achieve this 
tory, description and classification of biodiversity research programmes and reserach funding p 
2493 2 ent a challenge for the conservation of biodiversity. in particular, several european predator  
acts of climate and land-use changes on biodiversity and to the conservation management of expl 
12676 4 . http://www.nerc.ac.uk/research/themes/biodiversity/events/ao-biodiversa.asp defra and nerc ar 
rsa are to improve the co-ordination of biodiversity research between member states, to share b 
 understand and predict consequences of biodiversity changes on ecosystem functioning and servi 
 and services; 2. step up assessment of biodiversity at population, species and community level 
7104 2     there are two main ways of managing biodiversity in agricultural landscapes - the first is  
territory so as to release the rest for biodiversity management. it is the policy of parks and  
516 6        there are mainly two methods for biodiversity management in agricultural landscapes: the 
erritory so as to liberate the rest for biodiversity management. this is the politics of parks  
e global role that agriculture plays on biodiversity, in order to keep the possibility to make  
e is even harder to make since the term biodiversity often has a vague sense and may refer to:  
osystems or agrosystems the patrimonial biodiversity for which a territory has a particular res 
 are rare and endangered the emblematic biodiversity, which refers to one or several species to 
11505 1 es used to optimize the economic use of biodiversity whilst mitigating the effects of environme 
451 3           the project aims to study the biodiversity of maldivian coral reefs in liaison with l 
 factors controlling the dispatching of biodiversity. marine protected areas of the republic of 
xploited areas since the techniques for biodiversity inventory are not fully mastered on a loca 
10746 3                           the impact of biodiversity on ecosystem function has been a focus of  
many ecosystems, but its effects on the biodiversity-ecosystem function relationship have not b 
l examine the role of heterogeneity and biodiversity in determining ecosystem function using an 
11442 3                           the impact of biodiversity on ecosystem function has been a focus of  
many ecosystems, but its effects on the biodiversity-ecosystem function relationship have not b 
l examine the role of heterogeneity and biodiversity in determining ecosystem function using an 
11508 3                           the impact of biodiversity on ecosystem function has been a focus of  
many ecosystems, but its effects on the biodiversity-ecosystem function relationship have not b 
l examine the role of heterogeneity and biodiversity in determining ecosystem function using an 
532 4 ze the conditions of internalisation of biodiversity in the agricultural activity. to reach thi 
 and different social justifications of biodiversity brought up to discussion. 2 - at farming l 
of the implementation of objectives for biodiversity management. we will also study the influen 
ence that social portrayals of farmers' biodiversity have on their choices of procedure.  
7216 2 islands of the indian ocean, freshwater biodiversity is largely made ​​up of fish. also the inv 
adagascar, and interpret the freshwater biodiversity of the islands of the indian ocean from a  
531 1 ovide reflections on the integration of biodiversity in the evolution of agriculture, through t 
7118 1 ood for thought on the incorporation of biodiversity in the evolution of agriculture through th 
14418 1 formation about species composition and biodiversity of insect pathogens; • obtain new data on  
14846 3  has recently been established that the biodiversity abundance, and metabolic capabilities of t 
ded project viarc and will focus on the biodiversity and functional role of crenarchaeota using 
antially increased understanding of the biodiversity and role in nitrogen and carbon biogeochem 
14845 3  has recently been established that the biodiversity, abundance and metabolic capabilities of t 
 project viarc and it will focus on the biodiversity and functional role of crenarchaeota in pr 
antially increased understanding of the biodiversity and role in nitrogen and carbon biogeochem 
14804 2 osal deals with the characterization of biodiversity and ecology of cave microbial communities, 
ystems. the aim is not only to know the biodiversity of the microbial communities but also to k 
409 4         the set-aside of forestland for biodiversity purposes is made at widely differing scale 
ion taken to the landscape context, the biodiversity level of non set-aside forest . we use dif 
mming algorithms, and quotients between biodiversity value and economic cost. the spatial and t 
spatial and temporal dynamic aspects of biodiversity are considered through modelling approache 
11514 4 ivities are leading to a global loss of biodiversity and concern regarding the impact of such l 
ed research will examine the effects of biodiversity loss in the marine environment by using a  
 manipulative experiments will simulate biodiversity loss in two trophic levels, the dominant p 
o provide a predictive understanding of biodiversity loss in the marine environment.  
9925 4 ivities are leading to a global loss of biodiversity and concern regarding the impact of such l 
ed research will examine the effects of biodiversity loss in the marine environment by using a  
 manipulative experiments will simulate biodiversity loss in two trophic levels, the dominant p 
o provide a predictive understanding of biodiversity loss in the marine environment.  
1977 2 e to perform a comparative study on the biodiversity and ecosystem functioning of lophelia pert 
eralization. the potential link between biodiversity and ecosystem functioning will be investig 
6891 2 al integrity, thus a further decline in biodiversity can only be avoided if nature conservation 
ess the relationships between land-use, biodiversity and ecosystem functioning. in a collaborat 
396 2 farming systems like organic farming on biodiversity and ecosystem services thus requires knowl 
organic farming and landscape change on biodiversity.  
14795 1 e park an excellent site to explore the biodiversity, structure and dinamics of the denitrifyin 
12518 4 effects of organic farming practices on biodiversity and environment recommendation that resear 
esearch be conducted into the impact on biodiversity of organic conversion in the hills and upl 
jectives are to quantify differences in biodiversity between organic and conventional farming s 
rganic systems that are associated with biodiversity benefits in the hills and uplands, and to  
13729 5 ving how natural resources are managed. biodiversity is viewed as a key natural resource for ma 
nships between management institutions, biodiversity conservation and ecological resilience, an 
he specific goals are: * to examine how biodiversity contributes to ecosystem services like pol 
 mismatches between the scales at which biodiversity conservation should be implemented and the 
hese results and develop strategies for biodiversity monitoring and management in coupled socia 
14186 1 roposal is to assess the establishment, biodiversity and stability of lactic acid bacteria and  
12650 3 s to improve the conservation of marine biodiversity. the report is intended to outline the imp 
utline the importance of the uks marine biodiversity using examples to detail the current statu 
ecline, loss or deterioration of marine biodiversity in the ability of the marine system to del 
520 4 tween the agricultural activity and the biodiversity in a wine-growing area. it also has for go 
lyze a development project in favour of biodiversity on an aoc level and resulting in a local i 
he interactions between agriculture and biodiversity activate several mechanisms, each of which 
ural practices, landscape structure and biodiversity on a dimension limited to this territory.  
7108 4  study interactions between farming and biodiversity in a wine territory. it also aims to analy 
alyze a development project in favor of biodiversity at the scale of an aoc as a result of a lo 
tiative. the interactions agriculture - biodiversity involve several mechanisms, making referen 
ural practices, landscape structure and biodiversity across the territory. . in the end, this w 
521 6 eservation stakes and value increase in biodiversity within the french designation of origin in 
ized to define how farmers perceive the biodiversity in their plots and the impacts caused by t 
answer the following questionings: what biodiversity is present, produced, used within which ao 
aoc areas favourable to the adoption of biodiversity favouring practices in grassland areas whi 
areas which are the effects in terms of biodiversity coupling between the certification of biol 
at the farmers have on stakes linked to biodiversity. nevertheless they must also be recreated  
7674 2                                         biodiversity conservation in protected areas is linked  
 of plausible futures of key aspects of biodiversity, elephants and trees, in a large african p 
7109 1 tion set around conservation issues and biodiversity valuation in the french device registered  
14114 4 ystems. this project will elucidate how biodiversity is affected by environmental changes in sp 
cial importance to the understanding of biodiversity crises. the ordovician period ends with a  
nts . past environmental, lifestyle and biodiversity changes can be used as indicators in predi 
y – of the spacial, facies and temporal biodiversity of late ordovician and early silurian base 
437 2 the impact of human societies on animal biodiversity at a century and millenium scale. it was d 
 as expected. in addition, processes of biodiversity decrease have been described in several of 
7158 2 dicting the effects of global change on biodiversity at large spatial scales. from predictions  
o assess the impact of global change on biodiversity dynamics.  
13942 2 mental study concerns the importance of biodiversity for one of the most fundamental ecological 
e likely effects of changes in infaunal biodiversity and of increased cyanobacterial blooms on  
7283 1 nch, science and public decision making biodiversity the project proposes to investigate the se 
2051 2            the project will investigate biodiversity in a natural ecosystem, believed to be rea 
to develop a full statistical model for biodiversity without losing biological information.  
463 3     biomex aims to study pelagic marine biodiversity in the western indian ocean, using a wide  
aving as objective to characterize this biodiversity and assure its consistency. the project wi 
pt to establish an inventory of pelagic biodiversity based on various sampling elements, which  
7422 1 s specify the the effect of mycorrhizal biodiversity on wheat productivity and grain quality. t 
7281 3 nd blue urban context. it documents the biodiversity areas, questioning their legal status and  
tivations of various actors working for biodiversity and their choice of valuation. it offers a 
 it offers a method to mesh with the tv biodiversity called ordinary places and directory"actio 
14821 2  this wetland is considered a refuge of biodiversity for its richness in different kinds of wat 
elaborate a detailed inventory of algal biodiversity in the marjal pego-oliva natural park, as  
456 2 ands of the indian ocean the freshwater biodiversity is basically made up of fish . in addition 
ascar, and to understand the freshwater biodiversity of the islands in the indian ocean from a  
7262 1 d in an evolutionary light, deep marine biodiversity  
9933 3 s the most important threat to european biodiversity. a major source of nutrients to semi-natur 
e was no clear evidence that widespread biodiversity reduction caused by regional air pollution 
ess the ecological processes that drive biodiversity change in the systems.  
7467 6 fresh information portal for freshwater biodiversity will allow scientists and planners to comp 
t will shed new light on how freshwater biodiversity responds to global, european, and local en 
eal the status and trends of freshwater biodiversity, and the services that it provides. scient 
stressors interact to impact freshwater biodiversity. this work will help to shed light on how  
ental and local responses in freshwater biodiversity. until now, it has not always been easy to 
incorporate understanding of freshwater biodiversity explicitly into environmental agreements . 
2137 4 ss to environmental change. the benthic biodiversity has been hypothesized to be closely relate 
 the norwegian coastal shelf. these two biodiversity drivers are highly climate-dependent and a 
haracterizing the properties of benthic biodiversity measurements at various latitudinal sites  
lobal warming on the soft-bottom marine biodiversity in the norwegian continental shelf.  
474 5 ications of arguably the least explored biodiversity compartment in the biosphere: the unicellu 
ew methods for future surveys of marine biodiversity change and for evaluation of its ecologica 
source on marine unicellular eukaryotic biodiversity, providing a reference platform for curren 
re projects dealing with this important biodiversity compartment, and elevating the european co 
ternational research programs on marine biodiversity, major genetic databases and protist cultu 
7030 1 onomy and the hotly debated problems in biodiversity. its results should allow an estimation of 
7583 1 : i study through a molecular approach, biodiversity toxigenic molds to dry at room temperature 
14419 5 e must discover, understand and protect biodiversity. put simply, biodiversity is ‘life on eart 
d and protect biodiversity. put simply, biodiversity is ‘life on earth. at a fundamental level, 
sses depend, directly or indirectly, on biodiversity and its component resources. yeasts have e 
sts. in europe, bulgaria ranks third in biodiversity after italy and spain. the rich biological 
itats for many undiscovered yeasts. the biodiversity and ecology of yeasts in different ecosyst 
7008 1 of this project is the investigation of biodiversity of yeasts and yeast-like fungi isolated fr 
7286 1     we want to test the hypothesis that biodiversity can compensate through biotic interactions 
7153 3 mainly aims to improve knowledge of the biodiversity of regulatory mechanisms in animals, in si 
 balances and imbalances to sustainable biodiversity at an intermediate level between those of  
l the effects of human impact on animal biodiversity in a time scale ranging from century to mi 
7211 2           the project aims to study the biodiversity of coral reefs in the maldives in conjunct 
s operated technical inventory of coral biodiversity nétant not completely mastered locally tra 
14716 3 caresly studied, with a large degree of biodiversity with organisms interacting in complex trop 
ect lies within the national program of biodiversity, earth sciences and global change in the n 
l change in the national subprograme of biodiversity contributing to the thematic line of new t 
13336 7 fresh information portal for freshwater biodiversity will allow scientists and planners to comp 
t will shed new light on how freshwater biodiversity responds to global, european, and local en 
eal the status and trends of freshwater biodiversity, and the services that it provides. scient 
stressors interact to impact freshwater biodiversity. this work will help to shed light on how  
ental and local responses in freshwater biodiversity. until now, it has not always been easy to 
incorporate understanding of freshwater biodiversity explicitly into environmental agreements . 
the importance and beauty of freshwater biodiversity, and on the other to help policy makers ta 
7273 1 ater fish are essential for maintaining biodiversity. we propose to develop a non - lethal tech 
10249 2 ng our understanding of the patterns of biodiversity in the earth s largest ecosystem. the prop 
dvance our understanding of patterns of biodiversity in the deep ocean. undertaking the first r 
14706 1 . this region, considered one of the 25 biodiversity hot-spots of the planet, is ideal for such 
14937 2             the geographic structure of biodiversity is primarily determined by species distrib 
parasite relationships is important for biodiversity conservation in a world in which parasites 
11728 1 of molecular tools to address microbial biodiversity in natural environments and global change. 
14115 2 ure human well-being because of loss of biodiversity, particularly of vital keystone species th 
o be a steady decline in the quality of biodiversity, despite the adoption of a number of poten 
12036 1 st biological invasions are a threat to biodiversity, human health and agriculture. yet the par 
14420 3  status of water bodies, sustaining the biodiversity, supporting the sustainable ecosystem func 
s as well. recent information about the biodiversity and the environmental status in wetlands w 
ision making with a view to support the biodiversity and to optimize the wetland’s functions un 
14421 1 e species and their impact on the local biodiversity. 3. identified trends of invasive alien va 
14575 1 ost important determinants of change in biodiversity at a global scale, usually with harmful ec 
15564 7 ications of arguably the least explored biodiversity compartment in the biosphere: the unicellu 
ew methods for future surveys of marine biodiversity change and for evaluation of its ecologica 
source on marine unicellular eukaryotic biodiversity, providing a reference platform for curren 
re projects dealing with this important biodiversity compartment, and elevating the european co 
ternational research programs on marine biodiversity, major genetic databases and protist cultu 
ies in the fields of marine science and biodiversity have already expressed their interest in b 
impact publications, a co-authored book biodiversity of marine eukaryotes, and a public exhibit 
11601 2  with serious consequences for climate, biodiversity and sustainability. current gridded biomas 
t area, structure and change needed for biodiversity and forest management investigations. this 
13313 10                                         biodiversity indicators and monitoring frameworks are c 
eving the eu target to halt the loss of biodiversity by 2010 is the recently endorsed set of eu 
he recently endorsed set of eu headline biodiversity indicators. a requirement by the eu is to  
he indicator set and the development of biodiversity monitoring frameworks with tools that are  
 the impacts from community policies on biodiversity in a cost-effective way. the bioscore proj 
res from policy sectors to the state of biodiversity as measured by the presence and abundance  
ity policies as well as the eu headline biodiversity indicators. this tool will be applied for  
e tool will be integrated into existing biodiversity monitoring frameworks and incentives for u 
impacts of key drivers and pressures on biodiversity; - apply the tool for analysing the effect 
ess the impact of selected pressures on biodiversity; - propose incentives for a wide uptake of 
15126 1 etes together with data concerning host biodiversity will also increase our understanding of co 
13314 10 t the further development of a european biodiversity research strategy. such research strategy  
the conservation and sustainable use of biodiversity. this strategy is intended to support the  
t the decision-making process regarding biodiversity-related research at both the european scal 
o develop and continually revise the eu biodiversity research strategy - including the results  
ing the results of existing and ongoing biodiversity research projects in the development of th 
h projects in the development of the eu biodiversity research strategy. - linking the eu biodiv 
ity research strategy. - linking the eu biodiversity research strategy to the national, europea 
mes, especially the era-nets related to biodiversity issues - incorporating geoss objectives in 
ncorporating geoss objectives in the eu biodiversity research strategy - linking eu biodiversit 
iversity research strategy - linking eu biodiversity research strategy with international initi 
1083 3  understanding of relationships between biodiversity and global change. present knowledge of ev 
of evolutionary processes suggests that biodiversity is probably controlled by changes in the a 
iased by the low-resolution sampling of biodiversity unable to detect rapid pulses and turnover 
11242 6 edict, and perhaps prevent, the loss of biodiversity. for some groups, such as birds and mammal 
now where species live and can identify biodiversity hotspots - areas of the world with unusual 
es live is not enough: to determine how biodiversity will be affected by global change we need  
munities can influence the evolution of biodiversity over thousands to millions of years. does  
time-scales and how these changes alter biodiversity. more importantly, we can compare our pred 
portunity and competition in generating biodiversity i explore variation and evolution in the m 
2196 5                                         biodiversity of blue mussel ecosystems: patterns and pr 
 have an important structuring role for biodiversity and ecosystem function. the aim of this wp 
es to address some important aspects of biodiversity related to the baltic mytilus populations. 
 population structure may influence the biodiversity of the associated flora and fauna. another 
changes and flips and to changes in the biodiversity and ecosystem function. the wp should in a 
12017 2 udying long-term changes in climate and biodiversity. today, one of the main effects of rising  
ions. however, basic knowledge of their biodiversity, life cycle, and the function and molecula 
11035 1                                         biodiversity at all hierarchical levels, from communiti 
12032 4 cies. the alternative neutral theory of biodiversity neglects any role in the competition to ex 
ring together research efforts on plant biodiversity in french guiana, one of the privileged st 
he privileged study places for tropical biodiversity in france. create a coordinated database f 
ed database for different dimensions of biodiversity. the bridge project philosophy was to coll 
11738 1 peciation is the ultimate motor driving biodiversity , with significant implications for conser 
15430 2 tes constitute an important part of the biodiversity in land ecosystems with approximately 1500 
 threat of global climate change to the biodiversity of the planet, we propose to study the fol 
12059 2 recommendations for the conservation of biodiversity. in addition to providing new data, our pr 
ile human needs, ecosystem services and biodiversity in the sustainable development of this par 
13710 1 of large-scale environmental changes on biodiversity.  
11102 1  predicting particular human impacts on biodiversity, such as habitat loss and fragmentation, t 
10632 1 that may be responsible for most of the biodiversity that we see around us. it occurs when a si 
10045 5 ly does deforestation lead to a loss of biodiversity, it also adds to the concentration of gree 
tal benefits or ecosystem services like biodiversity and carbon storage that tropical forests p 
attributes of tropical forests, such as biodiversity. it is this broad concept of payments for  
forestation, conserve carbon stocks and biodiversity, and alleviate poverty through a single me 
ow to measure and monitor the carbon or biodiversity that a project claims to protect, the appr 
15422 1  habitat destruction, the main cause of biodiversity loss in marine ecosystems. alien species a 
12717 1 ll identify any gaps in the delivery of biodiversity or developmental objectives and provide re 
10243 2 poration of carbon at the sourhope soil biodiversity field site from atmospheric carbon dioxide 
nt to which plant, microbial and faunal biodiversity interact to control the fate of carbon in  
11005 2 poration of carbon at the sourhope soil biodiversity field site from atmospheric carbon dioxide 
nt to which plant, microbial and faunal biodiversity interact to control the fate of carbon in  
11216 2 poration of carbon at the sourhope soil biodiversity field site from atmospheric carbon dioxide 
nt to which plant, microbial and faunal biodiversity interact to control the fate of carbon in  
12710 1 vely manage landscapes that will enable biodiversity to adapt to climate change. •to provide a  
12723 1 vely manage landscapes that will enable biodiversity to adapt to climate change. •to provide a  
12480 1  flood risk, air quality, transport and biodiversity. however, there are extensive areas of bro 
14928 1 ll provide tools for decision-making in biodiversity management and conservation.  
