Id	Number of occurences	Forms
12058	1	to the dynamic in situ preservation of genetic resources. it aims to identify new forms of man
13377	1	n conservation and evaluation of almond genetic resources in southeast anatolia region: almond
7115	1	se patterns and practices seek to fewer resources open environments. again, the area of large c
7127	1	does for the production and quality of resources available as rewards insect partners, and the
7297	1	mentioned in the literature as possible sources of electroactive bacterium, our recent experime
7500	1	first time comprehensively characterize genetic resources resistant floors, and identify biolog
7586	1	ly preservation device cross-pollinated genetic resources.
14269	1	increasing socio-economical interest in marine resources urges the need for a decision making f
10966	1	related to climatic conditions such as sources of moisture, temperature and amount of rainfall
7633	1	a have an almost unlimited reservoir of genetic resources that remain largely untapped because
11446	1	tutes a test of the idea that the plume source is deep in the mantle, at the core-mantle bounda
13819	1	the addition of nitrogen fertilizers to increase wood production in boreal forests. however, so
13457	2	e increased agricultural management for production of food and biofuels. an intensified product   involved in the degradation of complex carbon sources, that is up to 200 times faster and 100
11431	1	the single greatest source of uncertainty in the estimates of climate sensi
10883	1	eria perform central roles in enhancing plant productivity and biogeochemical nutrient cycling.
13712	1	protected areas. it is today applied in production forests around the world, making it good exa
12455	1	ment appropriate tools in a common open source framework. apply to selected case studies in col
12456	1	and their prey in comparison with other sources of uncertainty in fisheries models, and help to
11671	1	s surface and we will test whether the supply of emergent rocks might limit egg recruitment. f
10280	1	ll-lit surface zone with the deep water nutrient supply, leading to the formation of a layer of
10553	1	ll-lit surface zone with the deep water nutrient supply, leading to the formation of a layer of
7685	2	proportion of the population relies on marine resources and services. an understanding of driv  tion of the population relies on marine resources and services. an understanding of drivers of
10075	1	across the amazon, and access to unique sources of amazon plant ecology in our quest to discove
11513	1	across the amazon, and access to unique sources of amazon plant ecology in our quest to discove
7189	3	ntly, balancing use and preservation of natural resources: it is on this plane that is this pro  es in the management of rural areas and agricultural production; 2 to contribute to the develop  s, from the plot scale up an integrated natural resource management and production sectors to w
7460	2	plement field experiments with acoustic sources and receivers in the fram strait and the arctic  emented. the existing array of acoustic sources from ice-tethered platforms in the arctic ocean
2031	1	organisms become mistimed to their food supply. this leads to selection on the way animals vary
2491	1	the project will be run by the natural resources law group at the university of oslo.
1944	3	sition of agro-biodiversity in the food-supply-chain. on the basis of that knowledge the progra  dependencies between actors in the food supply chain in a juridical sense. the oio with a speci  itutional interdependencies in the food supply chain and analyses the opportunities for governa
13979	2	and have thus risked wasting management resources. recent advances in decision theory for appli  or other organisms dependent on similar resources, the swedish epa has produced an action plan
7051	1	s biological control is effectively the product of networks of interactions between pests and t
11821	1	human society, the improved methods of food production eventually resulting in rapid populatio
7417	1	e uncultivated strip, is it purveyor of resources and interests habitats for biodiversity relev
7413	1	w our project to mobilize the necessary resources to global expertise of these developments for
13310	1	a share of more than 10% of the project resources.
13593	1	ng populations allocate relatively more resources to defence and relatively less to growth comp
2522	1	n native fauna and flora that will help natural resource managers to develop monitoring and act
7574	1	iral isolates. the stability of certain sources of resistance and the adaptability of the virus
12037	1	ning exploitation of one of the richest natural resources on earth, especially familiar farmers
10527	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
10774	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11051	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11574	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11816	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11817	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11820	1	gging, forest to pasture conversion and exploitation of natural resources. they face a warming
11235	3	via food, medicines, home, culture, and natural resources. these forest biospheres also provide  osystem services in terms of forest and food resources, current and potential new medicines, ra  exogenous forces such as deforestation, resource extraction and climate change. this proposal i
2204	1	n close connection to wp 7 and wp 8 and supply them with data needed for the ecological and the
11186	1	the skeletons of massive corals are a valuable source of information about past tropical clim
12479	1	which the natural environment produces resources that are useful to people, including goods li
11861	1	lerant crops were carried out after the product had been on the market . this is inefficient an
12241	2	d evaluated, and would be an invaluable source of information for answering a range of question  actices, helping to minimise the use of non-renewable resources and helping to safeguard the en
11576	1	of climate change on weather, climate, water resources, agriculture and ecosystem function. th
10650	1	rategic science themes on biodiversity, sustainable use of natural resources, and knowledge exc
10721	1	ore limited by their ability to acquire resources and survive. males, in contrast, produce larg
7529	1	ant markers to characterize and develop genetic resources. . macrophylla, a relatively large in
15038	1	pecies richness, conservation degree or resources availability. another aspect not deeply studi
7371	1	ific to the analysis and enhancement of genetic resources. we intend to invite such work by ana
13415	2	about the performance and to develop a sustainable production system of angora goats in rural   n and sustainable utilization of animal genetic resources.
