IdNumber of occurencesForms
7127 2 y striking for mutual, woody plants and tropical ecosystems. because each species responds to c 
plants, and the majority belongs to the tropical ecosystems. our project combines correlative a 
7425 3 nderstanding the overall functioning of agro-ecosystems. agro-ecosystems bordering conserved ar 
overall functioning of agro-ecosystems. agro-ecosystems bordering conserved areas represent ide 
 of new diseases. as such, the camargue agro- ecosystem seems remarkably well suited to this ty 
7560 2 s, they are especially important in the soil ecosystem. the structure of soil nematodes communi 
 of nematode species found in different agro-ecosystems selected. The objective of these studie 
11767 1 e most fascinating yet least studied of terrestrial ecosystems. in terms of ecosystem science,  
11791 1 e most fascinating yet least studied of terrestrial ecosystems. in terms of ecosystem science,  
9983 1 e most fascinating yet least studied of terrestrial ecosystems. in terms of ecosystem science,  
10072 1 we aim to progress our understanding of aquatic ecosystems, by revealing underlying mechanisms  
13819 1 amatic declines in ectomycorrhizal onto forest ecosystems. similar reductions in diversity are  
13779 1                                         boreal stream ecosystems have large intrinsic values bu 
10280 1 requisite to our understanding of shelf sea ecosystems. our proposal is to investigate the role 
10553 1 requisite to our understanding of shelf sea ecosystems. our proposal is to investigate the role 
9929 1  finmarchicus is a key component of the north atlantic ecosystem, forming a vital link between  
7685 1                                         marine ecosystems are declining at an alarming rate, es 
11330 1 sphere exchange, and provide energy for chemosynthetic ecosystems. reconstructing the magmatic  
15015 2 rocesses mainly in oceanic, coastal and inland water ecosystems, more investigation is needed t 
 for some groups . to understanding the aquatic ecosystems evolution under future scenarios of  
15364 2 position, structure and distribution of forest ecosystems worldwide, by means of increasing mor 
iable projections on the near future of forest ecosystems under probable global change scenario 
7190 1 bility, ie enhance the functionality of agro-ecosystems while maintaining adequate production l 
13593 1 t of three introduced macroalgae on the swedish coastal ecosystem.  
12016 2 h of processes involved in invasions of insular ecosystems. the biodiversity and the threats up 
cies when introduced to or removed from island ecosystems. apart from its scientific outputs, t 
11235 1 iosphere: the yungas . these two sister forest ecosystems are amongst the most biodiverse regio 
12479 3  the ecosystem services provided by the terrestrial ecosystems of england, such as woodlands, r 
 study will specifically concentrate on terrestrial ecosystems in england and will calculate th 
information to the context of england’s terrestrial ecosystems. it will employ a consultative a 
10650 1  blanket peat bogs and other boreal and subarctic peatland ecosystems. given this, there is a p 
14848 1                                     the aquatic ecosystems of the central plateau are included  
11726 1 g of the fluxes of energy and mass in a mangrove ecosystem. this is an opportunity to understan 
1085 2 hanisms which influence the invasion of mediterranean sand dune ecosystems by alien plants. the 
sion processes currently in progress in sand dune ecosystems.  
14569 1 il microorganisms to the functioning of forest ecosystems. .  
15038 2 he decline and even collapse of several marine ecosystems. seaweeds represent an important comp 
e of these species mean a high risk for marine ecosystems, as seaweeds may function as ecosyste 
10465 1 are important members of most temperate terrestrial ecosystems, and include some of the most si 
9887 1 are important members of most temperate terrestrial ecosystems, and include some of the most si 
7034 1                                         terrestrial ecosystem models are designed to assess the 
11022 1 se, and the part that mammals played in mesozoic ecosystems is sketchy. exceptionally though, t 
11636 1 roorganisms contributes to an important soil ecosystem process, soil nitrification.  
10429 3                                         tropical ecosystems are major sources of the greenhouse 
 determine the relative contribution of andean ecosystems to the ch4 and n2o budgets for south  
trols on ch4 and n2o fluxes from upland andean ecosystems will also help us evaluate whether ot 
10967 3                                         tropical ecosystems are major sources of the greenhouse 
 determine the relative contribution of andean ecosystems to the ch4 and n2o budgets for south  
trols on ch4 and n2o fluxes from upland andean ecosystems will also help us evaluate whether ot 
11699 3                                         tropical ecosystems are major sources of the greenhouse 
 determine the relative contribution of andean ecosystems to the ch4 and n2o budgets for south  
trols on ch4 and n2o fluxes from upland andean ecosystems will also help us evaluate whether ot 
14540 1  objects: to update the distribution of saline ecosystems inhabited by autochthonous artemia st 
15438 1 ology and mixing vertical in marine and freshwater ecosystems. this is a guarantee to achieve t 
10973 1 l be used to assess biodiversity within planktonic ecosystems in the southern ocean. following  
10311 1 us evaluate how humid forest, deciduous forests and savanna ecosystems and species respond to d 
7457 1 s will be analyzed in terms of hazards, aquatic ecosystems, hydropower, tourism, agriculture, a 
14981 4 l elements, both biotic and abiotic, of river ecosystems, but less is known about the effects o 
se effects are of the same magnitude in fluvial ecosystems located in different climatic areas, 
insula. solutions to problems affecting river ecosystems, will arrive with a better understandi 
s in providing an integrated drawing of river ecosystem health  
14979 4 l elements, both biotic and abiotic, of river ecosystems, but less is known about the effects o 
se effects are of the same magnitude in fluvial ecosystems located in different climatic areas, 
insula. solutions to problems affecting river ecosystems, will arrive with a better understandi 
s in providing an integrated drawing of river ecosystem health.  
14980 4 l elements, both biotic and abiotic, of river ecosystems, but less is known about the effects o 
se effects are of the same magnitude in fluvial ecosystems located in different climatic areas, 
insula. solutions to problems affecting river ecosystems, will arrive with a better understandi 
s in providing an integrated drawing of river ecosystem health.  
14978 4 l elements, both biotic and abiotic, of river ecosystems, but less is known about the effects o 
se effects are of the same magnitude in fluvial ecosystems located in different climatic areas, 
insula. solutions to problems affecting river ecosystems, will arrive with a better understandi 
s in providing an integrated drawing of river ecosystem health.  
14649 2                                         river ecosystems are of special value to society since  
 diagnosing pollutant induced stress in freshwater ecosystems, and will improve its environment 
7667 1  and more recently on a very particular urban ecosystems. the assesment of ecosystem services o 
13482 1 oles for structuring and functioning of marine pelagic ecosystems. despite that motility has la 
2476 1 pleted research projects on the barents sea ecosystem which are led by or have significant part 
14285 1 icular on the structure and dynamics of coastal and shelf ecosystems in the perspective of glob 
7260 1 yzes the effects of the exploitation of marine ecosystem goods and services that biodiversity p 
14200 2                        the pollution of freshwater ecosystems by potentially hazardous chemical 
 assessment of hazards of chemicals for aquatic ecosystems. the obtained results will provide t 
2493 1 onservation management of exploited and pristine ecosystems in four european countries.  