14819 10 strial ecosystems and consequently, its biodiversity loss. this project tries to understand the 
e factors that have an influence on the biodiversity loss, to evaluate the interrelations betwe 
interrelations between soil quality and biodiversity and its implications on the ecosystems fun 
, soil degradation and its use with the biodiversity thematic. particularly relevant are the po 
 the primary factor that determines the biodiversity in some ecosystems. some authors consider  
ls that have lost a great part of their biodiversity is needed an appropriate handling of the o 
 persistence diminish directly the soil biodiversity and could affect the ecosystem functioning 
e effect of the soil degradation on the biodiversity loss on different soilsystems in the medit 
 within the objective 3.1.causes of the biodiversity loss. habitats loss and fragmentation: eff 
egradation on ecosystem functioning and biodiversity  
13848 2 he wake of large-scale consequences for biodiversity and ecosystem processes in the great lakes 
cercopagis on structural and functional biodiversity and significance of cercopagis as a consum 
10788 1 s policy relating to climate change and biodiversity in polar regions. the work is also extreme 
10804 1 s policy relating to climate change and biodiversity in polar regions. the work is also extreme 
1947 1     protection and restoration of plant biodiversity of semi-natural communities on mesotrofic  
528 2 s without any doubt the major threat to biodiversity in france. this phenomenon is the conseque 
s of interactions between agriculture - biodiversity. in this area, several farming systems co- 
14875 1 ates by leguminose shrubs and rhizobium biodiversity will be examined along the chronosequence. 
7150 1 larger scale on the development of agro-biodiversity of millet and sorghum in relation to chang 
6945 1 is to reveal the population density and biodiversity of microbial communities inhabiting the na 
10349 1 and the impacts of changing dynamics on biodiversity and climate change  
11786 1 and the impacts of changing dynamics on biodiversity and climate change.  
12185 1 nd without agri-environment schemes and biodiversity. the findings will be summarised in an int 
13465 1 ybee is vital for maintaining levels of biodiversity and agricultural production through its ro 
14514 1              the conservation of earths biodiversity is nowadays one of the priorities of susta 
7510 1 e of the project is to characterize the biodiversity of two groups abundant archaea in deep oce 
14231 1 ered today to be one of the main global biodiversity a threat. studies of climate and land use  
9835 1 e of the major threats currently facing biodiversity. predicting the impact of climate change f 
10476 1 roblems for wildlife including reducing biodiversity and the value of ecosystem services. not s 
13755 1 tive restoration methods to sustain the biodiversity that is typical for boreal streams.  
2006 1 on of reliable and validated indonesian biodiversity data from as far back in time as possible. 
2000 1 change could bring about changes in the biodiversity and species composition of these ecosystem 
12592 2 g pollutants and supporting aboveground biodiversity. soil organisms are likely to be directly  
mplex relationships between belowground biodiversity and the ability of the soil to withstand a 
7673 2 sources, and how this behaviour impacts biodiversity. the abms will be used to prospect several 
ving actors livelihoods while promoting biodiversity  
2056 1 f great concern from a conservation and biodiversity perspective because this biome is dominate 
1997 13  will base our study on climate induced biodiversity shifts in freshwater ecosystems on three i 
e disturbance hypothesis, the chaos and biodiversity hypothesis and the alternative stable stat 
e intermediate disturbance hypothesis', biodiversity is highest at intermediate disturbance lev 
e change can thus be expected to affect biodiversity by changing the disturbance regime. accord 
ance regime. according to the chaos and biodiversity hypothesis' internally driven oscillations 
ns may also be critical for maintaining biodiversity. according to this hypothesis climate chan 
esis climate change is likely to affect biodiversity by changing the physiology of the individu 
gly in community composition as well as biodiversity. climate change may potentially push these 
herefore have a large effect on aquatic biodiversity. we will review, test and apply each of th 
d international leaders in the field of biodiversity and ecosystem functioning of aquatic syste 
ial impact of climate change on aquatic biodiversity. the integrative approach of the programme 
nderstanding of the mechanisms by which biodiversity is obtained, which is essential for the de 
he effects of global change for aquatic biodiversity.  
1999 6       how will global change affect the biodiversity of aquatic ecosystems to tackle this quest 
te-disturbance hypothesis - the chaos & biodiversity hypothesis - the alternative-stable-state  
nt relations between global warming and biodiversity. to explore the potentially complex relati 
ation between global change and aquatic biodiversity in more detail, we propose to test specifi 
atic effects on biotic interactions and biodiversity in this planktonic system. the initial con 
ial impact of climate change on aquatic biodiversity.  
1998 7 stion how global change will affect the biodiversity of aquatic ecosystems using three influent 
te-disturbance hypothesis - the chaos & biodiversity hypothesis - the alternative-stable-state  
nt relations between global warming and biodiversity. this is a first indication that relations 
tions between global change and aquatic biodiversity are not necessarily simple. to explore the 
ation between global change and aquatic biodiversity in more detail, we propose to use time ser 
nges in disturbance regimes will affect biodiversity in these three types of models. we will us 
ial impact of climate change on aquatic biodiversity.  
15005 1 short ranges . an important part of the biodiversity existing in terrestrial ecosystems corresp 
2078 2 sider comparable information on dynamic biodiversity across groups oforganisms in time and spac 
limate conditions and change on dynamic biodiversity, and testing if the groups of organisms di 
424 1 n is an area considered as a hotspot of biodiversity . the simulated distribution of the cedar  
13612 1 ure climate change will affect european biodiversity. current species distribution models sugge 
15565 1 ure climate change will affect european biodiversity. current species distribution models sugge 
10137 1 70% of earth s surface, supporting vast biodiversity and providing major food resources for hum 
11019 1 70% of earth s surface, supporting vast biodiversity and providing major food resources for hum 
14317 3 portance for local, regional and global biodiversity, its ecology, dynamics and ecosystem funct 
he prerequisite to fully understand the biodiversity and functioning of an aquatic ecosystem. a 
ate factors driving species and trophic biodiversity of consumers, including fish. therefore, i 
14318 1 ine reference data on the c balance and biodiversity in pristine and intervened dense tropical  
13315 3                                 to stop biodiversity declines and meet future challenges, a bet 
a better understanding is needed on how biodiversity is affected by historic and current land u 
 of large scale, general predictions of biodiversity effects on land use change, and developmen 
13823 2 redictions regarding the maintenance of biodiversity in hosts and parasite where dispersal dyna 
tionary processes that are important to biodiversity and future evolutionary response.  
15583 3  the congo basin shelter an exceptional biodiversity, provide critical ecosystem services and s 
 degradation critically influence their biodiversity, in turn affecting the functions and servi 
cs, regime shifts and tipping points of biodiversity and the resilience of forested social ecol 
12715 1 acting upon protected site condition or biodiversity conservation in the wider countryside. thi 
15321 1  on mars. we will also characterize the biodiversity, structure and organization of the endolit 
15327 2  likely to be the greatest challenge to biodiversity conservation. streams are among the most t 
including severe consequences on stream biodiversity, ecosystem integrity, and ecosystem servic 
14898 1 t improvement of our knowledge on their biodiversity and taxonomy, with applications to their m 
13976 5   the project aims at investigating how biodiversity in the baltic archipelago is affected by h 
 be constructed to efficiently preserve biodiversity and benefit development of the society. we 
 of the society. we will use ecological biodiversity analysis to investigate how breeding coast 
nce of different ecological factors for biodiversity. the legal scientific part of the project  
nce between the interests of preserving biodiversity and maintain and develop human activities  
10333 1 andscape ecology and the maintenance of biodiversity and conservation science.  
9936 2 ental effects or via differences in the biodiversity of methanogens selected by each habitat. m 
l directly link methanogen and acetogen biodiversity, as determined by phylogenetic and functio 
10701 2 ental effects or via differences in the biodiversity of methanogens selected by each habitat. m 
l directly link methanogen and acetogen biodiversity, as determined by phylogenetic and functio 
10195 1 f direct relevance to basic biology, to biodiversity and conservation, biomedicine, and to the  
14220 2 ching implications for macroecology and biodiversity research. differences have been noted in t 
nd provide the necessary background for biodiversity studies.  
14131 1 e generated the current distribution of biodiversity. this approach, called comparative phyloge 
517 2              public action in favour of biodiversity in rural areas is part of the objectives a 
racts. wp1 : public action in favour of biodiversity facing obligation of result achievement: a 
7490 8                           european soil biodiversity is pivotal for delivering food, fibre and  
over, intensified land use reduces soil biodiversity and the resulting ecosystem services. soil 
m services. soilservice will value soil biodiversity through the impact on ecosystem services a 
disciplinary empirical studies and soil biodiversity surveys to construct soil food web models  
 and determine effects of changing soil biodiversity on stability and resilience of carbon, nit 
ls to develop a system for valuing soil biodiversity in relation to ecosystem services. objecti 
ressure of land use and changes in soil biodiversity. field and modelling studies will determin 
o what spatial and temporal scales soil biodiversity and soil ecosystem services are vulnerable 
13337 4                                 genetic biodiversity is recognised by the convention on biologi 
tion on biological diversity and the ec biodiversity strategy as one of three essential element 
conveniently use to incorporate genetic biodiversity into their policy framework. the six work  
 wp3 will provide a simulation tool for biodiversity managers to assess the power of genetic da 
10279 1  levels of larval exchange is vital for biodiversity conservation and fisheries management but  
7433 1  terms of management and restoration of biodiversity in wetlands. it will: -d'établir levels of 
7155 1 red one of the major current threats to biodiversity. and to build credible scenarios feature l 
7161 1 s a highly anthropic environment, where biodiversity is declining. many heritage species to opt 
445 1 are highly transformed ecosystems where biodiversity is being lost. many patrimonial species to 
7220 1 ntually, we hope to stop the erosion of biodiversity of marine birds in the region while improv 
14897 1 mographic viability analysis applied to biodiversity conservation as the basis to prepare manag 
2159 2 on efficiency and help reducing loss of biodiversity and cultural heritage. 3 cocos can improve 
istinct conservation goals connected to biodiversity and/or cultural heritage values to study i 
7471 4                                 genetic biodiversity is recognised by the convention on biologi 
tion on biological diversity and the ec biodiversity strategy as one of three essential element 
conveniently use to incorporate genetic biodiversity into their policy framework. the six work  
 wp3 will provide a simulation tool for biodiversity managers to assess the power of genetic da 
13529 1 tor unintended anthropogenic changes in biodiversity. so far, however, few genetic monitoring p 
6959 2 nservation interest only can survive in biodiversity hot spots; others can find their habitats  
 morphological and genetic diversity in biodiversity hotspots and human influenced landscape in 
7103 1 tion of rural areas at the interface of biodiversity conservation issues and development of agr 
10404 4 ast body of evidence showing that plant biodiversity affects the way in which ecosystems perfor 
which carbon is recycled or stored. but biodiversity has many components, and we have recently  
however, a largely ignored component of biodiversity is the variation at the level of the indiv 
 our understanding of the components of biodiversity that are important for carbon turnover, an 
7414 1  surfaces headland including highlights biodiversity loss through a lessening of honey resource 
12729 2 governmental science-policy platform on biodiversity and ecosystem services note: as a contribu 
governmental science-policy platform on biodiversity and ecosystem services unep/ipbes/3/3  
12711 2 tiated ‘the economics of ecosystems and biodiversity. teeb runs to 2010 will estimate the value 
rt recommendations for uk international biodiversity policy and highlight areas where the uk ca 
12713 1 governmental science-policy platform on biodiversity and ecosystem services  
12720 1 a robust assessment of the condition of biodiversity action plan priority woodland sites and an 
12746 4                                  global biodiversity outlook assesses the current status and tr 
sesses the current status and trends of biodiversity and the key drivers of biodiversity loss.  
 of biodiversity and the key drivers of biodiversity loss. it contains a succinct overview of t 
al diversity, progress towards the 2010 biodiversity target and its contribution to the achieve 
11564 1  local and global human activities into biodiversity-ecosystem functioning in marine sediments. 
2483 1 h expertise in comparative analyses and biodiversity. field and lab work will be conducted at l 
12598 1 the implications of peat extraction for biodiversity and carbon storage. peat use in soil impro 
12667 1  including: sustainable development, uk biodiversity action plan, cap reform, agri-environment  
10042 4 rged with the sustainable management of biodiversity. most conservation strategies either focus 
 remain intact, then many components of biodiversity should be sustainable. to date, there have 
f two conditions are met. firstly, that biodiversity is profoundly influenced by a limited numb 
 the complex reef habitat on which much biodiversity depends. this project builds on the succes 
7195 2 nt, have led to a significant change in biodiversity, common bird populations are particularly  
ublic policy on compromise production / biodiversity conservation  
515 1 ral territories liaising the stakes for biodiversity preservation and agricultural evolution. t 
444 2 t degradation is the principal cause of biodiversity loss. the aim of this project was to study 
atic grid made of 15500 2x2 km squares. biodiversity indicators were provided by the french bre 
7160 3 th status and become species, or impact Biodiversity phenomena such as the opening of the lands 
ke projections to assess the effects on biodiversity of different scenarios of changing habitat 
o understand the patterns and impact on biodiversity mechanisms involved and to be able to inte 
11387 1 una by the 1980s. eutrophication-driven biodiversity loss is a concern in many uk reservoirs wh 
2542 2 emeal approach to the environment where biodiversity often becomes objectified and essentially  
 of attitudes to the environment and to biodiversity; to the values, priorities and actions of  
15056 2  project is to study the cyanobacterial biodiversity of biofilms from rivers, through three dif 
proaches: to analyze the cyanobacterial biodiversity changes and/or variability in rivers with  
12033 1                                         biodiversity of chemosynthetic ecosystems in the deep o 
12772 1 ween resource protection efficiency and biodiversity benefits.  
7672 1 e predictable; their consequence on the biodiversity of microorganisms, therefore their evoluti 
7105 2               public action in favor of biodiversity in rural areas is part of the issues ident 
e broken down. since 2005, the national biodiversity strategy calls for accelerating the proces 
15128 1 low the establishment of strategies for biodiversity management in an area which is especially  
10968 1 the abundance, size structure, biomass, biodiversity and production, of ciliates. these paramet 
11779 3 teria constitute a major portion of the biodiversity and biomass in soils and consequently they 
nsensus on how alterations in bacterial biodiversity impacts on ecosystem functions such as the 
nmental variables affect soil bacterial biodiversity. we will do this by assessing all soil sam 
12765 1 evaluate the impact of wild boar on the biodiversity of woodland habitats and use these to asse 
11680 1 regarded as one of the major threats to biodiversity today. for example, the magpie moth is mov 
12683 1  making and prediction of landscape and biodiversity characteristics of retreat sites under dif 
9831 1  are now widely used to study microbial biodiversity in natural environments. however, attempts 
11715 1 e past 400 ma of the phanerozoic global biodiversity, ecosystem function, biogeochemistry and c 
7593 1 spectrometry for the study of metabolic biodiversity in escherichia coli and candida albicans.  
12245 2  the environment is minimised, and that biodiversity is encouraged. examples of the consequence 
arding animal welfare and enhancing the biodiversity in the farm ecosystem. a number of ifm com 
6960 1 f arable farming is a serious threat to biodiversity and ecosystem services. agri-environmental 
14726 6 of characterizing and monitoring forest biodiversity, which requires that appropriate biodivers 
ersity, which requires that appropriate biodiversity indicators are incorporated in forest inve 
 we will develop landscape-level forest biodiversity indicators that can be effectively applied 
es and other initiatives for estimating biodiversity in the spanish and european context. final 
c recommendations for the estimation of biodiversity at the landscape scale within the spanish  
aracterization and monitoring of forest biodiversity in spain.  
12522 1 t and to improve the attractiveness and biodiversity of the countryside. meeting this objective 
7702 1 proving actions for the preservation of biodiversity, and more generally of ecosystem functioni 
14431 1 of pattern and process in balkan diatom biodiversity, from both evolutionary and phylogeographi 
14119 1 e project is to promote introducing the biodiversity on different educational levels by a pract 
12023 2   land use change strongly modifies the biodiversity and functioning of semi-natural ecosystems 
ns organized with the teams of the jena biodiversity experiment, the model was parametrized for 
10142 1 ification, and change our priorities in biodiversity conservation. competition has long been pr 
1936 2                                   plant biodiversity in dutch heathlands and species-rich grass 
nto arable fields but serious losses in biodiversity occurred also in the remnants that have be 
12056 2 er the distribution mechanisms of plant biodiversity. another study has shown that some special 
 strong upheaval in the distribution of biodiversity with a sharp decline in species high in th 
15524 1 azon basin are among its most important biodiversity hotspots. during the last years, our team  
11731 1 will be relevant to major international biodiversity initiatives.  
2480 3  fish-kills. we lack knowledge on their biodiversity and quantitative distribution and dynamics 
l. the main objective is to unravel the biodiversity, seasonal dynamics of haptophytes from nor 
ogy to aquatic ecological problems. the biodiversity will be explored by a.o. environmental pyr 
7013 1 rnational research project indian ocean biodiversity assessment 2000-2005 what are the temporar 
421 1 tionship between land use intensity and biodiversity also has impacts on soil communities, lead 
14146 1  will provide valuable means for future biodiversity assessments that are more frequently based 
10427 1 onary biologists interested in modes of biodiversity and mammalian speciation.  
11218 1 onary biologists interested in modes of biodiversity and mammalian speciation.  
11427 1 onary biologists interested in modes of biodiversity and mammalian speciation.  
11874 1 cy relating to environmental change and biodiversity in polar regions. the work is also extreme 
10034 1  trying to understand the links between biodiversity and ecosystem function, including the mech 
10255 2 os will have major influences on global biodiversity and warming. in this study we want to test 
d important potential impacts on global biodiversity impacts.  
10241 2 tanding of genetic components of marine biodiversity in relation to reduced opportunities for o 
tems - water, biogeochemical cycles and biodiversity within the nerc five-year plan.  
11100 2 tanding of genetic components of marine biodiversity in relation to reduced opportunities for o 
tems - water, biogeochemical cycles and biodiversity within the nerc five-year plan.  
2169 1 that are identified as major threats to biodiversity today or are predicted to become major thr 
14602 2 e impact of these landscape dynamics on biodiversity patterns is not well known and its future  
f potential impacts of global change on biodiversity patterns in dynamic landscapes driven by f 
13880 2                           the impact on biodiversity of rapidly increasing recreational activit 
here; information that may help sustain biodiversity of this habitat, and contribute to a susta 
7147 1 uencing the dynamics and maintenance of biodiversity has mainly performed two time scales: inst 
10125 1 in the current age of escalating global biodiversity loss. however, although meta-analyses have 
426 1 nd, it is a very important component of biodiversity, and on the other hand it is an effective  
14319 1 e change, which have affected the lakes biodiversity, productivity and ecosystem resources. fut 
13339 3 in the present proposal is to develop a biodiversity observation system that is transmissible,  
ork already has long term data sets for biodiversity indicators eg butterflies and birds but th 
habitats that can be linked to specific biodiversity indicators. these will be identified using 
15584 2 in the functionality of ecosystems that biodiversity-at-large and human societies rely on. fort 
 limitations in our ability to forecast biodiversity trajectories using species-based models ap 
12029 2                marine chemical ecology: biodiversity indicators and development. ecimar aimed a 
e potential of the mediterranean marine biodiversity in terms of chemodiversity, and to better  
15351 1 al areas promotes a decrease in species biodiversity inhabiting it, inverting the dilution effe 
13317 2 o assess the impact of global change on biodiversity and ecosystems. these assessments include  
he most likely global change effects on biodiversity and ecosystems.  
2018 4 ntation and environmental change. plant biodiversity losses are generally explained by either h 
f the greatest challenges in explaining biodiversity loss is to assess, not only the individual 
 of the most important drivers of plant biodiversity loss. i will take these results forward by 
of environmental and genetic threats to biodiversity.  