10344	2	in particular the group will study the supply of nitrogen and carbon to the bacteria and algae  pport of £23k has been given from other sources and the german hosts are providing support in t
14366	3	generate 3d-models from a variety of rs sources and to evaluate the impact of these various dat  aluate the impact of these various data sources on the quality of the generated dems. wp2 devel  to test the potential of different data sources for making a regional inventory of above- and b
7630	1	tive natural ecological compensation by supply. our project has two primary objectives, ecologi
15575	2	since the 1940ies increased agricultural production has modified agricultural lands   these aphids as well as their non-pest food sources. based on the vast amount of data already
10103	1	fungi infect the germinating seeds and supply the young plants with carbon and nutrients. this
14695	2	lite markers to support the analysis of genetic resources and to stablish broodstocks in cultur  sity in natural populations to evaluate genetic resources of seahorse in atlantic area. second,
11022	1	esolution facilities at the swiss light source to be tested. the analysis calculates strain and
12490	3	in the uk the major source of ammonia is from agriculture, which contribute   high ammonia concentrations near point sources; - decrease of species diversity of semi-natura   of ammonia emissions and their diffuse sources make analysis of control measures and policies
12516	1	vegetation both in terms of refuges and alternative food sources is likely to increase the abun
12247	2	d reduce the environmental footprint of food production substantially. this has clear significa  tially. this has clear significance for sustainable food production and security.
11863	1	d from archaeological sites are a major source of information concerning prehistoric agricultur
10518	1	ysif, which uses a piezo-electric chirp source that gives very-high-resolution images and deepe
10429	2	tropical ecosystems are major sources of the greenhouse gases . the proposed research  other tropical uplands are likely to be sources of ch4 and n2o, and assess their potential cont
10967	2	tropical ecosystems are major sources of the greenhouse gases . the proposed research  other tropical uplands are likely to be sources of ch4 and n2o, and assess their potential cont
11699	2	tropical ecosystems are major sources of the greenhouse gases . the proposed research  other tropical uplands are likely to be sources of ch4 and n2o, and assess their potential cont
11362	1	ement and to provide information on the source of the cue as a prelude to its complete characte
10190	1	t and in oak tree exudates. this unique genetic resource will provide an unparalleled opportuni
10998	1	t and in oak tree exudates. this unique genetic resource will provide an unparalleled opportuni
12550	1	cation. shook swarm removes the primary inoculum source from the colony rather than simply supp
12599	1	aterials for reducing these loadings at source.
10156	1	irect, possibly through competition for shared resources . in this case, immune responses raise
11676	1	irect, possibly through competition for shared resources . in this case, immune responses raise
11214	5	a grain of rice, which is an important food resource for commercially important fish such as h  then use measured relationships between biomass and productivity to reconstruct phytoplankton p  biomass and productivity to reconstruct phytoplankton production rates, from space. production   ace will then need to be validated with phytoplankton productivity measured in the sea. once we  hed reliable year-round and basin-scale phytoplankton production, this will provide an estimate
11754	1	is a dominant large copepod species and source of food for fish in the north atlantic. the stud
12272	2	ide defra with statistically sound data sources that have the resolution and flexibility necess  only impartial and statistically robust source of evidence for policy making which aims to miti
7457	1	er changes, and changing or conflicting water resource demands. adaptation and policy options w
12295	3	and. the project will provide a readily available resource for decision makers to assess the mo   use. the project aims are: 1. identify sources of land use typology data for england. 2. creat  ect a desk-based assessment of existing sources of land use data will be undertaken, and the re
7370	1	rgence of a dynamic management model of genetic resources of wheat involving farm management an
14649	1	of special value to society since they supply water for human consumption and other services w
12252	1	in the environment itself causing point source and diffuse pollution and impacting on habitats
7666	1	is expected to progressively drive crop genetic resources conserved in gene-banks to mal-adapta
10191	2	ones between mycelia growing from woody resources into soil. the dearth of information availabl  s are provided with a highly nutritious food source. whatever the reasons it is obvious that th
12652	3	tter strategic coordination, effort and resources would be more productively targeted. the proj   relating to this subject, the level of resources devoted to these responsibilities, and the ba  the balance of priorities in allocating resources. this will enable better informed decisions b
10002	2	to climate-driven variation in the food supply to the deep sea. similarly, biogeography studies  ll show how factors such as hills, food supply, or community composition relate spatially to re