451 1  of this country relies entirely on the coralline and oceanic ecosystem. the atolls, dispersed  
14418 1 es for the biological protection of our forest ecosystems. the main goals of the proposed proje 
14846 1 ntial role in biogeochemical cycling in aquatic ecosystems that may act as chemoautotrophs, oxi 
14845 1 ntial role in biogeochemical cycling in aquatic ecosystems that may act as chemoautotrophs, oxi 
7467 1 r advantage of the services provided by aquatic ecosystems, but also to make it possible to est 
2137 1 ental understanding of norways northern marine ecosystems and their responsiveness to environme 
14419 2 . recent studies have demonstrated that flowering plants and insects ecosystems harbor vast unt 
gically important properties from these bulgarian ecosystems. the research project will be acco 
7211 1 f this country is based entirely on the coral ecosystem and ocean. atolls, distributed along a  
14716 3                                     the edaphic ecosystem is complex, scaresly studied, with a  
pend on the productivity of natural and agricultural ecosystems. the isolation, identification  
improvement of enivronmental quality in land ecosystems  
2499 1 plied research regarding utilization of marine ecosystems with emphasis on decision modeling of 
13336 1 r advantage of the services provided by aquatic ecosystems, but also to make it possible to est 
14743 1 at use and movement patterns in several aquatic ecosystems in order to evaluate the dispersion  
15120 2 nity structure in mediterranean shallow lentic ecosystems. the effects of the physical control  
his objective we will study two shallow lentic ecosystems: temporary ponds, where the drought i 
14703 1                           mediterranean river ecosystems, mainly in low and mid-order reaches,  
15280 1 ntial role in biogeochemical cycling in aquatic ecosystems acting as nitrificant chemoauto/mixo 
14331 1 eforestation. yet, more than just logs, forest ecosystems produce many other services of prime  
1083 1  changes are detectable and modelled in extant ecosystems, long-term variations in the biospher 
2196 3                         biodiversity of blue mussel ecosystems: patterns and processes blue mus 
sent an analysis of the main threats to mytilus ecosystems and the goods and services produced. 
include a comparison between baltic and west coast ecosystems. it is also expected that under t 
12442 1 bottom fisheries. studies on vulnerable marine ecosystems are an important aspect of rfmo compl 
15430 1 n important part of the biodiversity in land ecosystems with approximately 15000 species in the 
15221 1 ion and therefore in the fucntioning of terrestrial ecosystems. this decline is a component of  
10643 2                                  modern marine ecosystems were established during the early pal 
unique, evolutionary view of how modern marine ecosystems function. this study will focus on th 
14764 1  understand the mechanisms by which the terrestrial ecosystems work - maintenance and improveme 
7025 4                                         river ecosystems play a key role in the transport and t 
 and transfer of carbon and nitrogen in river ecosystems: i the mode of carbon and nitrogen del 
s in flow regimes on the functioning of river ecosystems and, more specifically, on their nitro 
t/water interface in retention areas of river ecosystems: h1: the hydromorphic structures of re 
13777 1 ows higher. this threatens species-rich riparian ecosystems, which depend on recurrent floods,  
15422 2  the main cause of biodiversity loss in marine ecosystems. alien species are considered invasiv 
n crustaceans with an important role in marine ecosystems . furthermore, we will work with the  
11162 1         commitment to the management of coastal ecosystems through addressing both ecological a 
7251 1  simulate the flow and carbon stocks in forest ecosystems at different scales. indeed, forests  
14612 2 derstand and to predict the response of terrestrial ecosystems to climate change and to underst 
ould be of particular risk for arid and semiarid ecosystems such as those in the province of al 
11297 1 eochemical and biological conditions of marine ecosystems and can be readily measured. ultimate 
14873 3 limate and land-use changes interact on agro-pastoral ecosystems in the iberian peninsula at di 
e the existing database on c content in grassland ecosystems through the use of altitudinal/cli 
. the results will be useful beyond the agro-pastoral ecosystems, which in this context would b 
14874 3 limate and land-use changes interact on agro-pastoral ecosystems in the iberian peninsula at di 
e the existing database on c content in grassland ecosystems through the use of altitudinal/cli 
. the results will be useful beyond the agro-pastoral ecosystems, which in this context would b 
10891 1 for the management of insect species in agricultural ecosystems.  
14819 1 man activity affects the quality of the terrestrial ecosystems and consequently, its biodiversi 
13749 1 en proposed as a mean to sequester c in forest ecosystems. however, on a longer term increased  
15267 2  waters cover 95% of the canary islands marine ecosystem. however, little is known about the bi 
are considered indicator species in the marine ecosystem due to their position as top-predators 
15388 2                            despite semi-arid ecosystems occupy globally a wide extension of the 
eresting and intriguing aspects of semi-arid ecosystems is the role that biological soil crusts 
7150 1 tions of sahelian countries like niger. agro ecosystems in this country are exposed to profound 
7625 1 ment. the use of vegetation, especially forest ecosystems, with a view to ensuring a protective 
157 1  total flux of energy and matter of the coastal ecosystem. being a quite unique and small group 
15147 1 ual cues are limited, as is the case in aquatic ecosystems. furthermore, aquatic environments a 
10316 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
10551 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
10781 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
11308 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
11568 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
11828 1           we propose an analysis of the chemosynthetic ecosystems in antarctica south of the po 
13439 1 d provide a model for climate impact on tropical ecosystem-a region that is lagging behind in t 
13615 1  the biological control of nematodes in agro-ecosystems.  
10476 2 tence of major disturbance phenomena in marine ecosystems, the effects of habitat fragmentation 
ck of study of habitat fragmentation in marine ecosystems is understandable, the potential impo 
7479 1 itizens on impacts of climate change on marine ecosystems.  