519 2 a public policy stake for management of biodiversity on local and european scales. the regional 
 territorial policies for protection of biodiversity and the ecological assets. even though lan 
7182 1 in multiple and profound changes in the biodiversity and functioning of coastal ecosystems inva 
13466 2 real forests and are important for e.g. biodiversity. due to human interference, the annually b 
 soil and water chemistry as well as on biodiversity and recolonization of forest organisms is  
7635 1 cological system consisting of a unique biodiversity, can contribute significantly to the devel 
9859 1 ve species are a major threat to global biodiversity and are widely associated with human intro 
13480 1        the rapid and widespread loss of biodiversity caused by human disturbances on the ecosys 
12346 1 t involve dredged material disposal and biodiversity issues and widen both the sediment type an 
11410 2 ultant change in host community species biodiversity. secondary aims are to examine the role th 
tic diversity is in maintaining species biodiversity in ecological communities. the research wi 
9964 2 ultant change in host community species biodiversity. secondary aims are to examine the role th 
tic diversity is in maintaining species biodiversity in ecological communities. the research wi 
7688 3  of these fields on the conservation of biodiversity in agriculture. we also analyze the impact 
capes relative to the amount of habitat biodiversity seminaturel. the model used here is the co 
 landscape configurations favorable for biodiversity, which will be considered by agronomists t 
7603 2 w our capacity to act using the edaphic biodiversity to promote the biological improvement soil 
lity by the fact of considering edaphic biodiversity, especially lombricidés, as a key element  
7632 1 e are the most important threats to the biodiversity of the planet and the sustainability of ec 
7606 2  in shared gardens through the issue of biodiversity. this biodiversity will be assessed agains 
through the issue of biodiversity. this biodiversity will be assessed against the gardening pra 
7198 1 omass production, soil conservation and biodiversity, and carbon storage, without however, that 
10062 3 andscape to support a range of species, biodiversity being higher in more heterogeneous landsca 
pment of landscape management plans and biodiversity conservation strategies that together will 
development of landscape management and biodiversity conservation strategies. we will ensure th 
7708 1 ra skills in pond systems, modeling and biodiversity  
214 1 any researchers since the 19th century. biodiversity of tropical microbes, including fungi, has 
14163 1 ations of ecosystem structure may alter biodiversity and carrying capacity, together with a cha 
15311 1 f our understanding of the evolution of biodiversity. a clear example of this paradox is provid 
14124 1 evitable part of activities, focused on biodiversity protection. the results from our previous  
15033 1 indigenous communities, their threat to biodiversity and even because of their impact in the ma 
12039 1                           the microbial biodiversity of french soils: an endangered patrimony t 
2037 5                    loss and increase of biodiversity in marine ecosystems over relatively short 
mic analysis of the value of changes in biodiversity can contribute to its conservation and pro 
h. the project will focus on functional biodiversity. attention will be devoted to integrated m 
lues associated with marine systems and biodiversity will be studied. in particular, multiple e 
ticular, multiple effects of changes in biodiversity will be considered. including use values,  
1943 4 ing a national policy strategy on agro- biodiversity. from the chain/network perspective this p 
 for strengthening the position of agro-biodiversity in the food-supply-chain. on the basis of  
 in a national policy strategy on agro- biodiversity. this research project is directed towards 
ards the economic implications of agro- biodiversity and will be implemented by a post doc. the 
13870 1 ressure thereby altering the microalgal biodiversity the project aims at increasing the knowled 
13754 1  outcomes of these projects and whether biodiversity and ecosystem services are favoured or dis 
11402 5 protection of water quality, along with biodiversity conservation and maintenance of economical 
spanning the full gradient of fertility-biodiversity interactions, and includes 6 workpackages  
 assessment for regional assessments of biodiversity and ecosystem services. wp1 will use stake 
analyse current trends and condition of biodiversity and ecosystem services and their underlyin 
them, and thereby to raise awareness of biodiversity and ecological processes underlying ecosys 
481 3 spanning the full gradient of fertility-biodiversity interactions. vital includes six work pack 
 assessment for regional assessments of biodiversity and ecosystem services. wp1 will use stake 
analyse current trends and condition of biodiversity and ecosystem services and their underlyin 
10141 1  three gorges dam will be analyzed. the biodiversity, ecosystem resilience, and their associate 
11169 1  three gorges dam will be analyzed. the biodiversity, ecosystem resilience, and their associate 
7675 1  from our detailed understanding of how biodiversity and different ecosystem services are inter 
15493 1                   answering how and why biodiversity affects the provision of ecosystem service 
1092 2 s at comparing the relationship between biodiversity and ecosystem functioning in various habit 
n: population, community and landscape. biodiversity will be defined at population level . the  
15116 2 uate the quality of the territory using biodiversity indicators at landscape and ecosystem leve 
s between the structural and functional biodiversity of soil and the aboveground plant communit 
15117 2 uate the quality of the territory using biodiversity indicators at landscape and ecosystem leve 
s between the structural and functional biodiversity of soil and the aboveground plant communit 
7168 1 rhizal fungi alien not only in terms of biodiversity conservation, but especially in terms prot 
13741 3  the effects of forest fragmentation on biodiversity with focus on boreal forest edges. the mai 
structed for predicting edge effects on biodiversity at landscape level. expected outputs inclu 
nd optimal landscape configurations for biodiversity. the project is done in co-operation with  
13318 2 h the scientific basis and capacity for biodiversity conservation. the operational and structur 
ng of excellence to fulfil the needs of biodiversity and ecosystem research for taxonomy based  
14625 1            habitat fragmentation causes biodiversity loss, threatening plant species persistenc 
538 2 and animals, whereas the bulk of global biodiversity is in fact at the microbial level. althoug 
environmental change, land use changes, biodiversity, and functioning of forest ecosystems. the 
15289 2 n affect negatively the conservation of biodiversity and ecosystems functioning. the new cap re 
anced management of crop production and biodiversity conservation in mediterranean agricultural 
14434 4 owing concern about the conservation of biodiversity and sustainable management of environment, 
t is given to the effect of ski-runs on biodiversity. the present study aims to determine the e 
-runs in the pirin national park on the biodiversity of 7 model groups of organisms on the stru 
m to minimizing the negative effects on biodiversity.  
13806 1 o revise present strategies to preserve biodiversity. one example of a potential distribution s 
15216 1 pid and drastic changes such as loss of biodiversity.  
14920 1 matical model which would allow to link biodiversity and carbon cycle. these three aims will pr 
13855 4 f this project is to explore effects of biodiversity loss and eutrophication on local diversity 
complexity and resource availability on biodiversity and productivity by exposing macroalgal co 
are few studies that address effects on biodiversity by habitat change over more than one troph 
utrophication on ecosystem function and biodiversity.  
10814 4 which to manage reefs better to sustain biodiversity. we propose to study reefs in the philippi 
he world centre of shallow water marine biodiversity. reefs there stand to lose more species th 
will help us determine vulnerability to biodiversity loss, both of philippine reefs, and by ext 
l reef degradation, the consequences of biodiversity loss for today s and future generations, a 
2005 1 ro-organisms are the greatest source of biodiversity on earth, and plants drive the dynamics of 
13441 1 obal tourist attraction with its unique biodiversity and aesthetics. despite policies aimed at  
14469 2 rmation already available and to assess biodiversity components at regional scale; to calculate 
ze, fragment size, isolation degree and biodiversity components. ultimately, the project aims t 
7125 1  the issue of climate change impacts on biodiversity and functioning of aquatic ecosystems. Thi 
15245 2 by land use change is a major driver of biodiversity loss, but little is known about the effect 
hip often provides a partial picture of biodiversity loss because not all species are equally a 
13953 2 ts of habitat loss and fragmentation on biodiversity of macrofauna using mussel beds as a model 
 main cause for species extinctions and biodiversity declines, while habitat fragmentation mode 
13944 2 theory of metacommunities predicts that biodiversity and function of local communities are dete 
consequences of biological invasions on biodiversity and ecosystem function at multiple spatial 
14718 1 en suggested as the two main threats to biodiversity conservation. in the next years it is pred 
14833 3 ciated fauna as well as globally on the biodiversity, dynamic and behaviour of these ecosystems 
te change, land use and forest fires on biodiversity, dynamic and functioning of the areas of i 
ke models for predicting changes in the biodiversity of these communities as a result of the sm 
14832 3 ciated fauna as well as globally on the biodiversity, dynamic and behaviour of these ecosystems 
te change, land use and forest fires on biodiversity, dynamic and functioning of the areas of i 
ke models for predicting changes in the biodiversity of these communities as a result of the sm 
13739 4 tlands and how these transitions affect biodiversity and ecosystem functioning. changes in alte 
tate, result in a dramatic reduction in biodiversity and a degradation of ecosystem functioning 
w changes in seasonal migration affects biodiversity and ecosystem function in these systems. o 
trophic levels, resulting in effects on biodiversity and ecosystem functioning. the hypotheses  
13844 1 enetic and chemical analyses, where the biodiversity of associated communities, resistance, and 
1088 4 ion and global warming, but the role of biodiversity remains effectively unexplained. in genera 
terranean ecosystems despite their high biodiversity and their very fine spatial grain of veget 
diterranean maquis in relation to plant biodiversity. the expected results by the different res 
d discussion on the possible impacts of biodiversity changes on ecosystem processes at differen 
15517 1 rincipal threats to the conservation of biodiversity, particularly in areas where a large numbe 
14755 1 cupation about the relationship between biodiversity and food webs is obvious, and it should be 
11393 1 nation of stream invertebrate community biodiversity and fish abundance 4. gain a more fundamen 
7276 1 contribute to a better understanding of biodiversity patterns observed in natural settings, inc 
10661 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
10912 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11158 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11170 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11420 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11421 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11701 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
11702 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
9896 2 ation and education, the maintenance of biodiversity, and the space to build and maintain our s 
 positive aspects may include increased biodiversity from biomass crops; negative aspects may i 
462 1 sland characterized by a strong endemic biodiversity, contrasting climate conditions and import 
12503 1  is best applied to conserve or enhance biodiversity and ecosystem services, the ecn provides u 
7107 1 al continuity is public policy issue of biodiversity management of local scales at european lev 
13599 1            the successful management of biodiversity in a changing world requires an increased  
12286 1 es on agricultural systems and farmland biodiversity. defra has funded adas at drayton in warwi 
11747 1 velopment of strategies to maintain the biodiversity of these vulnerable ecosystems. we will te 
13970 1 lution and represents the basic unit of biodiversity. information on the factors influencing th 
11593 1 ng the most important centres of marine biodiversity, providing invaluable ecosystem services a 
7221 1 dagascar, characterized by high endemic biodiversity, contrasting weather conditions and major  
7017 3               understanding the role of biodiversity is a central theme of community ecology. h 
heme of community ecology. however, how biodiversity is regulated, and how biodiversity impacts 
 how biodiversity is regulated, and how biodiversity impacts ecosystem functioning, is still un 
7157 3 rvation medium and long term changes in biodiversity is currently recognized as an imperative n 
etween the dynamics of marine bacterial biodiversity and associated environmental changes. the  
enic accidents on the natural bacterial biodiversity, such as point source pollution by hydroca 
14435 2 n collaboration centre of excellence in biodiversity and ecosystem research about the biodivers 
ersity and ecosystem research about the biodiversity of bulgaria. the work program envisages 8  
9875 5 ture is currently the largest threat to biodiversity of birds globally and is likely to be a ma 
ic farming is one method that increases biodiversity relative to conventional methods of agricu 
nefits of organic farming. by promoting biodiversity and reducing chemical inputs, organic farm 
r waterways. many studies have compared biodiversity on organic and conventional farms or focus 
ore targeted schemes can yield the same biodiversity benefits as organic farming, without a who 
6894 1 lt, the quality of agri-environment and biodiversity improves, there will be a significant incr 
13320 5                  to halt the decline of biodiversity by 2010 is one of the most important objec 
nt objectives of the european community biodiversity strategy. despite of considerable effort w 
his is not a lack of methods to measure biodiversity or missing monitoring programs, but a lack 
 the main actions on a eu level to halt biodiversity loss. therefore it is a prerequisite to ev 
ite to evaluate its ability to maintain biodiversity. additionally eumon will develop methods t 
2517 1 al microbial communities are not on the biodiversity conservation agenda. nothing is known rega 
7011 2                               while the biodiversity ecosystem functiong by successively adding 
ons. ultimately, we will link nitrifier biodiversity in streams to nitrogen cycling and export  
9878 2 onservation strategies for beech forest biodiversity employed under natura 2000. furthermore, t 
urvival of beech forests and associated biodiversity for future generations.  
7454 1 in the present proposal is to develop a biodiversity observation system that is transmissible,  
7242 1 ight against eutrophication, erosion of biodiversity, trivialization of communities or organiza 
10354 1  forest. what does this mean for global biodiversity conservation on the ground monitoring of f 
12220 9 e ability of uk agriculture to meet the biodiversity targets being set by the government. in 20 
cts of policy decisions on land-use and biodiversity, amongst a wide range of social and econom 
 farming systems and land management on biodiversity. the aim of this desk study is to determin 
 land-use, and its consequent impact on biodiversity targets. the desk study will take changes  
icy questions that need to be answered, biodiversity targets that must be met in the future and 
nment which have the greatest impact on biodiversity and farmland bird populations. by understa 
 vegetation pattern and land-use affect biodiversity, it will be possible to assess and evaluat 
ent models for their ability to predict biodiversity changes. the models wil be critically revi 
to develop future policy in relation to biodiversity targets, particularly farmland bird popula 
13768 1       habitat loss is a great threat to biodiversity. still much work remains to quantify the e 
12574 1 p . this work is jointly managed by the biodiversity programme bristol team.  
14586 1 markers of pollution in areas with high biodiversity. the research will be developed in two sal 
7415 1 ems, causing significant erosion of all biodiversity compartments hosted by these environments. 
13716 4 gical heterogeneity to benefit farmland biodiversity. however, there is a lack of rigorous scie 
on of their effectiveness in preserving biodiversity. in particular, there is little understand 
ironment schemes on the preservation of biodiversity in different types of agricultural landsca 
use agri-environment schemes to restore biodiversity of farmland birds in sweden  
7048 2          new caledonia is one of the 34 biodiversity hotspots defined by conservation internati 
nd among these endemics, for evaluating biodiversity and compiling conservation strategies for  
11868 2 red to be a major force responsible for biodiversity. for these trait changes to occur, however 
t. we can thus connect these phenotypic biodiversity changes that were predicted as a consequen 
11872 2 red to be a major force responsible for biodiversity. for these trait changes to occur, however 
t. we can thus connect these phenotypic biodiversity changes that were predicted as a consequen 
11873 2 red to be a major force responsible for biodiversity. for these trait changes to occur, however 
t. we can thus connect these phenotypic biodiversity changes that were predicted as a consequen 
13323 3  functional role of trees as drivers of biodiversity will be deciphered by investigating their  
expertise for the purpose of education, biodiversity monitoring, and conservation. the network  
nd international efforts for preserving biodiversity, in particular, the resolutions initiated  
14740 1 re general aspects of basic and applied biodiversity research, i. e. speciation and adaptation  
10016 2 ribute to the origin and maintenance of biodiversity. the diversity of recent species is not eq 
usually large numbers of species. these biodiversity hotspots comprise important systems for in 
10470 1 ape the distribution and persistence of biodiversity. in fact an analysis of many thousands of  
11415 1 ape the distribution and persistence of biodiversity. in fact an analysis of many thousands of  
10472 1  will be relevant for the management of biodiversity in the context of climate change and human 
7376 1 ce where the evolutionary forces behind biodiversity must be exercised in vascular phytobactéri 
15201 1  mechanisms better explain the observed biodiversity patterns. in addition to these questions,  
13502 1 s. a very pertinent question concerning biodiversity is then how well populations will adapt, o 
10388 2 its concomitant effect on intraspecific biodiversity. this is a critical gap in our knowledge a 
s is a critical gap in our knowledge as biodiversity plays a key role in population persistence 
10273 1 t of nerc s focus on the maintenance of biodiversity in complex natural systems.  
12069 1 sting of the impact of global change on biodiversity do not currently incorporate the effect of 
10203 1 ificantly increase our knowledge of the biodiversity and function of this important group of mi 
10547 6       many of the threats facing marine biodiversity, from climate change to overfishing, occur 
 can gain a better understanding of how biodiversity is distributed at scales relevant to inter 
 results of local surveys into regional biodiversity databases. for instance, data on the distr 
much more about terrestrial than marine biodiversity, some of the questions we can address with 
ists working on large scale patterns of biodiversity. by establishing a collaboration between a 
s well as extending the scale of marine biodiversity research, then, we hope also to expand the 
12196 2 aim to deliver substantial benefits for biodiversity while minimising costs and complexity for  
or services and increased resilience of biodiversity to climate change impacts.  
12268 1 es on agricultural systems and farmland biodiversity. defra has funded adas at drayton in warwi 
12198 1 e different management prescriptions on biodiversity and ecosystem services over the life of an 
14228 4 s are considered to be major threats to biodiversity. due to vast changes in landscape configur 
 act upon different components of total biodiversity. we will use biodiversity partitioning bas 
ents of total biodiversity. we will use biodiversity partitioning based on historical species p 
l allow to estimate the state of future biodiversity in altered ecosystems.  
14746 1                                         biodiversity degradation is one of the most important a 
12511 1 de assessing approaches to dealing with biodiversity and function in relation to soil health, a 
15577 8 ch play an important role in conserving biodiversity. farmland biodiversity makes an important  
le in conserving biodiversity. farmland biodiversity makes an important contribution to agricul 
changes in farmland pattern on farmland biodiversity and the ecosystem services important for a 
icies which, if followed, would improve biodiversity and ecosystem services in farmlands withou 
areas of semi-natural lands have higher biodiversity and better ecosystem services than farmlan 
pped lands may be positively related to biodiversity and provision of ecosystem services. if th 
cies for agriculture that could restore biodiversity and associated ecosystem services by incre 
ndations for policy-makers that enhance biodiversity and ecosystem services in farmland.  
13769 1  is considered a major threat to global biodiversity and the ongoing climate change could alter 
14303 1 om coniferous to broadleaved forests on biodiversity and environmental quality, study of the at 
12221 5  systems employed can affect changes in biodiversity, and that these management systems should  
ould be optimised to assure the highest biodiversity attainable. for biomass crops, management  
ps, management systems that will affect biodiversity include the scales of growing, within a la 
ect aims to expand the evidence base on biodiversity in energy crops for policy development by  
licy development by determining how the biodiversity of miscanthus and src willow is affected b 
13372 1 lants present and unique in the turkish biodiversity.  
13757 9 nean and boreal biomes that impacts the biodiversity of ecosystems, species and genetic structu 
r the appropriate use of fire to foster biodiversity in three major european ecosystems. firema 
 ecosystems. fireman will focus on fire-biodiversity-society relationships in engage with local 
e societal preferences towards fire and biodiversity management and develop economic models to  
imes, local and regional models of fire-biodiversity-climate relationships that are used to exp 
ctions of local communities to fire and biodiversity management. these tools will be developed  
 and be used to impact policy to favour biodiversity. fireman will help with the european targe 
elp with the european target of halting biodiversity loss by 2010. the european environmental a 
veral types of forest in europe. from a biodiversity perspective, effective fire suppression ma 
9881 7 nean and boreal biomes that impacts the biodiversity of ecosystems, species and genetic structu 
r the appropriate use of fire to foster biodiversity in three major european ecosystems. firema 
 ecosystems. fireman will focus on fire-biodiversity-society relationships in engage with local 
s and local and regional models of fire-biodiversity-climate relationships that are used to exp 
ctions of local communities to fire and biodiversity management. fireman will help with the eur 
elp with the european target of halting biodiversity loss by 2010. the european environmental a 
veral types of forest in europe. from a biodiversity perspective, effective fire suppression ma 
473 9 nean and boreal biomes that impacts the biodiversity of ecosystems, species and genetic structu 
r the appropriate use of fire to foster biodiversity in three major european ecosystems. firema 
 ecosystems. fireman will focus on fire-biodiversity-society relationships in engage with local 
e societal preferences towards fire and biodiversity management and develop economic models to  
imes, local and regional models of fire-biodiversity-climate relationships that are used to exp 
ctions of local communities to fire and biodiversity management. these tools will be developed  
 and be used to impact policy to favour biodiversity. fireman will help with the european targe 
elp with the european target of halting biodiversity loss by 2010. the european environmental a 
veral types of forest in europe. from a biodiversity perspective, effective fire suppression ma 
15569 9 nean and boreal biomes that impacts the biodiversity of ecosystems, species and genetic structu 
r the appropriate use of fire to foster biodiversity in three major european ecosystems. firema 
 ecosystems. fireman will focus on fire-biodiversity-society relationships in engage with local 
e societal preferences towards fire and biodiversity management and develop economic models to  
imes, local and regional models of fire-biodiversity-climate relationships that are used to exp 
ctions of local communities to fire and biodiversity management. these tools will be developed  
 and be used to impact policy to favour biodiversity. fireman will help with the european targe 
elp with the european target of halting biodiversity loss by 2010. the european environmental a 
veral types of forest in europe. from a biodiversity perspective, effective fire suppression ma 
7275 1 d quantitative impact of v. velutina on biodiversity will be evaluated based on: 1 spectrum and 
15585 9               present models predicting biodiversity resilience to environmental change are alm 
at connectivity is a key determinant of biodiversity responses to anthropogenic changes of land 
amic link between management and future biodiversity scenarios using freshwater fishes as the s 
uild integrated scenario models for key biodiversity indicators colonize streams, lakes or more 
ivity may also have positive effects on biodiversity by hindering invasive species dispersal an 
ropogenic connectivity modifications on biodiversity such as the construction or removal of dam 
 habitat connectivity into scenarios of biodiversity maintenance, management and resilience. wh 
at multiple spatial scales ranging from biodiversity scenarios across europe to scenarios for s 
 management actions feedbacks to affect biodiversity scenarios.  