1997 2  climate induced biodiversity shifts in freshwater ecosystems on three influential hypotheses:  
n important component of disturbance in aquatic ecosystems. climate change can thus be expected 
1999 1 lobal change affect the biodiversity of aquatic ecosystems to tackle this question, we base our 
1998 1  change will affect the biodiversity of aquatic ecosystems using three influential theories as  
15005 1 nt part of the biodiversity existing in terrestrial ecosystems corresponds to bryophytes, with  
15028 4 sh populations and demersal and pelagic marine ecosystems are well documented for commercial fi 
-as well as their relationships- on the coastal ecosystem have received little attention. never 
ects over the exploited species and the coastal ecosystem. the objective of the current proposa 
ions and maintain the resiliency of the coastal ecosystems, the health of the fish stocks and t 
14317 1  the biodiversity and functioning of an aquatic ecosystem. a large number of conceptual models  
12146 3 pertrophication-related disturbances in forest ecosystem. increased amounts of plant and . at t 
. the project aims to shape a scheme of forest ecosystem functioning under an impact of hypertr 
will be employed for making a scheme of forest ecosystem functioning under an impact of hypertr 
15327 1 rvices they provide. current impacts on stream ecosystems will most likely interact with climat 
14149 1 ee access to many european databases on marine ecosystems. meta-analyses are used to compare re 
10333 2 scape ecology is possible using natural micro-ecosystems rather than experimentally assembled m 
 richness . here we propose to use this micro-ecosystem to test the effect of community disasse 
7662 2 actor that threatens the maintenance of aquatic ecosystems but also human health. the effects o 
are still not well known on continental aquatic ecosystems. goals this project is part of the b 
2478 3                                         marine ecosystems the world over are experiencing incre 
arine resources require management in a broader ecosystem context. this proposal follows on fro 
he us financed by the rcn. it conducted marine ecosystem comparisons based primarily on observa 
14426 1 estigation and ecological evaluation of hydro-ecosystem status of dam lakes, used for net cage  
7490 2 s. objectives: develop methods to value soil ecosystem services during different pressure of la 
d temporal scales soil biodiversity and soil ecosystem services are vulnerable to disturbance.  
6959 1 e and climate change in terrestrial and aquatic ecosystems will be possible. these results can  
2526 2 ffects of petroleum hydrocarbons in the marine ecosystem. this allows for the simultaneous anal 
nd petroleum industry activities on the marine ecosystem with the potential to include other pe 
10315 6 tions emphasize the crucial role of the southern ocean ecosystem in the workings of the earth a 
nge is more severe and imminent for the southern ocean ecosystem than almost any other marine e 
n ocean ecosystem than almost any other marine ecosystem. this threatens the ecosystem s abilit 
fits described above. assessment of the southern ocean ecosystem s likely responses to change i 
 iced they will help to ensure that the southern ocean ecosystem s response to change is given  
he significant challenge of integrating southern ocean ecosystem, climate and biogeochemical re 
7195 1 ce of common birds are complex. indeed, agro-ecosystems are characterized by a scenario approac 
15522 1 on stocks and net primary production of terrestrial ecosystems in peninsular spain, with a decl 
13788 1 ich affects the total co2 emission from forest ecosystems. in fact, preliminary studies suggest 
12033 2                         biodiversity of chemosynthetic ecosystems in the deep ocean discovered  
 that are opposite to those observed in deep‐sea sedimentary ecosystems. they exhibit low speci 
12460 1 ically optimal level of exploitation of european ecosystems under changing climatic conditions  
12465 1 ically optimal level of exploitation of european ecosystems under changing climatic conditions, 
12637 1 hin the soil natural capital stocks and soil ecosystem services framework, and the research con 
14538 2  by roots may have an important role in arid ecosystems where water is a limiting resource. suc 
versity and plant-plant interactions in arid ecosystems.  
11779 1 ultimately, regulate the functioning of terrestrial ecosystems. the use of molecular techniques 
11813 1  needed for the effective management of marine ecosystems.  
12380 1  a wider understanding of the health of marine ecosystems in relation to natural and anthropoge 
12245 1 e and enhancing the biodiversity in the farm ecosystem. a number of ifm components in livestock 
14600 1 essential, integral and dynamic part of aquatic ecosystems. they also constitute a socio-econom 
14615 1  for assessing the impact of fishing on marine ecosystems.  
10255 2 pecially with regard to c loss or gain. arctic ecosystems are of critical importance to global  
e our understanding of the stability of arctic ecosystems to perturbations under future climate 
2022 1  of the ecological interactions between tropical ecosystems, and of the population dynamics of  
10736 1 mental damage, for both terrestrial and aquatic ecosystems. iit is of utmost importance to unde 
15389 1 effect of multiple stressors on running water ecosystem.  
11492 1  the c4 photosynthetic pathway dominate grassland ecosystems and cereal production in warm clim 
7463 2 hange, acid deposition, and land use on terrestrial ecosystems, and the resultant effects upon  
systems, and the resultant effects upon aquatic ecosystems. dynamo will place the site-specific 
7028 1 ines plant diversity and functioning of grassland ecosystems is a major goal of contemporary ec 
2084 1 duction and trophic transfer in barents sea ecosystem. the population of copepods in the norweg 
15530 2 nk structural and functional changes in semiarid ecosystems, and identify critical points of de 
 project will focus on key functions in semiarid ecosystems such as water and soil conservation 
7182 1  in the biodiversity and functioning of coastal ecosystems invaded  
13466 1 for the functioning and the dynamics of boreal ecosystems.  
2502 2 xperiment in unusually rapid selection. coastal ecosystems in general, and intertidal systems i 
ive model of climate induced changes in coastal ecosystems and appropriate societal responses.  
7632 1 particular, global warming is affecting forest ecosystems at multiple levels: species distribut 
7636 2                            the study of urban ecosystems is a major environmental challenge. th 
 the first ring around paris. yet these urban ecosystems, including their soils have jusquici b 
2527 2 xperiment in unusually rapid selection. coastal ecosystems in general, and intertidal systems i 
ive model of climate induced changes in coastal ecosystems and appropriate societal responses.  
7198 1 se systems alter the functioning of the agro-ecosystem and the ecological services: biomass pro 
14204 2  effect on structure and functioning of marine ecosystems. such analyses will provide us upscal 
o predict changes in dynamics of baltic sea ecosystems under a range of scenarios of future env 
15108 1 variations of the structure-function of aquatic ecosystems to climate change.  
14807 1 is to keep the good ecological state of aquatic ecosystems. for this purpose, it uses biologica 
7661 1     urban pigeon is an integral part of urban ecosystems worldwide. despite its pervasiveness i 
7203 1 habitats that they all attend. european agro-ecosystems consist of a shifting mosaic of potenti 
214 1 mous diversity of plants and animals in tropical ecosystems has stunned many researchers since  
14163 1 nge is able to initate modifications in marine ecosystems, the most radical ones are so called  
2037 1    loss and increase of biodiversity in marine ecosystems over relatively short periods of time 
2103 1 is to achieve a better understanding of marine ecosystem management with a combination of ecolo 
10720 1  80% of the rural poor in china live in grassland ecosystems and any further degradation of thi 
15482 1 rns formation, particularly in arid and alpine ecosystems. employing together information about 
7629 1             studying the functioning of urban ecosystems and ecosystem services that they provi 
7123 1 e a central element in the stability of forest ecosystems, absorbing unit  
538 1 anges, biodiversity, and functioning of forest ecosystems. the network has a strong focus on de 
7202 1 microbial diversity of agricultural and forest ecosystems nont never been associated. the netwo 
14814 1 te the effects of abiotic stress on two terrestrial ecosystems ecosystem composition, structure 
15100 1 affect the functioning and structure of forest ecosystems and, ultimately, the distribution of  
2080 1 rtality and have significant impacts on forest ecosystems. the spruce bark beetle . the project 
10814 1 fs are the most biologically diverse of marine ecosystems and are arguably the most deeply thre 
14966 1 ects of climate change on mediterranean stream ecosystems.  
14469 1  threat for the biological diversity of terrestrial ecosystems. the fragmentation of habitats a 
7125 2 pact of global change on ocean and lake aquatic ecosystems in Western Europe by using plankton  
acts on biodiversity and functioning of aquatic ecosystems. This multidisciplinary project will 
540 2     examination of long-term records of aquatic ecosystems has provided useful information to f 
e originality to tackle with marine and freshwater ecosystems. it allowed us to compile and val 
15184 1 ues to analyze microbial communities in aquatic ecosystems has reveled its huge richness and di 
15315 1 ues to analyze microbial communities in aquatic ecosystems has revealed their huge richness and 
2136 1 ing of the functioning of the norwegian sea ecosystem and generate several products that can be 
15446 1 les, and to discern its implications on stream ecosystems under the projected climate change sc 
15385 1  profound effects on the functioning of forest ecosystems and, because of this, contribute to d 
11869 1 ineages indicate major domain shifts in planktonic ecosystems and by observing and interpreting 
11393 2 y, water quality and sediment fluxes on stream ecosystems through examination of stream inverte 
, river water quantity and quality, and stream ecosystems, thus providing the balanced knowledg 
11083 1 ggests that net primary productivity of forest ecosystems declines with stand age. two question 
14655 1 and assessing the level of pollution in freshwater ecosystems. in order to achieve this, we hav 
7037 3 e from a complete analysis of the total agro-ecosystem in question. thus a whole seigniorial es 
ples where natural boundaries define an agro-ecosystem distinct from others under the same pers 
ary study on population, production and agro-ecosystem as the three basic factors of the develo 
7306 1 t farming systems on the functioning of agro-ecosystem. it is used for a number of indicators o 
13319 1  the effects of precipitation change on terrestrial ecosystems in order to bring together inter 
12536 1 a very high risk to the integrity of uk aquatic ecosystems. the aim of any non-native invasive  
7157 1 tive need to understand the response of marine ecosystems to both the natural constraints of th 
13321 1 anisations on global change and pelagic marine ecosystems, and to develop models for assessing  
13322 3                                         freshwater ecosystems, under stress from land-use chang 
scale. it focuses on the key drivers of aquatic ecosystem change years/decades, concerned with  
of ecological indicators for monitoring freshwater ecosystem health, and new methods for defini 
9878 1 pacts of global climate change on beech forest ecosystems are assessed. field studies will be u 
7242 1  to understanding our ability to manage aquatic ecosystems in a sustainable way, including the  
7415 1 dly changed the functioning of european agro- ecosystems, causing significant erosion of all bi 
13323 1  to three major interacting elements of terrestrial ecosystems: trees, phytophagous insects and 
14740 1                                         subterranean ecosystems represent perfect natural labor 
15293 1 es to the foundation of the paradigm of soil ecosystem health and its impairment by chemical po 
10958 1  reconstruct the effects of oaes on the marine ecosystem.  
15042 2 rrent knowledge of food web dynamics in terrestrial ecosystems is limited by the scarcity of st 
the functional ecology of mediterranean arid ecosystems, a particularly relevant question for c 
13757 2 l disturbance agency of many forest and grassland ecosystems that contributes to species dynami 
e to foster biodiversity in three major european ecosystems. fireman will focus on fire-biodive 
9881 2 l disturbance agency of many forest and grassland ecosystems that contributes to species dynami 
e to foster biodiversity in three major european ecosystems. fireman will focus on fire-biodive 
473 2 l disturbance agency of many forest and grassland ecosystems that contributes to species dynami 
e to foster biodiversity in three major european ecosystems. fireman will focus on fire-biodive 
15569 2 l disturbance agency of many forest and grassland ecosystems that contributes to species dynami 
e to foster biodiversity in three major european ecosystems. fireman will focus on fire-biodive 
12066 2 ction and this is particularly true for freshwater ecosystems that are among the most threatene 
s. fishes are also useful indicators of aquatic ecosystem health and sustainability and provide 
10295 1 tic habitats and exert major effects on aquatic ecosystems. this interdisciplinary project will 
11223 1 tic habitats and exert major effects on aquatic ecosystems. this interdisciplinary project will 
11762 1 tic habitats and exert major effects on aquatic ecosystems. this interdisciplinary project will 
14794 1 markers of fluoride pollution in inland aquatic ecosystems.  
14314 2 ecies diversity for the provisioning of forest ecosystem goods and services and on the other ha 
s for long-term top quality research on forest ecosystems in belgium.  
11877 1 vate investments in sustainably managed forest ecosystem services. our contribution: to address 
404 1 cial report on fertilization effects on forest ecosystems abundance of vaccinium dwarf-shrubs.  
14603 2 aking in consideration that most inland aquatic ecosystems have doc concentrations up to 30 tim 
ncentrations up to 30 times higher than marine ecosystems and colloids aggregation is density-d 
11115 1 stainable development and protection of marine ecosystems. it is recognised that greater commun 
7020 1 g. rather than studying terrestrial and aquatic ecosystems in isolation, we also focus on the f 
7135 1  aims to improve knowledge of grassland agro-ecosystems. the innovative approach of this projec 
11240 1 tic krill form an important part of the oceanic ecosystem, acting as predators on plankton and  
11497 1 tic krill form an important part of the oceanic ecosystem, acting as predators on plankton and  
10923 1 oils and the development of the complex terrestrial ecosystem. both rhizoids and root hairs are 
2027 1 odies. they are important in nearly all terrestrial ecosystems, and several insect species have 
14916 1  in various ecosystems, most frequently marine ecosystems postulation of a global host/parasite 
12043 1  with direct or indirect impacts on the marine ecosystems in the southern ocean, the conservati 
13325 1 jor attempt to understand european deep-water ecosystems and their environment in an integrated 
13340 2 ur knowledge of the functioning of deep-sea ecosystems and their contribution to the production 
natural dynamics and interconnection of ocean ecosystems and integrate socio-economic research  
11168 4 e in north west europe and also affects marine ecosystems, fisheries and climatic susceptibilit 
the impacts of future climate change on marine ecosystems and associated fisheries are to succe 
g how climatic variability has impacted marine ecosystems during the last ~10000 years, the hol 
ture climate change is likely to impact marine ecosystems and humans who are the end users of c 
2135 1 f different climate change scenarios on freshwater ecosystem in the arctic.  