2133 1  stocks, threatening fisheries economy, biodiversity and the functioning of ecosystems. however 
12066 1 xa, fishes are the best known regarding biodiversity patterns and dynamics and play a predomina 
2089 2 ablish firm knowledge of the flagellate biodiversity and community structure of sandy beaches i 
ry limited and studies to elucidate the biodiversity and ecology of these habitats are long ove 
2500 1 ore fully understand the sensitivity of biodiversity to environmental variability and change.  
7318 5 f the axis 1 /"territorial strategy and biodiversity"to the extent that the relationship betwee 
axis 2 /"interdependence production and biodiversity systems"because sheep breeding systems, me 
omic, social and dynamic maintenance of biodiversity relationships between agriculture and biod 
y relationships between agriculture and biodiversity are complex and there are few examples of  
ctions. in the previous agriculture and biodiversity program, a multidisciplinary study was con 
10705 1 the overall modelling of the effects of biodiversity on carbon fluxes.  
7620 1 cal engineering methods for maintaining biodiversity and reduce the impact of forestry practice 
210 1 acts of modern agricultural practice on biodiversity, it is important to understand the relativ 
14314 2 he very relevant and timely question of biodiversity functionality. the network that will be fu 
iew on the functional aspects of forest biodiversity. the network will furthermore build bridge 
7145 3 of past agricultural practices on plant biodiversity in forest areas, in which we showed that t 
ce of the former land use on the faunal biodiversity. * measure the relative incidence of ancie 
cient customs and climate change on the biodiversity of the tree layer. * analyze and model the 
13464 2 forest soils are reservoirs of enormous biodiversity and contain diverse communities of ectomyc 
to sequestration of carbon. however the biodiversity of these organisms is affected by addition 
404 2 rational forest fertilization on forest biodiversity and productivity. the official report on f 
lasting fertilization effects on forest biodiversity and productivity, and identify responsible 
14504 1 on, and are very sensitive to losses of biodiversity because its isolation as consequence of st 
14972 4                             the lost of biodiversity is one of the biggest problem today. a lot 
ests might be great consequences to the biodiversity. by other hand, if a this problem we add t 
d the global change, the effects on the biodiversity will be increased. by this, the main objec 
 effect of forests fragmentation on the biodiversity along a stress gradient, using lichens com 
13873 1 especially relevant for conservation of biodiversity in boreal coniferous forests.  
7310 1 se service for integrated management of biodiversity resources area. this objective will be pur 
7710 1 we hope to improve their profitability, biodiversity and sustainability link production / lands 
15404 2  be major drivers of the ongoing global biodiversity crisis. a central tenet of fragmentation t 
 i.e. the scale most critical to inform biodiversity conservation policies and strategies. here 
10009 1 ing, and degraded the water quality and biodiversity of streams. whilst much research has been  
12038 3 mple, the present decline in freshwater biodiversity in north america is about five times great 
represent the most pervasive threats to biodiversity. under these circumstances our understandi 
r elaborating predictive models of fish biodiversity changes in response to ongoing and future  
11502 1 l change has important implications for biodiversity and associated ecosystems, our understandi 
7385 2 es of perception and management of agro-biodiversity, heritage both biological and cultural, ar 
for the conservation and enhancement of biodiversity and associated knowledge recently put up i 
2195 2 onships between natural disturbance and biodiversity of fucus biotopes. • to test and predict r 
nisms. • to produce models and tools on biodiversity patterns in fucoids that can be used in pl 
13836 1 sound strategies for the maintenance of biodiversity. in collaboration with population and mole 
11577 1  investigate, even more thoroughly, the biodiversity that underpins the smell of the seaside.  
1945 5 estion is how to integrate agricultural biodiversity measures, so that they improve both above- 
o evaluate consequences of agricultural biodiversity measures for crop protection against above 
thesize results from three former dutch biodiversity programme projects, model studies on natur 
irical meta-evaluation using soils from biodiversity trials to investigate how plant species di 
nd crop protection by agricultural soil biodiversity measures in relation to farmers income and 
2009 1 species. the maintenance of such a high biodiversity is, amongst others, possible through niche 
11329 1 ons for interpreting global patterns of biodiversity and predicting the impacts of climate chan 
13939 1 d light upon the significance of fungal biodiversity for the ecosystem function of boreal fores 
7020 7 n affairs massively changes our planets biodiversity, and this trend is expected to continue ov 
er the coming decades. human impacts on biodiversity take place against a background of highly  
research recognises the consequences of biodiversity loss for the services and goods ecosystems 
-economic factors interact to determine biodiversity and ecosystem functioning across scales is 
istry. despite considerable advances in biodiversity research during the past decade, which pri 
evelop the functional role of microbial biodiversity in ecosystems. micdif entails intensive th 
ovative and internationally competitive biodiversity - ecosystem function research in austria.  
15251 1  threat for the conservation of current biodiversity. climate models make now available tempera 
13738 1 oal is to demonstrate the importance of biodiversity for ecological processes in the sea. this  
418 1                the relationship between biodiversity and ecosystem functioning has emerged as a 
7135 1 tainable agriculture is to maintain the biodiversity in ecosystems anthropized. the research pr 
13558 3                            gbif - gobal biodiversity information facility - is an international 
network to enable free access of global biodiversity data via internet. gbif sweden, placed at  
the position will be retracted. because biodiversity databases have been established for variou 
15185 1 process with important implications for biodiversity conservation. the purpose of this project  
10506 1 standing of colonization, evolution and biodiversity. the research will examine the influence o 
9922 1 standing of colonization, evolution and biodiversity. the research will examine the influence o 
14652 2 onsidered the most important hotspot of biodiversity, and amphibians are extremely diverse ther 
his phenomenon. one the other hand, the biodiversity crisis and the fact that there are fewer a 
15335 1                                         biodiversity of chironomidae of streams in the high are 
10766 1 t is essential for our understanding of biodiversity that we assess the causes of population di 
14781 1 y to habitat loss as a threat to global biodiversity. the brine shrimp artemia franciscana is n 
11606 1                             the world s biodiversity has been moulded by the quaternary ice age 
13765 1 of guidelines for monitoring gene level biodiversity in harvested populations and for identifyi 
14653 1 roups is a basic demonstration of human biodiversity, with very promising perspectives nowadays 
13847 1 utionary models of general interest for biodiversity. in a large set of sub-populations of diff 
13520 1  monitoring and conservation of swedish biodiversity, the production of the encyclopedia of the 
13871 2  variation are important for preserving biodiversity. is neutral genetic variation a sufficient 
enetic variation a sufficient target in biodiversity research or do genetic variation at loci d 
13580 1 how the use of gm trees might influence biodiversity and ecosystem processes. by comparing the  
7292 1 ntially responsible for a large part of biodiversity  
14547 1 are a basic link in the conservation of biodiversity through the world. the main aim of this re 
11200 1  long-term environmental differences on biodiversity of soil bacteria, at the levels of the gen 
9869 1 g contribution to a developing field of biodiversity research. the application of genomic appro 
15498 1 nagement policies aimed to preserve the biodiversity of this unique habitat.  
14774 1  . this will provide insight into their biodiversity and the ecological and biogeomorphological 
10424 2                                         biodiversity hotspots are geographical areas that conta 
a disproportionately high proportion of biodiversity. here we consider three types of hotspot:  
10665 2                                         biodiversity hotspots are geographical areas that conta 
a disproportionately high proportion of biodiversity. here we consider three types of hotspot:  
10683 2                                         biodiversity hotspots are geographical areas that conta 
a disproportionately high proportion of biodiversity. here we consider three types of hotspot:  
9899 2                                         biodiversity hotspots are geographical areas that conta 
a disproportionately high proportion of biodiversity. here we consider three types of hotspot:  
10428 5     this is a proposal to build a novel biodiversity web-resource for monocot plants. the site  
nt of all monocots with rich associated biodiversity information; it would also be a platform o 
have revolutionised the way the core of biodiversity science is organised and accessed. we will 
ged the type of fundamental and applied biodiversity science that is possible and we argue will 
jor thematic priorities, the science of biodiversity.  
10759 5     this is a proposal to build a novel biodiversity web-resource for monocot plants. the site  
nt of all monocots with rich associated biodiversity information; it would also be a platform o 
have revolutionised the way the core of biodiversity science is organised and accessed. we will 
ged the type of fundamental and applied biodiversity science that is possible and we argue will 
jor thematic priorities, the science of biodiversity.  
11014 5     this is a proposal to build a novel biodiversity web-resource for monocot plants. the site  
nt of all monocots with rich associated biodiversity information; it would also be a platform o 
have revolutionised the way the core of biodiversity science is organised and accessed. we will 
ged the type of fundamental and applied biodiversity science that is possible and we argue will 
jor thematic priorities, the science of biodiversity.  
428 4 he study of the history and dynamics of biodiversity looks into interactions between human bein 
rstand the formation and development of biodiversity according to the uses and the practices as 
this project was devoted to documenting biodiversity changes in time and space according to flu 
e recorded in the various components of biodiversity, although the reaction time varies from on 
7144 6             the study of the history of biodiversity and its dynamics are fundamentally interes 
 in building process and development of biodiversity in connection with operating modes, practi 
tionships between global change, animal biodiversity and human societies on the northern part o 
 the program has sought to document the biodiversity changes over time and space in relation to 
e recorded in the various components of biodiversity but times response times are differentiate 
entiated according to the components of biodiversity. the remains of large herbivores appear as 
7212 2 y of the diversity of madagascar soils, biodiversity that they contain and the role of agencies 
s project could help policy in terms of biodiversity conservation and management of cultivated  
452 2 y of madagascars soil diversity, of the biodiversity it encloses and the role of the organisms, 
e of help for policy makers in terms of biodiversity preservation and management of cultivated  
417 3 gests that the sampling effort for this biodiversity remains insufficient and the understanding 
orld’s tropical forest landscapes where biodiversity is best known: the panama canal area. deta 
 to study the structuring mechanisms of biodiversity at this spatial scale, both looking at loc 
7134 4                                         biodiversity in tropical rainforests remains known prim 
ggests that the sampling effort of this biodiversity is still inadequate, and understanding of  
 of the tropical forest landscapes that biodiversity is best known in the world: the area of ​​ 
t to study the structural mechanisms of biodiversity at this spatial scale, both local diversit 
15171 4 st decades are having a major impact on biodiversity. despite being a hot spot for diversity, i 
that these groups largely represent the biodiversity of the system and its response to anthropo 
lies on the effects of global change on biodiversity, although there is also a part of this inf 
edicting in a robust way the changes in biodiversity at a regional scale through the use of dat 
11069 1 resources, flood risk, food production, biodiversity and human health and well-being on land, a 
15367 2 have remarked that the magnitude of the biodiversity loss seen today has only been recorded fiv 
here will focus on monitoring mammalian biodiversity evolution at a continental scale occurred  
7250 22      scientific objectives the issue of biodiversity is one of the major current issues in envi 
knowledge about the natural dynamics of biodiversity are significant, the study of relationship 
de- france are strategic places of high biodiversity and high traffic. the objective of this pr 
nces of territorial changes underway on biodiversity. the fight against climate change, the ero 
 against climate change, the erosion of biodiversity process is the second major theme of frenc 
2004 by the establishment of a national biodiversity strategy. the importance of this project i 
 area a favorable situation in terms of biodiversity, puisquon are no fewer than 14 000 species 
co-region"european. the preservation of biodiversity is an important criterion in this perspect 
of the people residing in the area of ​​biodiversity numerous scientific ecology work provide a 
 what are the high places of the island biodiversity -de- france and to better understand how t 
e actors and users of natural areas and biodiversity remains very unclear. few work in this fie 
 important, particularly in an ordinary biodiversity management purpose, know what the relation 
roups of actors with different forms of biodiversity, what are their expectations in this area  
en belt in the overall goal of managing biodiversity in the island -de- france in terms of natu 
areas and city centers, so they are the biodiversity - key spaces. however, in contrast to regi 
hese suburban areas prove strategic for biodiversity and more relationships between actors and  
d more relationships between actors and biodiversity. . * stages and expected a selection of ke 
uses of these areas of the greenbelt of biodiversity and their expectations in this area. - fac 
d examine the way is taken into account biodiversity in the territorial management every day. c 
uld better identify expected impacts on biodiversity. cartographic representation tools could w 
ess of exchange between stakeholders in biodiversity across each territory. it would certainly  
d objectives of the regional charter of biodiversity and natural environments  
7141 1 he mediterranean region is considered a biodiversity hotspot. the ranges of these species vary  
12706 1 iled sites, with emphasis on protecting biodiversity, recognising the priority habitat open hab 
12677 1 hich will enable updates to the england biodiversity indicators and contribute to completion of 
1932 1  habitat fragmentation and isolation on biodiversity, it is pivotal to investigate the relevant 
11365 1 s one of the greatest threats to global biodiversity, but empirical data from the field on the  
15262 2                                         biodiversity crisis is the most relevant problem facing 
ms around the world. the main causes of biodiversity loss and the so-called global change are c 
13602 1 oration efforts actually are to enhance biodiversity and functioning. landscape level restorati 
2175 1 eas and increase primary production and biodiversity on the northern norwegian coast.  
6869 1 ial heterogeneity in the maintenance of biodiversity. a novel feature in our models is that we  
14377 1  bogs are highly valued as habitats for biodiversity conservation and as landscapes of common e 
14777 1 ary islands are considered hotspots for biodiversity in the planet has certainly allowed for th 
7217 3 rial for neighboring systems, source of biodiversity or pollution buffer has been demonstrated  
imulating effects of these habitats for biodiversity and associated uses in the islands, some o 
rfold: 1 / characterize their intrinsic biodiversity; 2 / quantify the impact of human impacts  
7434 1  a strong local heritage and functional biodiversity of freshwater fish and provide innovative  
13325 5  designed to gain new insights into the biodiversity, structure, function and dynamics of ecosy 
d way by bringing together expertise in biodiversity, geology, sedimentology, physical oceanogr 
o that the generic relationship between biodiversity and ecosystem functioning can be understoo 
ation affect ecosystem development, and biodiversity hotspots, such as cold seeps, cold-water c 
 gas. hermes will enable forecasting of biodiversity change in relation to natural and man-made 
13340 1 sciplinary approach that will integrate biodiversity, specific adaptions and biological capacit 
14730 1  the following mechanism for generating biodiversity: local facilitation promotes permanence, t 
13798 2 in agricultural landscapes. much of the biodiversity value of agricultural landscapes depends o 
use in basic ecological research and in biodiversity conservation in agricultural landscapes.  
10270 2 ecosystem services from carbon storage, biodiversity, water provision, flood protection, aesthe 
ls to adress government psa targets for biodiversity, soil and water protection in uplands. res 
13341 4 in asia . factors assessed will include biodiversity and ecosystem services, including provisio 
nd evaluation of ecosystem services and biodiversity will be developed. action plans will then  
keholders at four sites displaying high biodiversity in asia and the ecosystem, livelihoods and 
ion. best practices aimed at conserving biodiversity and sustaining ecosystem services will be  
7481 4 in asia . factors assessed will include biodiversity and ecosystem services, including provisio 
nd evaluation of ecosystem services and biodiversity will be developed. action plans will then  
keholders at four sites displaying high biodiversity in asia and the ecosystem, livelihoods and 
ion. best practices aimed at conserving biodiversity and sustaining ecosystem services will be  
15004 6 due to the lack of information on their biodiversity. even if the phylogeny of the charipinae h 
pinae has been recently studied and its biodiversity has been broadly studied in europe and nor 
order to be able to establish the total biodiversity of the subfamily, and its role on the cont 
their main hosts, the aphids. once this biodiversity is known, some unresolved issues will be t 
ubfamily, and so from which the present biodiversity of the charipinae comes; - know the real b 
f the charipinae comes; - know the real biodiversity of the charipinae outside europe and north 
11640 1                                  global biodiversity is experiencing a dramatically high extinc 
2135 1  cover, low levels of nutrients and low biodiversity. thus, minor climatic changes may be of gr 
10703 1 o play an important role in maintaining biodiversity and ecosystem function, particularly in re 
11428 1 o play an important role in maintaining biodiversity and ecosystem function, particularly in re 
9874 1 ng the most important centres of marine biodiversity providing invaluable ecosystem services as 
14182 1 her insights into forest management and biodiversity conservation planning from the fungal pers 
14704 2 lture, medicine and the conservation of biodiversity. the distributions of many species have al 
mplications for the future responses of biodiversity to climate change both generally and in th 
12255 5 lting or reversing declines in farmland biodiversity associated with conventional intensive agr 
the impact of set-aside on above-ground biodiversity. however, limited information is available 
 soil organic matter and soil microbial biodiversity. soil organic matter as they are an import 
over which improvements to som and soil biodiversity take place following change to set-aside,  
of loss of any enhanced level of som or biodiversity in set-aside, following reversion to cropp 
10970 2 ral countries, therefore posing a wider biodiversity threat. however, almost nothing is known a 
of how such invasive pests may threaten biodiversity indirectly, by potentially changing the wi 
10488 1 ow much damage we have caused to global biodiversity and to predict how many more extinctions a 
10520 6                                         biodiversity change directly threatens the livelihoods, 
it in ways that either mitigate loss of biodiversity and ecosystem services or that exacerbate  
valent. in the un international year of biodiversity, scientists and policy makers must recogni 
licy makers must recognise that humans, biodiversity, and ecosystems must co-evolve and co-adap 
 co-adapt. however, human adaptation to biodiversity change is not considered as theme in any i 
o encourage decision makers to consider biodiversity, climate change and human livelihoods toge 
11528 6                                         biodiversity change directly threatens the livelihoods, 
it in ways that either mitigate loss of biodiversity and ecosystem services or that exacerbate  
valent. in the un international year of biodiversity, scientists and policy makers must recogni 
licy makers must recognise that humans, biodiversity, and ecosystems must co-evolve and co-adap 
 co-adapt. however, human adaptation to biodiversity change is not considered as theme in any i 
o encourage decision makers to consider biodiversity, climate change and human livelihoods toge 
9951 6                                         biodiversity change directly threatens the livelihoods, 
it in ways that either mitigate loss of biodiversity and ecosystem services or that ex-acerbate 
alent. in the un interna-tional year of biodiversity, scientists and policy makers must recogni 
licy makers must recognise that humans, biodiversity, and ecosystems must co-evolve and co-adap 
 co-adapt. however, human adaptation to biodiversity change is not considered as theme in any i 
o encourage decision makers to consider biodiversity, climate change and human livelihoods toge 
15060 1 pulations, constituting a major risk of biodiversity loss. the great bustard is a globally enda 
13342 8                                         biodiversity conservation increasingly takes place outs 
le-use landscapes. success in achieving biodiversity objectives is closely linked to the extent 
ptions, attitudes and preferences about biodiversity are central to the decisions made by indiv 
wider issue of how people interact with biodiversity. hunting provides a valuable case study in 
des a valuable case study in the use of biodiversity because it involves tens of millions of pe 
nally, how hunting behaviour influences biodiversity. consequently, we will integrate social, e 
ent and future eu policy on hunting and biodiversity conservation and contribute to the global  
bal debate about the sustainable use of biodiversity.  
10217 2 ancing our understanding of patterns of biodiversity in our planet s largest ecosystem. our pro 
e understanding of patterns of deep-sea biodiversity. because of this potential, the internatio 
10907 2 ancing our understanding of patterns of biodiversity in our planet s largest ecosystem. our pro 
e understanding of patterns of deep-sea biodiversity. because of this potential, the internatio 
7047 4 m soil, little has been known about the biodiversity and ecology of the genus above soil level. 
ected findings. in temperate europe the biodiversity of the genus hypocrea exceeds the biodiver 
rsity of the genus hypocrea exceeds the biodiversity of trichoderma in soil and it exceeds by f 
 macaronesia, regions that contain many biodiversity hotspots, but are endangered by increasing 
14984 1            following the studies on the biodiversity of lichens from the iberian peninsula and  
14986 1 his project follows the research on the biodiversity of lichens from the iberian peninsula. the 
14486 1  of the present project is to study the biodiversity of iberian nemerteans. nemerteans are freq 
15480 2 tant threat that exists nowadays on the biodiversity as a result of the climate change, between 
rming new surveys in the areas of major biodiversity detected previously, as well as in new are 
7218 1  will operate between the components of biodiversity, social organization modalities, public po 
458 1 derable interactions take place between biodiversity components, social organization methods, p 
13886 1 bilities for recreating and maintaining biodiversity. because follow-up studies are time-demand 
10502 1 us protecting our aquatic resources and biodiversity.  
10244 1 us protecting our aquatic resources and biodiversity.  
10246 1 us protecting our aquatic resources and biodiversity.  
10742 1 us protecting our aquatic resources and biodiversity.  
11220 1 us protecting our aquatic resources and biodiversity.  
12042 1                        the study of the biodiversity of the western part , and in gradients of  
10490 1 and varied life-histories that generate biodiversity in the natural world, as different organis 
11543 1 and varied life-histories that generate biodiversity in the natural world, as different organis 
14779 2 se of bird extinction scales explaining biodiversity. results will allow us to propose agri-env 
g the coexistence of viable farming and biodiversity.  
7634 2  led to a decline in soil fertility and biodiversity in these environments. more than 80 % of t 
ces in the context of the links between biodiversity and ecosystem functioning  
13890 1 he optimal age to do further studies on biodiversity of plants, mosses, lichens, tree and groun 
6961 1 ibution, phenology, populationdynamics, biodiversity. aims: to study the further distribution o 
7129 2                      global changes and biodiversity: relative performances of introduced and i 
determine how global warming may affect biodiversity. in terms of management and transfer to us 
7669 2        tropical andes are considered as biodiversity hotspots for conservation priorities. the  
b-andean and savannah ecosystems, where biodiversity and landscape are controlled by extended s 
7536 1  used to characterize the interspecific biodiversity. trace the history of the oak stands will  
427 2  several years, the impact of humans on biodiversity worldwide has highly increased. the global 
f the impact of past climate changes on biodiversity would greatly help to answer these questio 
14983 1 e systems that show a great richness in biodiversity including, in many cases, species which ar 
7554 1 op sustainable management strategies of biodiversity, we propose to characterize the human prac 
10305 1 nteract closely with plants to maintain biodiversity, amongst many other ecosystem goods identi 
11818 1 eometry on deep-sea biogeochemistry and biodiversity.  
14440 1 n of plant and animal species, i.e. the biodiversity of the impacted areas. the aim of the stud 
7469 2           . follow the current trend of biodiversity through the establishment of observatories 
es and species. complete the network of biodiversity observatories by creating the first perman 
10155 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
10414 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
10422 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
10758 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
10915 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
11423 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
11693 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
11706 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
9879 5 munities, as well as the maintenance of biodiversity and ecosystem function. in the seas around 
 also harbour incredibly high levels of biodiversity, any environmental change that affects the 
te the impact of ocean acidification on biodiversity and ecosystem functioning in coastal habit 
rganism behaviour, animal interactions, biodiversity and ecosystem functioning. the understandi 
act of future ocean ph scenarios on the biodiversity and function of coastal ecosystems. the co 
11270 1 nly is this significant for much of the biodiversity that is unique to the antarctic, but the s 
7429 2 ools to quantify and qualify the insect biodiversity across the grain farm. . - other soil inse 
cts and overhead involved in functional biodiversity of agricultural ecosystems different worki 
10310 3     there is a dissemination problem in biodiversity management at the interface between scient 
nting a model for knowledge transfer in biodiversity management through an evidence-based frame 
evidence to decision-makers to underpin biodiversity policy and practice. to date decision-make 
11026 3     there is a dissemination problem in biodiversity management at the interface between scient 
nting a model for knowledge transfer in biodiversity management through an evidence-based frame 
evidence to decision-makers to underpin biodiversity policy and practice. to date decision-make 
11261 3     there is a dissemination problem in biodiversity management at the interface between scient 
nting a model for knowledge transfer in biodiversity management through an evidence-based frame 
evidence to decision-makers to underpin biodiversity policy and practice. to date decision-make 
11521 3     there is a dissemination problem in biodiversity management at the interface between scient 
nting a model for knowledge transfer in biodiversity management through an evidence-based frame 
evidence to decision-makers to underpin biodiversity policy and practice. to date decision-make 
12239 1 vironment in their contribution towards biodiversity; both directly and also by supporting othe 
10084 1 aimed at conserving the environment and biodiversity of this unique and fragile ecosystem.  
11249 1 aimed at conserving the environment and biodiversity of this unique and fragile ecosystem.  
1090 1                     the conservation of biodiversity represents a primary objective that can be 
12035 1 hat use a wide range of pesticides. the biodiversity present inside bottom sediments of rivers  
12050 2     new-caledonia is one of the world's biodiversity hot spots. however, anthropogenic fires ar 
s of fuels, vegetation and invertebrate biodiversity. human practices related to fire will be s 
13745 2 hment. the project addresses aspects of biodiversity across scales in space, time, and function 
nsequences for sustainable land-use and biodiversity conservation. results will be incorporated 
7484 4 ems have been shown to benefit farmland biodiversity although a generic indicator system to ass 
for a scientifically-based selection of biodiversity indicators for organic/low-input farming s 
nt and validation of a set of candidate biodiversity indicators in representative case studies  
ed indicators and a sampling design for biodiversity monitoring in organic and low-input farmin 
7101 1 s in that it reconciles conservation of biodiversity and maintenance of human activities which  
512 3 s called natura 2000 aiming to preserve biodiversity while enhancing the value of the territori 
in terms of reconciling preservation of biodiversity and maintaining human activities , which o 
tura 2000 vis-à-vis the conservation of biodiversity in general through an analysis of biologic 
15338 1  fragmentation are major threats to the biodiversity conservation. in agricultural landscapes,  
7102 1 ultural and fishery products, enhancing biodiversity and ecological features of these environme 
514 2 er to increase the value of the role of biodiversity with an approach aiming to develop the ter 
 the preservation and management of the biodiversity in order to increase the value of their pr 
15400 1 and probably the most serious threat to biodiversity. several studies conducted during the past 
15437 5 up the highest percentage of the forest biodiversity, also acting as a keystone in forest dynam 
ce in the maintenance and generation of biodiversity. the main aim of the project is to analyze 
tic and abiotic factors influencing the biodiversity and structure of the saproxylic community  
networks to be applied in mediterranean biodiversity management and conservation programs follo 
ty as a powerful tool to understand the biodiversity from a functional and evolutionary view. i 
14982 1 ms of the planet because of their great biodiversity. however, in the last 50 years, more than  
2177 1 perties of the matrix are important for biodiversity of fragments, then conservation management 
13500 1 e consequences for wild animals and for biodiversity by its potential effects in complex ecosys 
13924 1 molecular information. statements about biodiversity rely heavily on the systematics and the ta 
12219 5 land management. the enhancement of the biodiversity value of grassland and other grazed habita 
esearch in support of grassland related biodiversity outcomes ranges from research supporting p 
ch on farm practice with respect to the biodiversity outcomes sought. this study will summarise 
 research approaches and targets to the biodiversity outcomes sought. following on from this, t 
provide guidance to defra on if and how biodiversity outcomes should be supported by this type  
12554 1 llinators is also essential to maintain biodiversity in natural ecosystems. pollinating insects 
2530 1 ly recently. these cold-water reefs are biodiversity and biomass hot spots in the deep ocean, a 
6943 3 in the emergence of spatial patterns in biodiversity. the new approach leads to a new interpret 
esults on ways to conserve and increase biodiversity, which can be applied directly in practica 
earch project, which, however, examines biodiversity at larger spatial scales using observation 
2099 1                                         biodiversity may be measured at many different scales f 
1104 2 effects on distribution, adaptation and biodiversity of water plants, spongofauna and trichopte 
 scenarios and their effects on coastal biodiversity and fishery task 2. scenarios simulation.  
403 1 esticides will be measured as decreased biodiversity and fish yield in the rice field ecosystem 
11776 1 ure climate change will affect european biodiversity. current species distribution models sugge 
472 1 ure climate change will affect european biodiversity. current species distribution models sugge 
1946 2 n as a tool for planning conditions for biodiversity. the aim is to develop an approach for int 
a potential regional investment in both biodiversity and economic values, and compare alternati 
13810 2 ries on piscivore stock composition and biodiversity, and fish stocking for restoration of thre 
r views on management, sustainable use, biodiversity and values of ecosystem functions also hav 
14768 1 hallenges raised by the current loss of biodiversity due to human activities and, as consequenc 
12542 1 research with potential applications in biodiversity, ecology and epidemiology. the main aim of 
15304 2 ty levels, with a corresponding loss of biodiversity. the biodiversity of inland saline waters  
corresponding loss of biodiversity. the biodiversity of inland saline waters includes physiolog 
10252 1  services, and carbon sequestration and biodiversity. we will seek to disaggregate the fes valu 
10425 2 neglected to consider a third strand of biodiversity called genetic diversity . genetic diversi 
tween researchers interested in genetic biodiversity, and wildlife conservationists. in doing t 
10990 2 neglected to consider a third strand of biodiversity called genetic diversity . genetic diversi 
tween researchers interested in genetic biodiversity, and wildlife conservationists. in doing t 
11173 2 neglected to consider a third strand of biodiversity called genetic diversity . genetic diversi 
tween researchers interested in genetic biodiversity, and wildlife conservationists. in doing t 
13452 1 conservation measures that both enhance biodiversity and farmers voluntary willingness to imple 
533 1           the main issue focuses on how biodiversity, principally approached from the viewpoint 
1942 5  and economic information about wetland biodiversity is necessary for the development and eva1u 
ernative management strategies in which biodiversity is promoted and its benefits to society ca 
ly disaggregated, for promoting wetland biodiversity and capturing associated values; 2. specif 
pecificy and operationalize targets for biodiversity stimu1ation, based on current policy and g 
ls pertaining to the sustainable use of biodiversity , against which the scenarios will be meas 
14513 1 ion systems , this is an area with high biodiversity, and a large number of endemic species and 
15115 2 , in this project we will develop sound biodiversity modelling systems that integrate current e 
spersal capability in order to quantify biodiversity responses to a changing perturbation regim 
15082 1 ecies is very high and, to confront the biodiversity crisis and the threats of the global chang 
9882 1 acts of climate and land use changes on biodiversity and to the conservation management of expl 
13865 4 . this has resulted in a severe loss of biodiversity and nutrient retention in agricultural wat 
ions: how can ecosystem functioning and biodiversity be optimised in these wetlands plant and m 
opment of plant species composition and biodiversity will also be followed in 18 experimental w 
ll be analysed for interactions between biodiversity, plant composition and ecosystem functioni 
13826 1 pen, one of the most valuable trees for biodiversity and how its recruitment is affected by ung 
7696 1 ence ' of piringecotech, ibis"integrate biodiversity into the operating systems,""experimental  
15194 1 ns were performed. studies on microbial biodiversity in this kind of geological formations are  
13940 5 ironmental perturbations and functional biodiversity of wood decay fungi will be studied. the r 
om previous studies on productivity and biodiversity in terrestrial and aquatic ecosystems to e 
roduction and decomposition. functional biodiversity will be studied by differentiation accordi 
o evaluate the role of wood decay fungi biodiversity under perturbations of the ecosystem by me 
t decomposition decrease with increased biodiversity under constant temperature but increase un 
11527 1 ed by natural resources, ecosystems and biodiversity. this is problematic both because those va 
11561 2  these bacteria as few can be cultured. biodiversity estimates based on dna analysis disagree m 
ns for the determination of biomass and biodiversity in potentially the largest bacterial habit 
7378 2 s dhs upsets local uses of agricultural biodiversity in vietnam. it is to measure the real impa 
 local governance will help to conserve biodiversity of cultivated species  
15089 1 hat the factors that concern saproxylic biodiversity are complex, and it is necessary to direct 
15322 1 e among the principal threats to global biodiversity. the primary objective of this project is  
14279 1  are considered an increasing threat to biodiversity, but the underlying principles are poorly  
13594 1 is two-fold: and the species’ effect on biodiversity in aquatic communities.  
7243 1 cond factor responsible for the loss of biodiversity after the disturbance of natural habitats. 
10011 1 ences for human health, agriculture and biodiversity. one of the most devastating diseases to e 
14841 2  recognized as a major threat to global biodiversity. management and control of nonindegenous s 
 as the protection of native freshwater biodiversity.  
7018 1 16564 was mainly designed to assess the biodiversity of the genus hypocrea in to establish a co 
6814 1 e and ensures their proper functioning. biodiversity monitoring programmes were started in hung 
14445 2  groups for long term monitoring of the biodiversity for assessment of the ecosystems in bulgar 
methods for long-term monitoring of the biodiversity of epigeobiont and geobiont invertebrates  
12749 1 governmental science-policy platform on biodiversity and ecosystem services  
11127 1 ation of ecosystems and preservation of biodiversity. it will inform policy makers of the impac 
2173 1 erborea kelp forests and its associated biodiversity are under pressure by kelp trawling, grazi 
14666 1 st line. our aim is to characterize the biodiversity of the kinorhynch fauna, with the descript 
15175 1 almeria. our aim is to characterize the biodiversity of the kinorhynch fauna, with the descript 
13343 3                         knowledge about biodiversity and ecosystem services is well advanced in 
dge is accessible and that all existing biodiversity research communities and other knowledge h 
p a recommended design for a scientific biodiversity network of knowledge . wp6 takes care of p 
7219 2 s is characterized by a rich and unique biodiversity, with endemism rate exceeding 70 % in some 
rtheless constitute quune small part of biodiversity. relying on little-known groups, and part  
12423 1  marine mammals; cold water ecology and biodiversity; and, socio-economic factors involved in w 
459 2 is characterized by a rich and original biodiversity, with an endemic level capable of exceedin 
hese only represent a small part of the biodiversity. relying on less known groups , and a part 
7015 7 assic food web, and what is the role of biodiversity in modulating this connection it is well e 
 this interaction between predation and biodiversity of the prey is dependant on the productivi 
 have less of a positive impact on prey biodiversity, while at very low productivity, the same  
 predation pressure may actually reduce biodiversity. it is often difficult to show strong conn 
r a broad range of predation pressures. biodiversity will be measured with both morphological a 
action of predation and productivity on biodiversity within the microbial food web can be exami 
ary productivity, and on how changes in biodiversity affect ecosystem functioning.  
2171 1 browsing, which in turn lead to loss of biodiversity and ecosystem functions. the other cascade 
2525 1 ribute to maintenance of ash-associated biodiversity, sustainable management of ash stands and  
2543 1 at the growing deer population may harm biodiversity and ecological processes. such knowledge r 
2524 1  in spite of extensive amount of forest biodiversity research in fennoscandia, the exact mechan 
2523 5   there is an urgent need for long-term biodiversity data to assist in the prediction of future 
a to assist in the prediction of future biodiversity changes in response to global change. long 
, and turnover, the major components of biodiversity that determine the functional traits of ec 
 estimation of these four components of biodiversity at sites situated in the major vegetation  
to synthesise, interpret, and model the biodiversity patterns in space and time.  
2074 3  of forest, natural ecosystem dynamics, biodiversity, ecosystem function, and long-term change  
assessed measures of habitat qualities, biodiversity, and ecosystem processes will provide info 
 thereby be able to analyze patterns in biodiversity and ecosystem processes in relation to hum 
2087 3  of forest, natural ecosystem dynamics, biodiversity, ecosystem function, and long-term change  
assessed measures of habitat qualities, biodiversity, and ecosystem processes will provide info 
 thereby be able to analyze patterns in biodiversity and ecosystem processes in relation to hum 
13986 2 nd spatial pattern affect present plant biodiversity patterns. however, this has not been verif 
ty. this project is highly relevant for biodiversity conservation and theoretical landscape eco 
15458 1 ations of theses changes of use for the biodiversity and the functioning of mediterranean ecosy 
13723 1 standing of the mechanisms that control biodiversity. theory predicts that habitat fragmentatio 
15032 1 es is considered to be a major cause of biodiversity losses at a global scale. however, fragmen 
10123 6 ase study for examining these issues. a biodiversity offset scheme is in the pipeline, a prereq 
tribute to understanding of the role of biodiversity offsetting in landscape management, in a c 
and to explore the impacts of potential biodiversity offsets. - to analyse the uncertainties an 
cal and economic trade-offs involved in biodiversity offsetting in the region, and provide poli 
elevant both to the climate systems and biodiversity themes of nerc, as well as to the lwec pro 
ovement. it also addresses the issue of biodiversity offsetting, an approach which is gaining p 
10314 2 rming pace. such rapid change threatens biodiversity as organisms struggle to cope with stressf 
ations respond. thus, to understand how biodiversity will be impacted by changing environments, 
14121 4 n ecology is to explain the patterns of biodiversity and the mechanisms and processes that form 
. this knowledge is essential to manage biodiversity conservation. until recently biodiversity  
odiversity conservation. until recently biodiversity has been viewed on the level of species ri 
species richness we fail to assess true biodiversity on the level of various evolutionary linea 
14621 1  understand the generation of different biodiversity patterns may be analyzed now in mammals an 
11084 1 ttempts, throughout europe, to increase biodiversity and environmental quality by restoring low 
15481 1 lanning. in this sense, conservation of biodiversity and restoration of forest systems account  
7225 1  ocean have been identified as a global biodiversity hotspot. we propose to explore the ecologi 
466 1 have been listed as hotspots for global biodiversity. we propose to explore the ecological and  
2474 3                          maintenance of biodiversity and other ecosystems services essential fo 
on and give incentive for protection of biodiversity. there is uncertainty about what types of  
fluencing ecosystem services, including biodiversity, and that differences in legal frameworks  
14809 4 o accelerate the rate of destruction of biodiversity. an extremely dynamic geological history a 
on in one of the planetary hot-spots of biodiversity. unfortunately, overpopulation and a long- 
ic changes on the origin and shaping of biodiversity in the western mediterranean. they are bot 
the understanding of the origins of our biodiversity and for its conservation. moreover, we wil 
7040 2                                         biodiversity can be assessed at different scales: as th 
ains. the area is highly attractive for biodiversity studies, because it represents one of the  
10866 1 de-off results in intraspecific genetic biodiversity through differential selection of genotype 
15396 2 red the most important key pressures on biodiversity. under different scenarios, global tempera 
dropping below the lower limit, and the biodiversity will disappear at that location unless it  
13344 3 ience and technology infrastructure for biodiversity data and observatories will be a large-sca 
nd a programme for public services. the biodiversity research infrastructure will open up new a 
e. in addition, the leading networks in biodiversity science and stakeholder institutes are pre 
15586 1         the accelerating loss of global biodiversity has affected species in all biomes and eco 
2026 2 n plant quality. i will use an on-going biodiversity experiment to study the relationship betwe 
e relationship between vegetation, soil biodiversity and aboveground invertebrates, and in a se 
13868 1  the lake into being turbid, having low biodiversity and being dominated by phytoplankton. how  
14281 1 ce in this dramatic reduction of earths biodiversity.m.dufrene@mrw.wallonie.be  
2044 1 he level of the population a functional biodiversity index and link this index with a classical 
14721 4 n more about the inter-relationships of biodiversity at different spatial levels. the functiona 
ifferent spatial levels. the functional biodiversity of soil through the determination of diffe 
l will allow us to evaluate the overall biodiversity and establish relationships between both l 
ems is expressed. as a result, the best biodiversity indicators for the evaluation of natural s 
14581 7 n more about the inter-relationships of biodiversity at different spatial levels. thus, the fun 
nt spatial levels. thus, the functional biodiversity of soil through enzyme activity and the st 
ough enzyme activity and the structural biodiversity of ecosystems through plant species will b 
erstanding of functional and structural biodiversity in the ecosystem will make it possible to  
 of the ecosystem. moreover, indices of biodiversity will be calculated at landscape level are  
l will allow us to evaluate the overall biodiversity and establish relationships between both l 
ems is expressed. as a result, the best biodiversity indicators for the evaluation of natural s 
14582 7 n more about the inter-relationships of biodiversity at different spatial levels. thus, the fun 
nt spatial levels. thus, the functional biodiversity of soil through enzyme activity and the st 
ough enzyme activity and the structural biodiversity of ecosystems through plant species will b 
erstanding of functional and structural biodiversity in the ecosystem will make it possible to  
 of the ecosystem. moreover, indices of biodiversity will be calculated at landscape level are  
l will allow us to evaluate the overall biodiversity and establish relationships between both l 
ems is expressed. as a result, the best biodiversity indicators for the evaluation of natural s 
14722 4 n more about the inter-relationships of biodiversity at different spatial levels. the functiona 
ifferent spatial levels. the functional biodiversity of soil through the determination of diffe 
l will allow us to evaluate the overall biodiversity and establish relationships between both l 
ems is expressed. as a result, the best biodiversity indicators for the evaluation of natural s 
7294 2                              estimating biodiversity is an ongoing challenge. a non-invasive, i 
 the dynamics and the potential loss of biodiversity  
13345 2                  livediverse . finally, biodiversity and livelihood scenarios will be developed 
es and policy to meet the needs of both biodiversity and livelihoods.  