196 1 . although playing an important role in forest ecosystems, this group has not been regionally r 
13490 1       viruses are extremely abundant in aquatic ecosystems typically outnumbering bacteria by a 
13922 2 ants are ecologically very important in terrestrial ecosystems: they are extremely abundant, ar 
ral processes and assemblages in boreal forest ecosystems.  
10965 1 n flow is central to the functioning of grassland ecosystems but there is virtually no informat 
13797 1 n copepods as food. previous studies in coastal ecosystems showed that salinity is important fo 
11401 1 up a large proportion of the biomass in tropical ecosystems across the world, and are known to  
10488 1 ctions. similar comparisons with modern island ecosystems can also suggest whether we can ident 
15103 1 oastal lagoon of s'albufera des grau, a pristine ecosystem with changes between macrophytic and 
13886 1  will be used. these will be located to riparian ecosystems. such systems have high natural val 
161 1 stresses that decrease the stability of forest ecosystems. many recent projects on different tr 
12435 2 on the effects of climate change on the marine ecosystem. key customer purpose to improve forec 
prove forecasts of the responses of the marine ecosystem to physical forcing and global change  
7129 1 eir distribution areas the dominance of terrestrial ecosystems by humans led to a major alterat 
14183 1 experiments, how host plants within the agro-ecosystem affect the population dynamics and pheno 
165 2 izosphere processes on the formation of forest ecosystems in open-cast oil-shale mining areas.  
ng of mechanisms how the development of forest ecosystems in calcareous mining detritus is affe 
187 1 to understand the functioning of boreal forest ecosystems and the impact of environmental chang 
10155 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
10414 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
10422 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
10758 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
10915 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
11423 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
11693 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
11706 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
9879 2 in maintaining a healthy and productive marine ecosystem. this is important considering 40% of  
ios on the biodiversity and function of coastal ecosystems. the consortium will also act as a f 
7429 1  involved in functional biodiversity of agricultural ecosystems different working methods will  
2054 1 uctural and functional changes in birch forest ecosystems due to spruce planting are investigat 
13576 2                                 swedish marine ecosystems are strongly affected by a salinity g 
bvious implications for conservation of marine ecosystems of this area. one reason for this is  
10789 1 nsive fossil record and dominate modern terrestrial ecosystems. living seed plants represent fi 
10407 2 ods of peoples living in the forest and agricultural ecosystems in south asia. the consortium i 
ise on the structure and functioning of forest ecosystems, the role of these systems in sustain 
14713 1 sub-project will provide information on stream ecosystem function at the reach scale within the 
14714 2 ease of dissolved inorganic nitrogen in freshwater ecosystems. this constitutes a threat not on 
ransform this element. nevertheless, in stream ecosystems the relationship between nitrogen ret 
224 3 oral components in nutrient dynamics of coastal ecosystem. macroalgae and phytoplankton compete 
an modify internal nutrient dynamics of coastal ecosystem. in order to assess the effect that e 
, the model can assist in assessment of coastal ecosystem response to eutrophication.  
11631 1 robial diversity with their function to forest ecosystems for the first time. the project will  
14444 1 ity to fix atmospheric nitrogen in most agricultural ecosystems. they are able to form speciali 
7600 1 servation and sustainable management of forest ecosystems of the congo basin, the interactions  
1104 1 sk 3. sustainability of river, lake and agricultural ecosystems and hydrological stress. task 4 
10252 2 arch and policy discussions on tropical forest ecosystem services are currently happening in tw 
 sustainable and pro-poor governance of forest ecosystems and their services is to be achieved. 
9882 1 onservation management of exploited and pristine ecosystems in the face of global change. these 
13940 1 ity and biodiversity in terrestrial and aquatic ecosystems to establish general principles for  
15089 1 saproxylic insects, the most diverse in terrestrial ecosystems, acting in the degradation and i 
10623 1  between most vertebrate members of the forest ecosystem and start testing specific hypotheses  
15322 2 e ongoing spread of invasive species in aquatic ecosystems calls for an urgent and detailed stu 
ive crustaceans has negative impacts on aquatic ecosystems. the american brine shrimp artemia f 
15254 1 ge environmental issue, particularly in freshwater ecosystems, where their abundance and ecolog 
12151 1        the junction zone of aquatic and terrestrial ecosystems is forming a specific habitat co 
15331 2 n the functions of affected aquatic and terrestrial ecosystems. particularly, we aim to analyse 
lized in floodplains to terrestrial and aquatic ecosystems.  
14840 1 anism of global change, particularly in freshwater ecosystems. mosquitofish to understand the e 
12477 2 se for assessing the state of england’s terrestrial ecosystems using an ecosystem approach. the 
se for assessing the state of england’s terrestrial ecosystems using an ecosystem approach 2 re 
2199 1 een marine and brackish or brackish and freshwater ecosystems. if organisms with a pelagic life 
2481 2                                northern coastal ecosystems are experiencing environmental pertu 
 to spatial and temporal variability in coastal ecosystems.  
11695 1  the management of selected coastal and terrestrial ecosystems in china, india and central afri 
7468 1 through the fp6 european lifestyles and marine ecosystems project, augmented with necessary new 
2155 1 que experimental studies in contrasting alpine ecosystems grazing management.  
2074 1 ystem function, and long-term change of forest ecosystems are complex and occur at different sp 
2087 1 ystem function, and long-term change of forest ecosystems are complex and occur at different sp 
10411 4  the underlying biophysical capacity of agricultural ecosystems. this research focuses on a cri 
 the productivity and sustainability of agricultural ecosystems. these es are often provided by 
cape. the flows of these es rely on how agricultural ecosystems are managed at the site scale a 
ntrated in its rural population and the agricultural ecosystems face the challenge of improving 
10725 1 oped. the potential impact on the shelf sea ecosystem will then be investigated by looking at t 
7194 3                                      in agro- ecosystems, functioning of biogeochemical cycles. 
fficult to transpose to a wide range of agro-ecosystems. in this context, this project is part  
er manage the biogeochemical cycle c in agro-ecosystems. this project should also enable the de 
14692 2 tion to understand food web dynamics in terrestrial ecosystems, there are currently no field st 
owground net primary productivity in an arid ecosystem, estimating the amount of production tha 
7046 1 s a key, and growing, threat to shallow coastal ecosystems. it will put an ecological framework 
13718 1  the harmful effects of eutrophication, marine ecosystems are not responding as predicted. we a 
13328 1 local. in particular, to understand how marine ecosystems will adapt to climate change, we need 
10128 3                                  marine coastal ecosystems are among the most productive and di 
ogical and geochemical processes within marine ecosystems are important for regulating climate, 
e, nutrient cycling and the food chain. marine ecosystems provide humans with many resources su 
10245 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
10512 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
11471 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
11520 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
11796 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
9981 2 fundamental modelling approaches to the planktonic ecosystem, with the aim of clarifying what w 
development of a module to simulate the coastal ecosystems, but useable in global ocean biogeoc 
12437 1 ose: there are concerns over widespread marine ecosystem change as a result of human activity,  
2110 1 nd change on the energy transfer in the marine pelagic ecosystem in different water masses on t 
7459 1 ntation to further our knowledge of how marine ecosystems will respond to combinations of multi 
2178 2 nge on the structure and functioning of marine ecosystems by means of an assessment of the role 
l research and policy efforts to manage marine ecosystems  
13329 1 questions related to the functioning of marine ecosystems and to the biology of marine organism 
1994 1 e realm. this rather scarce and unknown marine ecosystem is found in several disconnected islan 
10392 1 erc s science strategy, particularly in marine ecosystem functioning, the sustainable use of th 
12664 1 as also agreed to develop and report on marine ecosystem integrity. the work will allow the uk  
2467 2 esis as a framework and three different marine ecosystems with focus on seabirds as examples. t 
with focus on seabirds as examples. the marine ecosystems chosen - the southern ocean, the bare 
11368 1  impacts of climate change on the north sea ecosystem and also be of use to the sandeel fishery 
10896 1 derstanding of drivers and pressures on marine ecosystems, the collection of observations and d 
2038 2 is is a well-known example of a complex marine ecosystem. the approach can support the design o 
perience with respect to the effects of marine ecosystems and biodiversity values provided by t 
10554 2 ineages indicate major domain shifts in planktonic ecosystems and by observing and interpreting 
s process. thus, we hypothesise that in oceanic ecosystems genetically distinct picocyanobacter 
10558 2 ineages indicate major domain shifts in planktonic ecosystems and by observing and interpreting 
s process. thus, we hypothesise that in oceanic ecosystems genetically distinct picocyanobacter 
12020 1            the microbes project studied soil ecosystem services, in particular the decompositio 
7041 1 esents a unique starting point to study terrestrial ecosystem changes in the context of geodyna 
13330 2 y applicable to european freshwater and marine ecosystems:1to assess, forecast, and mitigate th 
 evolving pollutants on fresh water and marine ecosystems and their biodiversity at a river bas 
12260 1  enhancing or retaining biodiversity in agricultural ecosystems is a key priority within the uk 
11299 2 logy of natural populations. in coastal marine ecosystems, the oomycete eurychasma dicksonii is 
onii epidemics on algal populations and coastal ecosystems. however, many unresolved biological 
11540 2 logy of natural populations. in coastal marine ecosystems, the oomycete eurychasma dicksonii is 
onii epidemics on algal populations and coastal ecosystems. however, many unresolved biological 
10074 2 ly predict the flow of elements through marine ecosystems the detailed structure of individual  
ge, is crucial to understanding how the marine ecosystem responds to and changes the chemical e 
7265 1 rt us about that man inflicts damage to terrestrial ecosystems. by studying the knowledge and p 
11029 1 lankton could be for the energy flow of marine ecosystems: in some cases, more than half of the 
13974 1  human impact on fungal biodiversity in forest ecosystems.  
11278 1  long term trends and driving forces on marine ecosystems in this region, such as for example c 
11096 1 forest, contains around 35% of all c in terrestrial ecosystems and is the world s major source  
11746 1 so have detrimental effect on the wider marine ecosystems. there is a strong need foor novel wa 
10367 2 d today. a complete picture of mesozoic terrestrial ecosystem function could not be assembled u 
tomological data to understand mesozoic terrestrial ecosystems and how they survived global ext 
10287 1 organic nitrogen for plant nutrition in terrestrial ecosystems has taken centre stage. recent s 
10298 1 organic nitrogen for plant nutrition in terrestrial ecosystems has taken centre stage. recent s 
2108 1 ructure and function of the barents sea marine ecosystem in order to predict the ecosystem resp 
10291 2 aller than photosynthesis, meaning that terrestrial ecosystems are thought to be a sink for atm 
erature: currently our global models of terrestrial ecosystems make large assumptions about thi 
11285 1 aller than photosynthesis, meaning that terrestrial ecosystems are thought to be a sink for atm 
13776 2 the effects of these changes on coastal marine ecosystems, and the data that do exist suggest t 
e resilience, dynamics and integrity of swedish coastal ecosystems. this can, in turn, inform f 
6768 1 ing processes and of the development of terrestrial ecosystems during earth history is palaeobo 
15211 1 cting and assessing pollution levels in freshwater ecosystems. in order to do this, we have dev 
13601 1  representing structure and function of riparian ecosystems. i will do this by comparing reache 
14872 1 ural and man made, fires which occur in forest ecosystems involve soil degradation that can be  
14414 1 ort tools to aid adaptive governance of agro-ecosystems. our aim is to understand how land-use  
14757 1 nertia, resilience and vulnerability of terrestrial ecosystems an adequate role in interpreting 
10647 1 o understand the role of zooplankton in arctic ecosystems and this is of particular importance  
12070 2 e resilience of the contaminated marine coastal ecosystems over time. long term surveys suggest 
 resilience and the stability of marine coastal ecosystems.  
10265 1  provide vital clues to what changes in marine ecosystems we might expect in the future if we d 
10791 1  provide vital clues to what changes in marine ecosystems we might expect in the future if we d 
14164 1 ated by a few recent studies in oceanic coastal ecosystems, while there is no available data fr 
15220 1 l changes are having a strong impact of marine ecosystems. pelagic seabirds are one of the most 
15454 4  is fundamental to our understanding of terrestrial ecosystem functioning. litter decomposition 
 contain important amounts of carbon in terrestrial ecosystems and their relative fast turnover 
 fail to explain decomposition rates in arid ecosystems. recently, the process of photodegradat 
main process of litter decomposition in semiarid ecosystems. it is a process by which solar rad 
2477 2 erate new knowledge of human impacts on marine ecosystems particularly the short and long-term  
 exploiting petroleum resources have on oceanic ecosystems.  
13946 2 en laboratory-based culture studies and marine ecosystem dynamics. there is a urgent need to br 
periments and the situation in the real marine ecosystem, i.e. the gap between the physiologica 
14503 1 in plants widely represented in spanish terrestrial ecosystems, and to improve the parametrizat 
15203 2 uality water. however, at present, many aquatic ecosystems do not have the desirable quality st 
 quality is welcome. the fact that some aquatic ecosystems can show alternative states is well  
11073 1 s damaged. critical load values for all european ecosystems were taken into account in the deve 
9945 3  the underlying structure of marine and freshwater ecosystems is changing, and potentially most 
anisms that will govern the response of aquatic ecosystems to the elevated temperatures predict 
ence of the effects of warming on whole aquatic ecosystems. ecologists typically break ecosyste 
10714 1  have pronounced effects in aquatic and terrestrial ecosystems. these effects will appear at di 
12562 1 on-native species on native species and stream ecosystem function so as to inform the risk asse 
13837 3 enic influence on low productive boreal forest ecosystems affect ecosystem productivity and res 
tudies on disturbance and resilience in forest ecosystems and to provide tools for preservation 
on of the cultural heritage in northern forest ecosystems.  