7709 1 owever, designs and knowledge to manage biodiversity at the interface plant / animal, including 
12165 1 e plants are priority species in the uk biodiversity action plan and these and several other un 
12065 3 um collections a response tool for most biodiversity crisis is neither charismatic nor media: i 
d for 30, 50 or even 100 years. thereby"biodiversity crisis"and"sixth extinction"are expression 
ure of natural history collections in a biodiversity crisis context. the successful model is th 
226 1 ind out how the different parameters of biodiversity – genetic diversity, phylogenetic diversit 
7046 1 x of climate change, eutrophication and biodiversity loss. our multidisciplinary results will b 
13327 5 rojections of climate change impacts on biodiversity. it will assess the available options to p 
ble future impacts of climate change on biodiversity. this includes the review of possible clim 
es and their potential effect on future biodiversity. macis wants to further develop a series o 
is wants to further develop a series of biodiversity and habitat models that address biodiversi 
versity and habitat models that address biodiversity impacts, and are capable of calculating th 
2197 1 ascular plants may pose a threat to the biodiversity of the marine communities will be assessed 
183 1 al databases; and field works gathering biodiversity and environmental data at the regional sca 
11059 3 and environments shape the evolution of biodiversity in a group of organisms over a long period 
pen varies among species and over time: biodiversity is too unevenly spread among different gro 
rmation about how the processes shaping biodiversity have changed over time. the fossil record  
11304 3 and environments shape the evolution of biodiversity in a group of organisms over a long period 
pen varies among species and over time: biodiversity is too unevenly spread among different gro 
rmation about how the processes shaping biodiversity have changed over time. the fossil record  
6737 2 s there were significant changes in the biodiversity of river danube regarding both the differe 
date inventory of the macroinvertebrate biodiversity.  
2194 2  phanerogams and quality correlate with biodiversity of associated fauna. processes generating  
such as zostera marina as indicators of biodiversity.  
12727 1 the uks input into a gmes ‘use case for biodiversity. *for the purposes of this project ‘earth  
2049 3 ous levels and patterns of agricultural biodiversity management. a description of major element 
dation, an option of local agricultural biodiversity conservation aiming at improved livelihood 
ed and inducing changes in agricultural biodiversity management at the local level is important 
13808 3                                         biodiversity is an important aspect of forest areas tha 
unting, etc. we focus on the effects on biodiversity by three types of management in suburban f 
s. in field experiments, the effects on biodiversity by management are examined for three troph 
1923 4                                         biodiversity of natural ecosystems is strongly affected 
n ecosystem processes. thus, changes in biodiversity can alter ecosystem processes, which may h 
actions between above- and below-ground biodiversity , and their consequences for restoration o 
that are faced durin the restoration of biodiversity in pastures withdrawn from agricultural pr 
14277 1  as flood protection, amenity value and biodiversity preservation.  
12673 3       in 2005, the england business and biodiversity strategy implementation group asked zoe co 
uk business for the management of their biodiversity impacts. this work was a preliminary asses 
els of activity within the business and biodiversity community, the information needs updating  
13328 4                     knowledge on marine biodiversity in europe is fragmented within and between 
reased anthropogenic pressure on marine biodiversity has hitherto been ad hoc and local. in par 
-term and large-scale changes in marine biodiversity. this requires an entirely new research fr 
tainable use and exploitation of marine biodiversity. this includes tourism, fisheries and aqua 
11208 2 rc mfmb programme further increases the biodiversity of the collection and enables the wider re 
nformation; and crucially to extend the biodiversity maintained within the collection.  
10201 2  in the marine and freshwater microbial biodiversity directed programme. important advances hav 
 main areas: in understanding microbial biodiversity in the oceans and contrasting this with fr 
167 2 ecological processes and marine benthic biodiversity at a number of spatial and temporal scales 
 of various ecological processes in the biodiversity of the simple benthic communities in the n 
12663 1 he likely environmental benefits of new biodiversity policies outlined in the marine bill white 
12649 2                                  marine biodiversity plays a fundamental role in supporting a w 
rue appreciation of the value of marine biodiversity  
12437 1 y the impact that fishing has on marine biodiversity loss. there are indications that we are im 
2178 2 al processes, ecosystem functioning and biodiversity. merclim will provide critical new underst 
of control on ecosystem functioning and biodiversity. a major focus of merclim will be the opti 
12664 1 osystems goods and services' and the uk biodiversity partnership standing committee has also ag 
7398 1 they are central to the conservation of biodiversity. the objective of the multi-agent modeling 
2467 1  production of fish biomass and seabird biodiversity on our planet.  
10896 2    evidence of the links between marine biodiversity and ecosystem function indicates that the  
tem function indicates that the loss of biodiversity is likely to have serious consequences for 
1981 1  relevant for estimating the effects on biodiversity of global climate change, of which climati 
7707 1 , guarantee sustainable development and biodiversity for 16 and mediterranean activities territ 
2038 2 socio-economic values of ecological and biodiversity functions provided by the dutch wadden sea 
to the effects of marine ecosystems and biodiversity values provided by the dutch wadden sea. i 
10019 2 ge together represent a great threat to biodiversity because species face the difficult task of 
eviate the effects of climate change on biodiversity, and which actions are most efficient in t 
11572 2 ge together represent a great threat to biodiversity because species face the difficult task of 
eviate the effects of climate change on biodiversity, and which actions are most efficient in t 
7270 1 iculty of understanding the dynamics of biodiversity in eco- sociosystems providing goods and s 
15373 2 he temperature or ph, may influence the biodiversity of the organisms that are adapted to such  
vironments are habitats with an unknown biodiversity due to the difficulty to culture many of t 
15356 1  that are involved in the generation of biodiversity over long periods of time. this proposal i 
7679 1 ulates and carnivores are components of biodiversity and provide important ecosystem services , 
7277 2 act synergistically to cause erosion of biodiversity in fish: global warming, invasions of spec 
ion of the mediterranean ichthyological biodiversity in order, to judge the appropriateness of  
13586 2  of the project is to estimate how much biodiversity will be protected when forest areas are se 
 strategy, i.e. how to protect the most biodiversity with the least money. the project uses dat 
7680 2 n surface vegetation types and thus the biodiversity associated, including the distribution of  
ods of landscape management to maintain biodiversity in the context of the commitments of the o 
13330 4 h water and marine ecosystems and their biodiversity at a river basin and adjacent marine envir 
effect-relationships between changes in biodiversity and the ecological status, as addressed by 
anagement options to prevent effects on biodiversity and to prioritise contamination sources an 
ution on aquatic eco- systems and their biodiversity by extensive training activities and knowl 
7676 3  are the main constituent of wild plant biodiversity. they are a particularly interesting biodi 
ty. they are a particularly interesting biodiversity case study because of their dual nature, c 
also providing food resources for other biodiversity components  
13763 3  is a key factor in the preservation of biodiversity for the future. in historical rural landsc 
nd-cover and land use changes threatens biodiversity as habitats becomes smaller, and spatially 
rs. this project is highly relevant for biodiversity conservation and theoretical landscape eco 
12593 2 ion 6. sealing 7. landslides 8. loss of biodiversity models of these pressures and threats will 
s representation based on soil physics. biodiversity models will be empirical and may be statis 
7681 1 ies systems, including their impacts on biodiversity.  
12260 4                  enhancing or retaining biodiversity in agricultural ecosystems is a key priori 
ms is a key priority within the uk. the biodiversity of agricultural landscapes is determined b 
andscape and management factors, affect biodiversity within agroecosystems, with a focus on how 
ncentives could be utilised to optimise biodiversity enhancement within agoecosystems.  
10493 1  of habitat and freshwater and riparian biodiversity, lowered drinking water quality and, in so 
15259 2 slands and their meaning in the current biodiversity will be carried out. for that the most imp 
 islands a comparation with the current biodiversity data.  
7154 1 nability or to inform the management of biodiversity. uncertainty and climate or global dynamic 
12062 1                            the moroccan biodiversity is one of the richest of northern africa a 
11344 1 be cloned and sequenced to describe the biodiversity within the cellulose-degrading community,  
7494 1 population analysis and functional high biodiversity rate. the gains will also be used to devel 
15007 1 he processes given rise and maintaining biodiversity patterns, main object of biology evolution 
14912 1  that are involved in the generation of biodiversity over long periods of time. the objective o 
15435 4 and the processes that gave rise to the biodiversity patterns we observe nowadays and how bioti 
e is basic to better handle present day biodiversity, to understand how humans have and are aff 
nd how and where should we restore lost biodiversity or help the landscape to recover. in this  
his type of analyses in two hotspots of biodiversity, both highly threatened due to human activ 
13708 1 stainable resource use, preservation of biodiversity and economic development.  
15392 2                 mountain landscapes and biodiversity are changing. there are two main factors r 
 and the way in which future changes in biodiversity due to global warming will occur, dependin 
15024 1  new tools of conservation of the plant biodiversity in these biotopes.  
13814 3                             much of the biodiversity value of agricultural landscapes is depend 
ectiveness of these schemes—in terms of biodiversity and ecosystem service benefits to society— 
licy recommendations for achieving more biodiversity value at less cost.  
7265 1 interrelationships between development, biodiversity and climate change; - mobilize naturalists 
10871 1 wth, in addition to the hard science of biodiversity and ecology. this grant supports 4 full st 
11126 3 rect involvement in plant conservation, biodiversity-related informatics or survey, or for care 
nformatics or survey, or for careers in biodiversity research and biodiversity management. this 
or careers in biodiversity research and biodiversity management. this grant supports six full s 
7110 1 he relationship between agriculture and biodiversity are complex and there are few examples of  
536 2 ate the effects of global change on the biodiversity of aphid communities in western europe. bi 
of aphid communities in western europe. biodiversity has been examined at 3 levels: total numbe 
13974 1 erstanding about human impact on fungal biodiversity in forest ecosystems.  
12483 1  for assessment, while recognizing that biodiversity and ecosystems also have intrinsic value a 
522 5 in the axis 1/ territorial strategy and biodiversity insofar as the relations betweens scavenge 
terdependence of production systems and biodiversity because the ovine farming systems of meat  
cy, social dynamics and preservation of biodiversity the relations between agriculture and biod 
y the relations between agriculture and biodiversity are complex and the examples of situations 
e. during the precedent agriculture and biodiversity programme a pluridisciplinary study was de 
14712 2 e of the most singular and rich ones in biodiversity in europe being its conservation highly pr 
rovide information on the components of biodiversity. this project attempt to contribute to the 
542 1 ant and neglected component of tropical biodiversity. our results show that the two mutualisms  
7112 1 gle towards exchange of agriculture and biodiversity. the expected results of this research is  
525 1 c angle of a joining of agriculture and biodiversity. the expected out  
9932 2 tration of extensive untapped microbial biodiversity and new search and discovery strategies ar 
esis genes, are distributed across that biodiversity and the environmental heterogeneity of the 
12671 3 he contractor will develop the national biodiversity network in support of defras strategic obj 
access to existing information, deliver biodiversity information to a wider range of stakeholde 
ng and further develop tools to deliver biodiversity information.  
11085 3 ribution of species and the richness of biodiversity in an area can we make any predictions fro 
th the changing climate a new theory of biodiversity attempts to explain the distribution of di 
ll also provide new knowledge about how biodiversity is distributed at the level of genes, rath 
15468 2 tats containing the greatest culturable biodiversity are saline and hypersaline environments. o 
wild birds . the culturable prokaryotic biodiversity found in this habitat has been studied pre 
12019 1 ing global change on the functioning of biodiversity. this requires a joint analysis of diversi 
2071 2 antations have several impacts on local biodiversity and landscape, especially if they begin di 
ecies, and about their effects on local biodiversity. this will be done by undertaking a germin 
12402 1  related stressors by marine organisms, biodiversity and ecosystems including an improved under 
6768 1  that a drastic decrease of terrestrial biodiversity caused mainly by human impact is being rec 
14635 1 rends with habitat change. - pattern of biodiversity and distribution at various taxonomic scal 
10227 1 o the evolutionary processes that shape biodiversity in the wild.  
14872 1 arbon by the soil, its productivity and biodiversity. the present project starts from a land re 
15138 1 l bases driving the current patterns of biodiversity within these groups of parasites. taxa tha 
10322 1 rate the important role of parasites in biodiversity. tapeworms, with over 6000 recognized spec 
14414 4 farmers choices, agricultural land-use, biodiversity and ecosystem services, and to create stat 
use and farm management affect farmland biodiversity and thus, ecosystem services. we are also  
 are better adapted to benefit farmers, biodiversity and ecosystem services. finally, we will p 
ing for a sustainable agriculture where biodiversity and ecosystem services are managed as asse 
6885 1 banks support us to determine potential biodiversity from which an actual diversity of microcru 
15145 1 nstitute an important hotspot as regard biodiversity of the planet, which guarantees the conven 
7271 2 he nav amaz project described in detail biodiversity, products and services from the ground, it 
entified species, indicators of overall biodiversity and ecosystem services productions. indica 
2187 1 esence of semi-natural pastures for the biodiversity in adjacent cultivated pastures and uncult 
2100 2 on structure and spatial distibution of biodiversity in deep-sea fishes. overexploitation by sh 
rosatellite dna anlyses, to quantifying biodiversity patterns and population substructure in fi 
2091 1  to understand how population dynamics, biodiversity and biogeochemical element cycles are all  
15387 2 ns harbour more than half of the earths biodiversity in only 7% of its territory. a massive res 
why tropical regions have such elevated biodiversity it is essential that we first acquire more 
15390 2  one of the most important hotspots for biodiversity worldwide. this area includes sundaland an 
of one of the major and most threatened biodiversity hotspots. by taking into account the the e 
14938 1                        the knowledge of biodiversity and the implementation of strategic plans  
10409 4 bog are, firstly, to understand how the biodiversity and ecosystem functions of peatlands acros 
lution and changing climate will affect biodiversity and ecosystem properties of peatlands. we  
rogen pollution and climate on peatland biodiversity and biogeochemistry. the importance of spe 
ects of n deposition and climate on bog biodiversity, linking plant diversity with microbial di 
13611 3 ms of peatbog are to understand how the biodiversity and ecosystem functions of peatlands acros 
rogen pollution and climate on peatland biodiversity and biogeochemistry. the importance of spe 
limate on both vegetation and microbial biodiversity in peatlands. further novel aspects are th 
15571 3 ms of peatbog are to understand how the biodiversity and ecosystem functions of peatlands acros 
rogen pollution and climate on peatland biodiversity and biogeochemistry. the importance of spe 
limate on both vegetation and microbial biodiversity in peatlands. further novel aspects are th 
7222 3     biomex aims to study pelagic marine biodiversity in the western indian ocean through a wide 
 with the objective to characterize the biodiversity and ensure its follow-up. the project will 
 will establish an inventory of pelagic biodiversity from various ' samplers ' which will for t 
11395 1 erent habitat contribute to patterns of biodiversity. this will show us how strong these proces 
457 3 ial for neighbouring systems, source of biodiversity or even as pollution buffer has been prove 
mulant effects of these habitats on the biodiversity and the associated users on the islands, o 
ies: 1/ to characterize their intrinsic biodiversity; 2/ to quantify the anthropogenic impact o 
14953 1 ough detail the interdependence between biodiversity and functionality of the ecosystems or, in 
2477 3 often made long after extensive loss of biodiversity and remediation becomes a tremendous under 
ith the same technology we will monitor biodiversity of several sensitive marine areas in north 
e high frequency and spatial resolution biodiversity monitoring we will further develop and eva 
7022 1 ith a comprehensive knowledge about the biodiversity of this important section, both for its bi 
14542 1 ntribute to the knowledge of the global biodiversity. the drawbacks of the most widely used mol 
14913 2 n, and the identification of cobitiform biodiversity in asia minor and the caucasus. the taxa s 
ters to evaluate current ichthyological biodiversity.  
12060 2 matic oscillations and loss or gains in biodiversity. this is a key issue, as we are facing a c 
lenge of both rapid climatic change and biodiversity loss as consequences of anthropogenic caus 
14503 3 to obtain a measure of vocs atmospheric biodiversity and its relationship with community biodiv 
ity and its relationship with community biodiversity. we also will focus on the different land  
g in the framework of global change and biodiversity changes. finally, this project will also b 
15203 3 d aquatic vegetation and with much more biodiversity or b a turbid phytoplankton-dominated syst 
 less vulnerable, but more efficient in biodiversity maintenance and in the reduction of plankt 
nts. thus, facilitating the increase of biodiversity always by establishing a less vulnerable m 
12734 1 e needed to underpin the development of biodiversity offsets policy. it will include a survey o 
15008 4 e climate change affects the functional biodiversity causing changes in the structures and ecos 
tion models for the possible functional biodiversity changes as a result of the climate change  
key ecological indicators in functional biodiversity. the study would also aim at describing th 
d consequently originate changes in the biodiversity. phenomorphological characterization along 
12545 1 odern taxonomic approaches underpinning biodiversity conservation, and food security.  
15011 1 ata which may help to avoid the loss of biodiversity, defining conservation and/or restauration 
7682 9 aintenance of grassland areas with high biodiversity, especially in mountainous zones. quantify 
inous zones. quantifying the impacts on biodiversity of particular farming practices is a neces 
step to predict the future of grassland biodiversity in the face of global change, and to desig 
. this project will build new models of biodiversity dynamics based on species functional trait 
cies functional traits, focusing on two biodiversity layers: plants and insects in semi-natural 
arameterize these trait-based models of biodiversity dynamics. we will develop model-based scal 
hniques to upscale our plot-level plant biodiversity data to the landscape and regional scales, 
and climate in their impact on regional biodiversity. these output biodiversity scenarios will  
 on regional biodiversity. these output biodiversity scenarios will help design public policies 
1931 1 r simulating the conditions to increase biodiversity in an agricultural landscape.  