2105 3 nalyses it is a strong advantage to use forest ecosystem process models and combine their resul 
s of the project is to develop suitable forest ecosystem process models for norway and use them 
mate the climate change impacts on main forest ecosystem functions. s3: integrate the results f 
2140 1 earth and are essential for structuring terrestrial ecosystems. this project represents the fir 
2076 1 he holistic approach to both marine and terrestrial ecosystems is expressed in the latest envir 
10881 1 nt contact and exchange between shallow marine ecosystems that otherwise remain extremely isola 
10218 1                                      in marine ecosystems, enzymes in microorganisms catalyse t 
11871 1  and important components of almost all land ecosystems and show extremely specialised social b 
12049 1 teract acidification of terrestrial and freshwater ecosystems and, to promote the recovery of b 
13348 6                       understanding how freshwater ecosystems will respond to future climate ch 
trategies needed to protect aquatic and riparian ecosystems. the future status of freshwater ec 
parian ecosystems. the future status of freshwater ecosystems is however, also dependent on cha 
asures that need to be taken to restore freshwater ecosystems to good ecological health or to s 
st-effective restoration programmes for freshwater ecosystems at the local and catchment scales 
 i understanding how the functioning of freshwater ecosystems is affected by climate change; ii 
15587 2 , including extremes, and management on grassland ecosystems 2 how does coupled above-belowgrou 
 functional diversity buffer or amplify grassland ecosystem responses to combined changes in cl 
11488 1 ineages indicate major domain shifts in planktonic ecosystems and by observing and interpreting 
7621 1 orm of"spots"affects the functioning of agro- ecosystems and study the fate of mo when amended  
11531 1  critical process to the functioning of terrestrial ecosystems. this process is largely driven  
12024 1 d and predict how global changes affect marine ecosystems. it used marine top predators . all o 
13759 2         due to anthropogenic pressures, coastal ecosystems are being rapidly degraded and can u 
level are crucial for the resilience of coastal ecosystems, and that ecology and management the 
10836 1  central role in n cycling in temperate forest ecosystems. we will determine the relative abili 
9968 1  central role in n cycling in temperate forest ecosystems. we will determine the relative abili 
15151 1 tructure and functioning of the regions terrestrial ecosystems. adaptation of ecosystems to the 
10216 1 times faster in marine in comparison to terrestrial ecosystems. this highlights that grazing by 
10925 1 times faster in marine in comparison to terrestrial ecosystems. this highlights that grazing by 
13332 1 st significant european terrestrial and freshwater ecosystems by reviewing the impacts of globa 
10283 2                                     the marine ecosystem is crucial for the functioning of the  
planet are provided by coastal and open ocean ecosystems. these environments are dominated by m 
13333 1  changes in the mediterranean and black sea ecosystems as well as changes in the ability of the 
11332 1  on marine life and on the stability of marine ecosystems. this is especially so for species wi 
180 1 nities influence considerably the whole river ecosystem. the goal of this grant project is to e 
13350 2  objectives: • develop methods to value soil ecosystem services during different pressure of la 
d temporal scales soil biodiversity and soil ecosystem services are vulnerable to disturbance.  
15016 3  important reservoir of biodiversity in terrestrial ecosystems partly because the range of envi 
catastrophic shifts. on the other side, semiarid ecosystems present a slow response, and their  
 going from the central pyrenees to the semiarid ecosystems of the middle ebro valley. our prio 
14539 2  by roots may have an important role in arid ecosystems where water is a limiting resource. suc 
versity and plant-plant interactions in arid ecosystems.  
2207 1 of wildlife, especially harvest, in the forest ecosystem can rely on spatial dynamics. related  
10012 1 frican great lakes, some of the richest freshwater ecosystems on earth, are regarded as biodive 
11765 2 s a crucial role in nutrient cycling in terrestrial ecosystems. i will evaluate changes in spec 
valuate the effect of climate change on terrestrial ecosystems as a function of changes in the  
12567 2 , to quantify their potential impact on freshwater ecosystems and to advise policy customers on 
ferent sources of pollutants within the aquatic ecosystem.  
15266 1 ge is expected to particularly threaten forest ecosystems and rainfed crops in this area. in th 
15265 1 ge is expected to particularly threaten forest ecosystems in this area. in this context, studyi 
15253 2 ge environmental issue, particularly in freshwater ecosystems, where their abundance and ecolog 
l alteration affect the invasibility of freshwater ecosystems by exotic species. we aim to quan 
7023 1 g. rather than studying terrestrial and aquatic ecosystems in isolation, we also focus on the f 
15336 2 ng the fish populations inhabiting deep sea ecosystems and their dependence on the particular c 
 attempts to determine the role of deep sea ecosystems as essential habitats trophic ecology st 
197 1 ayers may play an important role in the marine ecosystems. subsurface maxima are often dominate 
10936 1 asing frequency in both terrestrial and aquatic ecosystems with often catastrophic consequences 
11688 1 ts for ecosystem services. the value of mangrove ecosystems to local people, and particularly t 
11617 1 oduction play an important role in many aquatic ecosystems. further there is a growing realisat 
14890 2 n crustaceans with an important role in marine ecosystems . in spite of their importance, world 
in environmental studies for monitoring marine ecosystems.  
15405 2 ame sign and magnitude in materials and river ecosystems of different geographical regions in a 
s, and to determine its implications on stream ecosystems in the context of the projected clima 
15406 1 les, and to discern its implications on stream ecosystems under the projected climate change sc 
10421 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
10663 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
10685 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
10914 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
11692 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
9897 1 ermine the structure and functioning of planktonic ecosystems in relation to physical and atmos 
10600 1 nd we are ignorant of their function in soil ecosystems. this project aims to determine their a 
15141 1 d for monitoring conservation status of terrestrial ecosystems in the meditteranean basin. they 
2153 2 evaluation of the ongoing monitoring in arctic ecosystems. by using information from different  
erent trophic levels in both marine and terrestrial ecosystem components on svalbard and in the 
12414 1 m a key element of an expanded european marine ecosystem observatory with noc, sahfos, pol, pml 
11407 1  framework within their local contexts. forest ecosystems will be used to evaluate and developm 
11025 1 er implications for studies of mesozoic terrestrial ecosystems and extinctions.  
10530 8                          currently, our marine ecosystems are threatened by a number of environ 
ts today, it is not the first time that marine ecosystems have faced such threats. the fossil r 
t the world s oceans. understanding how marine ecosystems have been affected by past environmen 
st to manage the present crisis. modern marine ecosystems took millions of years to evolve. the 
ed dead zones had on these early modern marine ecosystems. we will determine, for the first tim 
een an improvement in the resistance of marine ecosystems to extinction and collapse brought on 
 time how the structure and function of marine ecosystems, from the seafloor to the ocean surfa 
 function and early evolution of modern marine ecosystems.  