7418 1 borders of the most favorable areas for biodiversity, taking into account the problems of farme 
475 3 ms of peatbog are to understand how the biodiversity and ecosystem functions of peatlands acros 
rogen pollution and climate on peatland biodiversity and biogeochemistry. the importance of spe 
limate on both vegetation and microbial biodiversity in peatlands. further novel aspects are th 
9829 1 ts to explore dynamics of gene flow and biodiversity in sessile communities from a novel angle. 
12028 1 ion. polyploidy has profound impacts on biodiversity dynamics and ecosystem functioning because 
11149 1 protection of our aquatic resources and biodiversity. the work will have importance in the regu 
11696 1 protection of our aquatic resources and biodiversity. the work will have importance in the regu 
11152 1 atural selection can drive and maintain biodiversity in natural populations.  
13969 1 nt. many of the most serious threats to biodiversity are associated with long-term trends in en 
15502 1 s are one of the major causes affecting biodiversity at global scale. the characterization of t 
7268 1 ut the life cycle of marine animals and biodiversity, will propose new indicators of stock by c 
14734 3 tions would significantly affect global biodiversity. in order to estimate the magnitude of pot 
y to the organizations in charge of the biodiversity conservation of guayana. this is a pilot s 
neration and maintenance of present-day biodiversity.  
14780 1 t play substantial roles in determining biodiversity in these areas. montane aquatic systems ar 
11163 1 quences for food supply, water quality, biodiversity and other aspects of the environment that  
1982 1 ted in the formation and maintenance of biodiversity. although the importance of coevolution is 
13884 1 pe management strategies which preserve biodiversity in a cost-effective way. as a model system 
1939 1 ation with the phd-projects and the nwo/biodiversity programme bobbink , the current postdoc-pr 
10108 1 ation, invasive species and the loss of biodiversity, mean that ecologists must be able to pred 
12167 1 commendations that deliver not only for biodiversity but also for wider ecosystem services and  
2190 4 and methods for nature conservation and biodiversity considerations in physical planning, envir 
aling with the evaluation of impacts on biodiversity. the development of ecological prediction  
l contribute to a better integration of biodiversity considerations in planning and decision-ma 
n this way a quantitative assessment of biodiversity values on a landscape level will be achiev 
13982 1 hnologies for the measurement of marine biodiversity is consitutes an important task and an int 
14518 3 est negative impact on overall european biodiversity, including several small game species. con 
s of farming affecting more strongly to biodiversity, as well as assessing the efficacy of ecol 
rming productivity, game management and biodiversity conservation.  
461 1 entually we hope to stop the erosion of biodiversity among seabirds in the region while improvi 
13837 1 al management and ecological studies of biodiversity. however, new evidence indicate that pre-i 
13331 1                 focussing on the use of biodiversity by small and medium enterprises. methodolo 
12178 1  description the steering group for the biodiversity action plan , with recommendations as to w 
2140 3 ts constitute the dominant component of biodiversity on earth and are essential for structuring 
in tropical forests and conservation of biodiversity in tropical rainforests. i am invited amon 
ticipate in this large-scale project on biodiversity in a tropical lowland forest in panama, wh 
2076 4 biological diversity. the definition of biodiversity is centered upon variation within and betw 
nagement and conservation of the marine biodiversity. important treaties here are the 1982 law  
ns and principles concerning the marine biodiversity on this level. the thesis is geographicall 
nagement and conservation of the marine biodiversity. the project will also examine the relatio 
12189 1 rus and sediment, pollination of crops, biodiversity, and stakeholders’ use and attitudes towar 
13811 3 garding conservation and restoration of biodiversity, the public must get involved. several mea 
everal measures to conserve and restore biodiversity are being used on the basis of their ecolo 
 to describe public support for various biodiversity conservation measures in broadleaf deciduo 
10881 2 y human activity to recover species and biodiversity. in many cases, pumice rafts also represen 
rrier reef, an important area of global biodiversity.  
9858 2 vices within the urban environment from biodiversity, climate change adaptation, air quality ma 
ch as the manchester climate change and biodiversity strategies and the gm air quality action p 
11850 2 will also be important in human health, biodiversity conservation and environmental policy. we  
ogy, and provide economic arguments for biodiversity conservation that may benefit disproportio 
13761 2 impacts on basic ecosystem services and biodiversity. currently, the large herbivore fauna in s 
nd the effects on the ecosystems they , biodiversity and ecosystem processes; subject areas of  
11141 2 e building. they can also enhance local biodiversity by providing habitats for declining plants 
carbon absorption, pollutant reduction, biodiversity enhancement and the psychological benefits 
14102 2 ng sedimentary processes, and assessing biodiversity patterns. the planned project aims to fill 
tinozoan-based time scales, compile new biodiversity curves in temporal resolution that has not 
15572 4 tious disease is impacting on amphibian biodiversity is almost completely unrecognised by europ 
´key threatening process´ for amphibian biodiversity and their associated roles in ecosystem-su 
 to rapidly acquire spatial disease and biodiversity data from field-teams of researchers europ 
ted nations environment programmes 2010 biodiversity targets.  
10021 1 is research is in understanding how the biodiversity of fish populations arises and how it may  
10694 1                                         biodiversity and population dynamics in the plankton ar 
14973 2 o tests the effects of these changes on biodiversity and ecosystem functioning, thus combining  
this two seaweeds. such studies linking biodiversity changes, and extinction processes, are not 
2001 1        effects of climate change on the biodiversity and carbon accumulation in bogs during the 
12049 4 systems and, to promote the recovery of biodiversity that has been impoverished by acidificatio 
es as well as studies on the dynamic of biodiversity and related to ecological processes. the p 
tic charactistics induces a recovery of biodiversity and if changes in biodiversity increased t 
overy of biodiversity and if changes in biodiversity increased the efficiency of functional pro 
13348 1 nge on freshwater quantity, quality and biodiversity. the focus is on three principal climate-r 
15587 3        european marginal grasslands are biodiversity hot spots owing to ecological constraints, 
on to socioeconomic changes that affect biodiversity and the related ecosystem services 5 does  
uation of scenario outcomes in terms of biodiversity, ecosystem services, material well-being,  
7427 2 two farms"pilot"a full reintegration of biodiversity in arable crops, with the ultimate goal of 
 guide adapted to the regional context,"biodiversity and crop"for farmers. it is also to unders 
13460 1 y in ranges of future fish- and aquatic biodiversity management and research, especially invasi 
11859 1 nd hydrology, developmental topography, biodiversity, and remotely sensed structural variables. 
9805 1 ce in the fields of quaternary science, biodiversity processes, and conservation.  
13866 1 ources of threats to the maintenance of biodiversity may interact and reinforce each other but  
14791 1 ontributing to maintain the fitogenetic biodiversity.ferns survival and distribution depends on 
12181 1 s soil and water and the enhancement of biodiversity, the alterations in land use that the unde 
13828 3 g management strategies for maintaining biodiversity the overall aim with this project is to an 
tify resource-efficient ways to promote biodiversity on ecosystem level, thus minimizing overal 
st resource-efficient ways that promote biodiversity on ecosystem level, thus minimizing overal 
15442 1 us manipulation of all these drivers of biodiversity. this will greatly contribute to the under 
15125 1 r handicap for the adoption of suitable biodiversity conservation strategies. archives containi 
14968 2  temporal heterogeneity, maintenance of biodiversity, genetic variability and zooplankton dispe 
 egg banks may be evaluated in terms of biodiversity conservation and manipulation of aquatic s 
14528 1 ations dynamic and the evolution of the biodiversity in planktonic organisms.in the wetlands se 
15357 6 footprint that is associated to loss of biodiversity and provision of ecosystem services, i.e.  
r passive or active, affect patterns of biodiversity and ecosystem services and explain the inv 
will provide, overall, higher levels of biodiversity and a broader range and quantity of ecosys 
s; additionally, the levels of restored biodiversity and ecosystem services will depend upon th 
he global scale, the levels of restored biodiversity and ecosystem services as a function of th 
 has been operating, and the amounts of biodiversity and ecosystem services that have been rest 
12199 2 ated as a priority habitat under the uk biodiversity action plan, with policy targets that incl 
eature and wildlife habitat and achieve biodiversity action plan targets for hedgerows.  
7615 1 cularly acute in the context of the 6th biodiversity extinction crisis. the convention on biolo 
13877 1 sible to analyze questions connected to biodiversity monitoring and forest carbon sequestration 
10946 1  conservation and restoration of native biodiversity in galapagos.  
13928 3 y framework of ecological processes and biodiversity. the major part of the present biodiversit 
iversity. the major part of the present biodiversity in europe is found in the traditional cult 
nd spatial scales is essential for this biodiversity by allowing species groups favoured by tra 
13531 3 y framework of ecological processes and biodiversity. the major part of the present biodiversit 
iversity. the major part of the present biodiversity in europe is found in the traditional cult 
l and spatial scales essential for this biodiversity by allowing species groups favoured by tra 
12589 1 ystems they provide vital functions for biodiversity, water resources, surface water management 
12737 3 f the success of embedding the `england biodiversity strategy of the england biodiversity group 
nd biodiversity strategy of the england biodiversity group and sample of biodiversity porgramme 
ngland biodiversity group and sample of biodiversity porgrammes subprogrammes and to determine  
12733 1 ave regard to the purpose of conserving biodiversity. this project is to collect information fr 
2188 2 thods for restoring hydrology and plant biodiversity in drained rich fens. in co-operational pr 
en the theoretical understanding of the biodiversity in rich fens and how this knowledge can be 
476 3 tious disease is impacting on amphibian biodiversity is almost completely unrecognised by europ 
´key threatening process´ for amphibian biodiversity and their associated roles in ecosystem-su 
 to rapidly acquire spatial disease and biodiversity data from field-teams of researchers europ 
15058 1 pecies is an important factor affecting biodiversity at a global scale. an unknown but importan 
529 2 impact of agricultural practices on the biodiversity is often considered only as having a detri 
ural management and the preservation of biodiversity. the return and sustainable viability of p 
14485 1 s a very high repercussion. a number of biodiversity variables will also be studied, especially 
7116 1 the impact of agricultural practices on biodiversity is often considered only at the expense of 
12760 1 ith agricultural stakeholders; risks to biodiversity and social impacts are likely. it is essen 
13332 8  problem in developing policies to stop biodiversity loss is translating threats into a tangibl 
ibute to solving this by examining what biodiversity does for us. biological units that provide 
olicies, which are essential to halting biodiversity loss. nature is fundamentally dynamic, as  
re the pressures of human activities on biodiversity, yet most conservation strategies still in 
of global change on those components of biodiversity essential for maintaining ecosystem servic 
 be identified and methods for relating biodiversity in dynamic ecosystems to the provision of  
ared and tested. frameworks for linking biodiversity traits to service provision and for improv 
nt strategies and inform priorities for biodiversity conservation policy. rubicode will also id 
7106 2 f the need to include the management of biodiversity in agricultural public action within a fra 
dvance in the process of integration of biodiversity into public action, it is necessary to hav 
2541 7 o identify appropriate policy means for biodiversity protection in an interdisciplinary context 
asis for understanding of challenges to biodiversity will be developed through cooperation betw 
and and express their understandings of biodiversity, threats to biodiversity, and the policies 
erstandings of biodiversity, threats to biodiversity, and the policies for biodiversity protect 
s to biodiversity, and the policies for biodiversity protection. a major challenge will be to e 
n. a major challenge will be to express biodiversity targets for the two major ecosystems open  
s reaching a given policy objective for biodiversity. the results will be communicated to impor 
13349 6     our capacity to effectively sustain biodiversity across spatial and temporal scales is an e 
opogenic and environmental pressures on biodiversity act differently at different scales. conse 
of these pressures on various levels of biodiversity from genes to ecosystem functions. to faci 
t methods for upscaling and downscaling biodiversity data will be reviewed and improved. scales 
s of management and policy responses to biodiversity loss in terms of their scale-relevance and 
enhancing the effectiveness of european biodiversity conservation across scales will be develop 
7478 5 ims to enhance the connectivity between biodiversity research and policy making. although conse 
conservation and the sustainable use of biodiversity are fundamental requisites of human well-b 
tal requisites of human well-being, the biodiversity issue raises unprecedented challenges rega 
hat are currently emerging to interface biodiversity research and sustainability policy. the pr 
ntial policy actors and stakeholders in biodiversity science-policy interfaces to learn, share  
13860 2 issues of regeneration, soil and water; biodiversity aspects are largely lacking. a pilot proje 
anced by sida and vr, aims at producing biodiversity-oriented rils. two workshops with scientis 
12183 3  also impacts on above and below ground biodiversity, the flows and quality of natural waters a 
elevance to defra as the maintenance of biodiversity and environmental quality are cornerstones 
describing the effects of compaction on biodiversity and the quality of the natural environment 
12180 1 der to protect resources and to enhance biodiversity by means of creating or restoring suitable 
12188 1 bjective is to maintain and improve the biodiversity, natural resources, landscape and historic 
7466 6     our capacity to effectively sustain biodiversity across spatial and temporal scales is an e 
opogenic and environmental pressures on biodiversity act differently at different scales. conse 
of these pressures on various levels of biodiversity from genes to ecosystem functions. to faci 
 methods for up-scaling and downscaling biodiversity data will be reviewed and improved. scales 
s of management and policy responses to biodiversity loss in terms of their scale-relevance and 
enhancing the effectiveness of european biodiversity conservation across scales will be develop 
14728 1 uestions related to the conservation of biodiversity, interactions, and genetic makeup in globa 
10515 1 cts make up the vast majority of animal biodiversity and have been studied intensively in the l 
9999 1 cts make up the vast majority of animal biodiversity and have been studied intensively in the l 
10802 1  local and global human activities into biodiversity-ecosystem functioning in marine sediments. 
10455 1 ental monitoring, sample collection for biodiversity studies and stunning images for public out 
13333 1 system stability though conservation of biodiversity and mitigation of climate change through c 
12191 1 n 1992 led to the publication of the uk biodiversity action plan in 1995. the objective of the  
441 1 o the long-term monitoring of bacterial biodiversity. vertical changes are also important and w 
10519 1  role of selection in the generation of biodiversity is an exciting and controversial topic. it 
10972 1  role of selection in the generation of biodiversity is an exciting and controversial topic. it 
1980 1 ns for the understanding of speciation, biodiversity and the evolution of bizarre hermaphroditi 
11351 3 , and we call this rich variety of life biodiversity . this biodiversity is essential for biolo 
ich variety of life biodiversity . this biodiversity is essential for biologists to understand  
species number that combines to make up biodiversity. a species is a group of organisms that ar 
15588 2 he effects of extreme weather events on biodiversity, ecosystem functions, resilience and tippi 
dying the effects of extreme drought on biodiversity and ecosystem functions is a key facet of  
12668 2 ate change and atmospheric pollution on biodiversity and to provide evidence in support of deci 
limate and pollution with assessment of biodiversity, such sensitive species, across a network  
15580 2 forest patches often act as refugia for biodiversity and may provide a wide range of ecosystem  
nd international conventions related to biodiversity and sustainable forest management.  
13334 9            counteracting the decline of biodiversity and ensuring the sustainable management of 
urely social dimension of protection of biodiversity and ecosystems is still somewhat underexpl 
ed european field of social research on biodiversity and ecosystem management, or of a coordina 
lied to issues concerning ecosystem and biodiversity management. despite this obvious potential 
ance the effectiveness of ecosystem and biodiversity management, social research is not yet com 
n the development and implementation of biodiversity policy. many biodiversity policy makers ha 
ementation of biodiversity policy. many biodiversity policy makers have educational and profess 
g the societal context of ecosystem and biodiversity management into policy tools, such as mode 
earch contributing to the management of biodiversity and ecosystems, and especially to the deve 
13988 2 ed to agriculture. at the same time the biodiversity of soil organismsl decreases. knowledge of 
th high organic matter content and high biodiversity than in degraded soils - to what extent ar 
13350 10                           european soil biodiversity is pivotal for delivering food, fiber and  
over, intensified land use reduces soil biodiversity and the resulting ecosystem services. soil 
m services. soilservice will value soil biodiversity through the impact on ecosystem services a 
disciplinary empirical studies and soil biodiversity surveys to construct soil food web models  
 and determine effects of changing soil biodiversity on stability and resilience of carbon, nit 
ls to develop a system for valuing soil biodiversity in relation to ecosystem services. objecti 
ressure of land use and changes in soil biodiversity. • field and modelling studies will determ 
o what spatial and temporal scales soil biodiversity and soil ecosystem services are vulnerable 
and land abandonment can influence soil biodiversity and ecosystem services over european scale 
t threat and mitigating changes in soil biodiversity to achieve a sustainable use of soils. our 
13536 2 tries as subsidised measures to enhance biodiversity. to study whether these sown wild flower s 
f mass-effects as a process maintaining biodiversity.  
1941 1 area. in this context the links between biodiversity change, recreation, and the rest of the lo 
464 1 characterize the surroundings and their biodiversity, and spatial images to facilitate the deci 
7223 1 ons to characterize the environment and biodiversity, and space images for decision support in  
15263 1 vation, restoration and conservation of biodiversity.  
1940 1                                         biodiversity in the semi-natura1 dutch wetlands is infl 
15016 5 ems are the most important reservoir of biodiversity in terrestrial ecosystems partly because t 
r of the effect of those changes on the biodiversity and sustainability of the ecosystems and p 
erlying processes that influence on the biodiversity conservation and in consequence will let t 
the spatial and temporal changes of the biodiversity structure and spatial organization through 
 identify cascade mechanisms leading to biodiversity loss. in short, cebce project aims is to i 
10308 1 ble a greater understanding of how high biodiversity is maintained in the face of intense compe 
11406 1 ble a greater understanding of how high biodiversity is maintained in the face of intense compe 
10012 1 er ecosystems on earth, are regarded as biodiversity hotspots. fascination with these ecosystem 
11312 4 ft valley, considered to be hotspots of biodiversity, are such environments and provide evoluti 
ad an impact on the current patterns of biodiversity, which may help us make future predictions 
lp us make future predictions regarding biodiversity and therefore their conservation. the high 
he processes that have promoted current biodiversity of tropical freshwaters. this study provid 
11626 1  questions about the origin of the high biodiversity seen in the marine tropics. 1 mode of spec 
13758 3 e vital to the successful management of biodiversity. the natural scarcity of hybrid zones that 
ty of novel, exciting insights into how biodiversity evolves and is maintained. through highly  
 , and its impact on the maintenance of biodiversity. and, what facilitates closely related spe 
10808 2  the effects of environmental change on biodiversity consider only individual species or whole  
networks influence each other to affect biodiversity as a whole.  
15456 1                                     the biodiversity observed in nature responds to a complex a 
13351 5 ims to enhance the connectivity between biodiversity research and policy making. although conse 
conservation and the sustainable use of biodiversity are fundamental requisites of human well-b 
tal requisites of human well-being, the biodiversity issue raises unprecedented challenges rega 
hat are currently emerging to interface biodiversity research and sustainability policy. the pr 
ntial policy actors and stakeholders in biodiversity science-policy interfaces to learn, share  
14576 1 ost important determinants of change in biodiversity at a global scale. in this project we focu 
7317 1 nators form a key component of european biodiversity, and provide vital ecosystem services to c 
13352 1 nators form a key component of european biodiversity, and provide vital ecosystem services to c 
11538 2 affect the persistence and abundance of biodiversity. our curiosity-driven project will provide 
systems that affect the preservation of biodiversity  
7023 7 n affairs massively changes our planets biodiversity, and this trend is expected to continue ov 
er the coming decades. human impacts on biodiversity take place against a background of highly  
research recognises the consequences of biodiversity loss for the services and goods ecosystems 
-economic factors interact to determine biodiversity and ecosystem functioning across scales is 
istry. despite considerable advances in biodiversity research during the past decade, which pri 
evelop the functional role of microbial biodiversity in ecosystems. micdif entails intensive th 
ovative and internationally competitive biodiversity - ecosystem function research in austria.  