2508 1  will also further our understanding of marine ecosystem processes, specifically benthic-pelagi 
10926 1 ankton form the base of the food web in marine ecosystems and are responsible for many of the b 
10698 1 e of nutrients from the dust has on the marine ecosystem in the sea, at a mooring site close to 
11612 1 s produces carbon dioxide and the whole marine ecosystem. this proposal aims to investigate the 
12569 1  provide the data required to safeguard freshwater ecosystems in a changing environment. there  
13975 2 ction on diversity and process rates in aquatic ecosystems. most experimental evidence for biod 
 on ecosystem functioning has come from terrestrial ecosystems and has focused on single trophi 
10640 1    one of the major factors influencing river ecosystems is disturbance, particularly that rela 
9982 1    one of the major factors influencing river ecosystems is disturbance, particularly that rela 
9980 1    one of the major factors influencing river ecosystems is disturbance, particularly that rela 
6949 1 biotic catastrophe, the recovery of the marine ecosystems was a complex and long-lasting proces 
10888 2 ther factors of importance to a healthy mangrove ecosystem such as the communities of fish and  
se gases that are lost from the soil in mangrove ecosystems - for example, whether this is comi 
6999 1 anding of the functioning of marine and freshwater ecosystems. . however, most processes descri 
10830 1 y a central role in nutrient cycling in forest ecosystems. this project aim to elucidate the mo 
10317 2 o improve predictions of how vulnerable marine ecosystems are to ocean acidification, how likel 
cale of risks of ocean acidification to marine ecosystems.  
2033 1 s richness and the role of diversity in marine ecosystems have been much discussed recently. ho 
518 1 ys a central role in the functioning of agro-ecosystems having a strong natural value due to it 
13456 1  are influential ecosystem engineers in aquatic ecosystems, but were exterminated in sweden in  
2057 2 y important species in most terrestrial arctic ecosystems; they are both prey and predators mod 
rther on svalbard and other high arctic terrestrial ecosystems.  
14217 1  are crucial in the functioning of most terrestrial ecosystems. nevertheless, it is poorly know 
13923 1 l aid in the development of sustainable agro-ecosystems and develop solutions aiming at reducin 
11023 1 will therefore enable us to predict how marine ecosystems might change in the future, and ultim 
15477 1 within the framework of the response of terrestrial ecosystems to global change. the growing in 
2181 1 ecological effects of climate change on terrestrial ecosystems . this project will provide a ne 
166 1 f suspension feeding communities in the coastal ecosystems.  
1925 3 s. there are strong indications that in terrestrial ecosystems the occurrence of plant diseases 
al hypothesis that high biodiversity in terrestrial ecosystems confers high soil suppressive ne 
hic soil community, is a key feature in terrestrial ecosystem functioning. permanent grassland  
1924 3 s. there are strong indications that in terrestrial ecosystems the occurrence of plant diseases 
al hypothesis that high biodiversity in terrestrial ecosystems confers high soil suppressive ne 
hic soil community, is a key feature in terrestrial ecosystem functioning. permanent grassland  
14932 1 d to the study of other terrestrial and aquatic ecosystems, and proved fruitful in determining  
10320 1 with project safe: stability of altered forest ecosystems . safe has negotiated that, when a la 
2170 1 pivotal role for the function of boreal forest ecosystems because bryophytes make up a large pa 
15048 1 ronmental stress of contaminants within freshwater ecosystems.  
2482 2 s a pressing need to develop predictive aquatic ecosystem models to better understand and mitig 
 the dominant forms and biodiversity of marine ecosystems are variables, not rigid parameters a 
10043 2                                     the agro-ecosystems of the semi-arid west africa provide th 
tem productivity will effect on-and off-farm ecosystem resources. this proposal aims to begin d 
14517 1 intense interaction between aquatic and terrestrial ecosystems. riparian vegetation, among othe 
13579 1  required for sustainable management of aquatic ecosystems.  
10831 6 emission estimates of hydrocarbons from tropical ecosystems. emissions from tropical ecosystems 
rom tropical ecosystems. emissions from tropical ecosystems represent more than 75% of global e 
ps minimize its role in future climate. tropical ecosystems emit large quantities of a wide ran 
 of these satellite data over different tropical ecosystems and during different seasons can be 
velop a more accurate emission model of tropical ecosystems that describes how large-scale vege 
 a more accurate simulation of climate. tropical ecosystems represent an important weakness in  
15533 1                            riparian and stream ecosystems are tightly coupled through the excha 
15534 1                            riparian and stream ecosystems are tightly coupled through the excha 
10133 2 s suddenly become invasive, taking over island ecosystems and thereby suppressing ground breedi 
es and from which they gradually invade island ecosystems. the problem occurs not only in scotl 
7668 2                                         coastal ecosystems host high human population densities 
ing incidence of large disturbances the mangrove ecosystems in indonesia represent one fourth o 
10624 1 ed, may influence the carbon balance of forest ecosystems and have important feedbacks on nutri 
15526 2                                         river ecosystems are amongst the most seriously imperil 
tion of the impacts of river damming on river ecosystems, focusing on river fish communities; a 
15581 5  75% in europe.the understanding of how urban ecosystems work, how they change, and what limits 
ium will focus on functional diversity, urban ecosystem services, institutions, economics and r 
 the drivers behind loss/enhancement of urban ecosystem services and how do they interact acros 
use change on ecosystem functioning and urban ecosystem services what are the roles of species  
 functional diversity for generation of urban ecosystem services cluster ii. valuation of biodi 
9958 1 hanges in the structure and function of terrestrial ecosystems. human activities are also respo 
10852 1  between most vertebrate members of the forest ecosystem and start testing specific hypotheses  
10893 1    the loss and degradation of tropical forest ecosystems and the associated impact on ecosyste 
10900 1 is the largest fresh water and tropical forest ecosystem in the world, representing over half o 
2463 1 o-economically important aspects of the marine ecosystem such as biodiversity and plankton dyna 
7247 1 rance and resorption ' pollution of the forest ecosystem. it is hoped to relate the state of th 
11154 1  is to explain their ecological role in oceanic ecosystems.  
13483 1 ns have large impact on individuals and aquatic ecosystems by changing important habitat factor 
2072 3 ter interactions, where terrestrial and aquatic ecosystems interact during different seasons. m 
nteractions between the terrestrial and aquatic ecosystems, and their synergisms, as reflected  
ove our understanding of highly diverse tropical ecosystem interactions, with special regards t 
190 1 ntermediate and upper trophic levels of marine ecosystems. first data on zooplankton in the gul