10897 1 e, like climatic variations and loss of biodiversity, are linked with drivers like demographic  
10799 1 describing the factors that control the biodiversity . the current proposal follows from these  
14915 1 ered in the project show high levels of biodiversity. as an applied result of the study, we pre 
15317 1 n order to get a whole knowledge of the biodiversity of this area. it is a starting point in or 
7253 1 tudying the mechanisms at the origin of biodiversity in urban areas has been neglected. it requ 
15076 1 its implications on the thorectes group biodiversity and to evaluate its potential applications 
14908 1 n order to get a whole knowledge of the biodiversity of this area. it is a starting point in or 
13486 5 ity and environmental variation driving biodiversity, and the second considers biodiversity as  
 biodiversity, and the second considers biodiversity as the independent variable driving produc 
aged to explicitly consider and explain biodiversity as both the cause and consequence of produ 
en vs. egg question of productivity and biodiversity. a theoretical model that is currently bei 
oped by bradley cardinale suggests that biodiversity can respond to and drive productivity only 
7431 5 stablish reference conditions of marine biodiversity in nord-pas -de-calais region 2. develop a 
the spatial and temporal variability of biodiversity, 3. establish a permanent monitoring of ma 
ablish a permanent monitoring of marine biodiversity in north -calais region not 4. make projec 
ojections about the evolution of marine biodiversity in north -calais region not in the context 
sh rapid diagnoses and prognoses on the biodiversity of the region and optimize the sustainable 
10936 1 es. recent debate regarding the role of biodiversity in functioning of ecosystems has revitaliz 
14501 1  of production without reduction in the biodiversity. at the same time, we will develop sustain 
7482 2                  livediverse . finally, biodiversity and livelihood scenarios will be developed 
es and policy to meet the needs of both biodiversity and livelihoods.  
14474 1 ing conservation of this resource. then biodiversity of agricultural spaces in the alicante mou 
10608 1 el, it is a poor explanation for marine biodiversity. by focusing on a host-dependent organism, 
12732 1 : 1.address priorities identified by uk biodiversity action plan working groups http://www.ukba 
13850 1  web image database for systematics and biodiversity research.  
14725 1 ctacularly successful in this important biodiversity hot spot. the data obtained will be used t 
15429 2 due to the lack of information on their biodiversity. in the last two research projects of the  
iogeography of the entire group and the biodiversity and taxonomy of the genera with lowest spe 
13803 1  monitoring and conservation of swedish biodiversity, and the training of young taxonomists.  
14765 1  process generating and maintaining the biodiversity of saline streams. this basic information  
15235 2  is to deepen the study of the syllidae biodiversity by the use of classical taxonomic techniqu 
he philippines because of its very high biodiversity; a second one will take place in new zeala 
15291 1 g both the knowledge of the cryptogamic biodiversity in the areas of study, and the types of di 
14890 1 evelopment. we will study the caprellid biodiversity from the iberian peninsula, and a monograp 
13353 1 ng local people to maintain and restore biodiversity ecosystem services. to achieve this, a tra 
10806 1 ractice so that the decisions effecting biodiversity are routinely based upon the scientific li 
11233 3 hanging conditions. such a high rate of biodiversity loss is likely to have catastrophic effect 
e and habitat loss are likely to be for biodiversity. at species and population margins, limits 
duce, or plan for, the massive rates of biodiversity loss predicted for the coming centuries.  
15121 1 of the forest landscape restoration and biodiversity conservation actions are based on two basi 
11481 1  directly relevant to the management of biodiversity.  
12748 2 tiated ‘the economics of ecosystems and biodiversity. teeb runs to 2010 will estimate the value 
rt recommendations for uk international biodiversity policy and highlight areas where the uk ca 
15141 6                                  earths biodiversity is at risk. species are disappearing at a  
 human activity. the sustainable use of biodiversity is fundamental to the future development o 
measures are required to reverse todays biodiversity crises. because financial and human resour 
chest and most threatened reservoirs of biodiversity. sentinel organisms provide helpful guidel 
ntegrity and to identify and prioritize biodiversity hotspot regions. the spider infraorder myg 
he processes underpinning mediterranean biodiversity. specifically, we will investigate populat 
15308 1 iving evolutionary change and promoting biodiversity. knowledge on the range of ecological and  
14167 1 major factors of changes in terrestrial biodiversity. even if the loss of forest area and its f 
10268 2  as the second biggest threat to global biodiversity and, arguably, the greatest threat to smal 
by which invasive species impact native biodiversity are often poorly characterised. for exampl 
13606 1 t fundamental process in generating new biodiversity but the mechanisms of speciation remains u 
10717 1 ental to understanding the evolution of biodiversity. the hypothesis that vertebrate complexity 
10121 1 istorters can have a powerful effect on biodiversity; they can cause populations to become exti 
11048 1 istorters can have a powerful effect on biodiversity; they can cause populations to become exti 
11567 1 istorters can have a powerful effect on biodiversity; they can cause populations to become exti 
15340 1  as purpose evaluate the changes in the biodiversity by means of the use of new and effective m 
11373 1 declining species worldwide and is a uk biodiversity action plan species. understanding the bre 
13521 6         human activities usually affect biodiversity adversely. because of this few biodiversit 
iversity adversely. because of this few biodiversity studies focus on factors that promote the  
n factors that promote the formation of biodiversity. species diversity increase through specia 
oid speciation may potentially increase biodiversity in our environments. recent methodological 
t evidence of an understudied aspect of biodiversity which will be of international scientific  
ll also influence our view of how plant biodiversity is formed and by extension the process of  
11689 2 tive. the lead ceh science programme is biodiversity, but the proposal links strongly to the en 
rch on the impacts of climate change on biodiversity. it will provide specific estimates of how 
11845 2 tive. the lead ceh science programme is biodiversity, but the proposal links strongly to the en 
rch on the impacts of climate change on biodiversity. it will provide specific estimates of how 
11195 1 al climatic changes and their impact on biodiversity. we use a combination of experimental and  
2007 3 d track the effects of global change on biodiversity. because of the systems heat capacity, glo 
etween climate change and variations in biodiversity. in particular focus will be on the effect 
be on the effect of invading species on biodiversity and ecosystem functions.  
11612 1 stal sediment ecosystem; its processes, biodiversity and health of key organisms using a series 
175 2 e compilation of review articles on the biodiversity effects of residual trees and cavity trees 
mpletely the role of managed forests in biodiversity conservation, and thus to plan specific co 
12249 1  farming systems and land management on biodiversity and soil protection, and policy on climate 
13489 1 derstand how these changes may threaten biodiversity.  
11077 3                                         biodiversity encompasses many different levels , includ 
 of the functional significance of soil biodiversity in boreal and northern temperate forests.  
effective policies to better manage the biodiversity of soil.  
13975 2 systems. most experimental evidence for biodiversity effects on ecosystem functioning has come  
pulation dynamics evaluating impacts of biodiversity loss on ecosystem function requires expand 
13881 1 serving dunlins and other indicators of biodiversity in the agricultural landscape.  
2192 1                          current forest biodiversity is the result of ancient and modern land-u 
7282 2  project scope on incentives for forest biodiversity. this is to identify the scope of research 
ms in place to ensure the protection of biodiversity, the institutions in which they fit and su 
6983 1 ts, are threatened by human impact. the biodiversity of such habitats is decreasing rapidly. ho 
9826 2 roxies of oceanography, climate change, biodiversity and evolutionary processes. yet, recent mo 
tion and assess the dynamics of cryptic biodiversity in the past.  
14522 1 en to be extrinsic to the environmental biodiversity, or to be the outcome of coevolutionary al 
2174 1 ogrammes dealing with threats to arctic biodiversity as well as providing a vast, year-round oc 
2033 2                                         biodiversity in terms of species richness and the role  
 been much discussed recently. however, biodiversity below the species level . another aspect o 
13463 1 aximizing production, while maintaining biodiversity, but these aims often conflict. evidence b 
518 7  necessary to record responsibility for biodiversity into agricultural public action. this shou 
o advance in the integration process of biodiversity in public action it is necessary to dispos 
d into the agricultural integration and biodiversity, agricultural habitats rich in biodiversit 
iversity, agricultural habitats rich in biodiversity being both natural and human objects, prod 
 research has until now apprehended the biodiversity associated to agricultural systems which a 
 it is thus the issue of integration of biodiversity into the functioning of agricultural tradi 
e support of agricultural areas rich in biodiversity how do the debates of ideas surrounding th 
203 1                biomass productivity and biodiversity of hybrid aspen as part of a complex study 
10397 1  hence speciation and the generation of biodiversity.  
9959 1  forest areas containing high levels of biodiversity. the problem is that, under the conditions 
13456 1 ts constitute new hotspots not only for biodiversity, ecosystem retentivity and ecosystem funct 
14933 1 em of the modern biology is the lost of biodiversity. to confront this situation, the different 
13805 5                                         biodiversity is proposed to be important for ecosystem  
important for ecosystem functions. most biodiversity – ecosystem function studies, however, con 
s means that a very important aspect of biodiversity is lost on the way – the possibility for d 
ect aims at testing the significance of biodiversity in sustaining ecosystem functioning when m 
start to uncover the full importance of biodiversity for the functioning of ecosystems. our res 
11178 2 f climate change on the distribution of biodiversity. the proposed work will provide the first  
icting the impacts of climate change on biodiversity. conservation strategies must include adap 
11398 2 f climate change on the distribution of biodiversity. the proposed work will provide the first  
icting the impacts of climate change on biodiversity. conservation strategies must include adap 
9883 2 te an important component of a region s biodiversity. because of their short generation times,  
measurement and management of road-side biodiversity, and for predicting responses of annual pl 
407 2  gene is very useful for studies of the biodiversity of brachyspiras, because in spite of the f 
ect is to establish the significance of biodiversity for pathogenicity within the genus brachys 
1925 7 ddress the general hypothesis that high biodiversity in terrestrial ecosystems confers high soi 
red in terms of above- and below-ground biodiversity, production and chemical composition of pl 
re foreseen that differ in above-ground biodiversity, in particular biodiversity of functional  
bove-ground biodiversity, in particular biodiversity of functional groups of plants. these trea 
llow to establish relationships between biodiversity and soil suppressive ness and nutrient ret 
and to evaluate the possible effects of biodiversity beyond the range investigated in the field 
on of the possible relationship between biodiversity and soil suppressive ness and nutrient ret 
1924 7 ddress the general hypothesis that high biodiversity in terrestrial ecosystems confers high soi 
red in terms of above- and below-ground biodiversity, production and chemical composition of pl 
re foreseen that differ in above-ground biodiversity, in particular biodiversity of functional  
bove-ground biodiversity, in particular biodiversity of functional groups of plants. these trea 
llow to establish relationships between biodiversity and soil suppressive ness and nutrient ret 
and to evaluate the possible effects of biodiversity beyond the range investigated in the field 
on of the possible relationship between biodiversity and soil suppressive ness and nutrient ret 
12730 1 : 1.address priorities identified by uk biodiversity action plan working groups http://www.ukba 
13801 1 nt of regional landscape strategies for biodiversity.  
15066 2 he former one cgl2005-02306/bos artemia biodiversity in the western mediterranean.presence of a 
008. the previous project evidenced the biodiversity loss for autochthonous species of the genu 
14827 1 banks allow ex situ conservation of the biodiversity of wild plant species with orthodox seeds  
10320 7                                         biodiversity is declining worldwide at a frightening ra 
ses that normally generate and maintain biodiversity. i will focus on two systems: remote group 
lly about the future. to predict future biodiversity loss in partly cleared natural habitat, a  
will make general predictions about how biodiversity will respond to the habitat modification o 
o data collected by safe. for modelling biodiversity on islands i will face other challenges: t 
ng further models for islands and their biodiversity, a particularly interesting area of resear 
pelagos contribute in important ways to biodiversity and are threatened by similar factors; esp 
2170 1 tain ecosystem function, robustness and biodiversity. second, it is likely that effects of anth 
2050 1 n international collaboration on arctic biodiversity and conservation.  
10846 1 ability so that impacts on deep-sea bed biodiversity from industrialisation of this physically  
15590 1        forests are a major reservoir of biodiversity and trees, as keystone organisms, directly 
13977 2 ungi also form a major component of the biodiversity within forests, with 1100 species recorded 
uences of nitrogen fertilisation to the biodiversity and functioning of ectomycorrhizal fungi w 
14471 1 e major processes organizing the earths biodiversity. its demonstration, however, has been prov 
11852 1                                         biodiversity conservation and poverty alleviation are t 
2482 2 ed interactions. the dominant forms and biodiversity of marine ecosystems are variables, not ri 
. the project takes a novel approach to biodiversity and biogeochemistry, and will adress the i 
12031 4                          trans-specific biodiversity : quantification on model organisms source 
transpecific biodiversitytrans-specific biodiversity : quantification on model organisms source 
 of neutral and functional transpecific biodiversity closely related species show both genetic  
arities and differences. trans-specific biodiversity . adaptive traits include auto-incompatibi 
13815 1                            to implement biodiversity conservation policies a tool-box has been  
10710 1 nderstanding of the nature and scale of biodiversity at the microbial level. are the smaller mi 
10749 1 nderstanding of the nature and scale of biodiversity at the microbial level. are the smaller mi 
12257 1 es on agricultural systems and farmland biodiversity. defra has funded adas at drayton in warwi 
12384 3 together experts in the field of marine biodiversity, to develop a programme, timetable, terms  
 terms of reference and membership of a biodiversity group, which will identify its requirement 
r a gap exists for the development of a biodiversity technical group. final report: please note 
12052 2                                         biodiversity and adaptative strategies of plant and mic 
terisation of plants and microorganisms biodiversity and adaptative strategies in new caledonia 
7159 2 . study the impact of climate change on biodiversity necessarily involves a synthesis phase dat 
abases used to analyze the evolution of biodiversity in france since the holocene and to study  
10133 2 t will actually turn invasive and cause biodiversity loss. invasive plants are a major threat t 
ive plants are a major threat to global biodiversity, and their economic costs are estimated to 
7668 2 le lucrative, it has led to the loss of biodiversity, in turn restricting the options for local 
jective is to create spatially explicit biodiversity scenarios linking ecological processes, lo 
13770 1 policy options to minimize and mitigate biodiversity loss resulting from future land use change 
11599 2 anges in patterns of plant and wildlife biodiversity, the loss of moorland habitats and a poten 
ment practices with regards to moorland biodiversity and carbon stores. this research will play 
12726 1 : 1.address priorities identified by uk biodiversity action plan working groups http://www.ukba 
12731 1 : 1.address priorities identified by uk biodiversity action plan working groups http://www.ukba 
12701 1 ’ needs is hampering progress under the biodiversity action plan, with emphasis on the less wel 
12724 1 ’ needs is hampering progress under the biodiversity action plan, with emphasis on the less wel 
1964 1 re cultures. however, the value of this biodiversity for ecosystem functioning is still enigmat 
14222 1 he objectives are: to evaluate existing biodiversity conservation policies in the light of know 
12476 1 mates of the costs of delivering the uk biodiversity action plan, and the current levels of fun 
15526 1 r systems and the conservation of their biodiversity. the general aims of this proposal are: i  
11725 1 arded as being of little importance for biodiversity, conservation effort instead being directe 
13744 2 questions about factors affecting urban biodiversity. birds will be surveyed from may to august 
relative influence of factors affecting biodiversity at local and landscape scales. using an ex 
15581 6 . recent literature indicate that urban biodiversity contributes to multiple es of very large i 
 for the citizens’ well-being and urban biodiversity may also be part of decreasing the ecologi 
promote sustainable management of urban biodiversity and ecosystem service generation and commu 
mportant stakeholders. cluster i: urban biodiversity and ecosystem services what are the driver 
ystem services cluster ii. valuation of biodiversity and ecosystem services what are the method 
 monetary and non-monetary valuation of biodiversity and ecosystem services in the urban landsc 
10542 1 n meadows are important repositories of biodiversity. their plant community can contain up to 4 
9958 1 em change and may result in the loss of biodiversity and compromise the provision of essential  
12055 1 s and modelling, the risks for specific biodiversity as well as for human and animal population 
15101 1 ate change represents a major threat to biodiversity, particularly in regions where a large num 
13812 1 pective there is a risk of depletion of biodiversity in the future. as many typical grasslands  
10098 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
10513 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
11008 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
11519 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
11522 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
9987 1 0, the nerc marine freshwater microbial biodiversity programme has supported more than 30 resea 
10775 1                             the world s biodiversity is dominated by complex communities of ani 
11063 2 develop an evidence-based framework for biodiversity conservation. the success of this programm 
ore the broadening of the approach from biodiversity management to wider environmental manageme 
12197 1 aim to deliver substantial benefits for biodiversity that are simple, practical and low cost fo 
153 3 ojects is to investigate: 1. how is the biodiversity dependent on the nature of riparian plant  
nd plant communities, the dependence of biodiversity on the riparian habitat types and their la 
d their land use. the relations between biodiversity, landuse and landscape indexes, the role o 
10893 1 ciated impact on ecosystem services and biodiversity at a range of scales . our application for 
2497 5  theoretical results indicate that high biodiversity increases the adaptability to change, the  
ng predictions and responses related to biodiversity since they are units with well-defined bou 
laboratory for investigating effects of biodiversity on natural lake ecosystem functioning. we  
oinvasions by field sampling of natural biodiversity gradients, classical and molecular measure 
ular measures of phyto- and zooplankton biodiversity, and up-scaling by predictive modeling too 
2161 1 resulting in ecological disturbance and biodiversity loss in natural ecosystems. in spite of re 
2158 1 for changes in vital parameters such as biodiversity within a 20 years time period. the effects 
7366 2 o meet new requirements or new demands. biodiversity is threatened macromycetes. the preservati 
tened macromycetes. the preservation of biodiversity through collections and understanding of i 
7224 1 s on the identification and analysis of biodiversity in two bloodsucking diptera insect groups  
465 1 es on the inventory and analysis of the biodiversity in two groups of dipteral bloodsucking ins 
7007 1 ble contribution to the knowledge about biodiversity of tropical lichenized fungi, as detailed  
7267 1 ses represent an enormous reservoir for biodiversity and arguably the compartment of the most a 
2463 1 aspects of the marine ecosystem such as biodiversity and plankton dynamics, harmful algal bloom 
11720 1 esult control the abundance and genetic biodiversity of these important organisms. recently, th 
15574 4 spanning the full gradient of fertility-biodiversity interactions. vital includes six work pack 
 assessment for regional assessments of biodiversity and ecosystem services. wp1 will use stake 
analyse current trends and condition of biodiversity and ecosystem services and their underlyin 
them, and thereby to raise awareness of biodiversity and ecological processes underlying ecosys 
7247 1 on with the results of other studies on biodiversity  
10145 2 s support to vegetation, tree cover and biodiversity. these in turn form a source of other serv 
cts: *understanding the water, land and biodiversity resources of river basins, with a particul 
10979 2 s support to vegetation, tree cover and biodiversity. these in turn form a source of other serv 
ts: - understanding the water, land and biodiversity resources of river basins, with a particul 
13854 1 op knowledge, useful for integration of biodiversity objectives in planning and environmental a 
14859 4    this project aims at evaluating weed biodiversity as well as studying the consequences of we 
g the consequences of weed invasions on biodiversity in mediterranean dryland extensive agroeco 
 will allow us to develop indicators of biodiversity specific to the mediterranean extensive dr 
will facilitate the conservation of the biodiversity in these ecosystems in concordance with ag 
7424 1 sures aimed at improving the production biodiversity in agricultural landscapes. are they effec 
13937 2 in zooplankton population abundance and biodiversity are responsible for the decreasing fish st 
ns, we will examine zooplankton stocks, biodiversity and growth rates in situ applying a recent 
10382 1 lying the impacts of climatic change on biodiversity is rudimentary, hindering the development  
413 1 so affect sustainable administration of biodiversity in relation to other social values – e.g.  
10658 1  recognised as having a major impact on biodiversity and the functioning of ecosystems worldwid 
9901 1  recognised as having a major impact on biodiversity and the functioning of ecosystems worldwid 
11121 1  role of sexual selection in generating biodiversity in g. galloti.  
14468 1 ith a view to limiting the reduction of biodiversity. by microbiological analyses will be deter 
11590 1 potential large scale implementation of biodiversity offsetting in the uk. 22nd june - practica 
12284 1 on of public good objectives including, biodiversity and landscape value. however, agriculture  
2072 1 s on earth. crucial for the exceptional biodiversity are the complex land-water interactions, w