13501	1	thus expected to shift from low to high nutrient supply depending on grazing pressure. addition
400	1	serious threat that might lead to lower fish production if management does not take the demogra
6753	1	beef production mostly for export purposes was very imp
13482	1	sity, and necessary if we are to manage marine resources wisely while confronted with climate c
14152	1	lity, it is important to understand the sources of variation in them. in this project, we plan
11602	3	nguins as indicators of fluctuations in biological resources and climate, thus providing import  rtant information for the management of marine resources in the southern ocean. the study will   the southern ocean. the study will also supply valuable information on many physiological aspec
14974	1	le by enabling them to find appropriate food resources or to develop responses to novel predato
2212	4	ze adaptive management of fish and game resources from a welfare economic point of view, taking  lfare based management of fish and game resources. • empirically assess benefits and costs of f  ess benefits and costs of fish and game resources, and use this as inputs in dynamic management  he physical characteristics of specific resources. • scrutinize how different property right re
2472	2	ms at understanding how to bio-engineer livestock production landscapes in nicaragua, i. e. how  tem services and economically efficient food production at the farm and landscape level. we wil
7249	1	in terms of modification of the runoff, sources of micro and ecotoxicological impact on hydrosy
12015	3	conservation of biological and cultural resources must be reconciled via bottom-up structures t  epted. these structures explicitly link sustainable production modes, the intrinsic and extrins  ghts in the context of protecting local resources and know-how. they made recommendations for a
7104	1	to partition the space by intensifying agricultural production on part of the territory so as
516	2	area through an intensification of the agricultural production on a part of the territory so a  ltiplying the competition for access to land resource and in favouring their subdivision. in th
451	1	and between atolls allow the renewal of resources in the exploited areas since the techniques f
14846	1	tion, they also seem to be an important source of organic carbon in the sediments of aquatic sy
14845	1	tion, they also seem to be an important source of organic carbon in the sediments of aquatic sy
1977	1	ta deep water coral reefs and potential food sources will show, whether this mystery can be exp
13729	2	to socio-economic processes driving how natural resources are managed. biodiversity is viewed a  anaged. biodiversity is viewed as a key natural resource for maintaining ecosystem functioning
463	1	ndian ocean, using a wide range of data sources, having as objective to characterize this biodi
9933	1	hreat to european biodiversity. a major source of nutrients to semi-natural ecosystems is atmos
14419	1	ctly, on biodiversity and its component resources. yeasts have ecological, medical and biotechn
7286	1	sects would reduce this risk by being a source of pollinators for fragmented populations and fa
7211	1	lls and they allow the renewal of these resources in sites operated technical inventory of cora
10398	2	cal data that will provide clues to the source of the hot water and hence other potential areas  n isotopes will be used to identify the source of the deep groundwater, chemical analysis will
12036	1	vasive bridgehead scenario in which the source of most invasive populations of a species is its
14420	2	a huge biological diversity. they are a source of significant biological resource and play an i  em functioning and optimal use of their biological resources. for the purposes of the investiga
2550	1	nt greenhouse gas, as a sole carbon and energy source. methylacidiphilum kamchatkense, strain k
13732	1	terest to shorten production cycles and increase food production. however, there is growing con
14494	1	a monthly sampling and quantifying the cast production in laboratory microcosms and jail micro
11601	2	nse to human demands for food and other resources, with serious consequences for climate, biodi   observation missions or any other data source. the biomass p-band radar will provide a unique,
11467	1	ific challenge is quantifying ecosystem biomass and productivity by scaling up observations fro
11456	1	itch the region from a carbon sink to a source. however, we do not understand the mechanisms un
10859	1	ters. their role in active transport of energy resources will be investigated in a small river
6971	1	ntributing to developments in hungarian maize production.
6829	1	ies more important tasks: 1. finding of sources for drought resistance 2. breeding of hybrid ma
10395	1	densities of s. aria required to effect seed production in rare pseudogamous apomicts.
15221	1	affect species distribution ranges and resource availability. it is mandatory to know which sp
10643	1	s by exploiting a new, largely untapped source of palaeontological data: burgess shale-type mic
14294	1	increasing socio-economical interest in marine resources urges the need for a decision making f
12059	1	e conservation and the efficient use of natural resources, helping to reconcile human needs, ec
9865	2	,000 years ago, and of industrial scale food production, starting about 100 years ago. milk and  f our diet, and also provides our major source of calcium, but this is true only for the people
1093	1	e been pointed as among the most likely sources of among-lineage rate variation, such as popula
7025	1	2 /n 2 0 ratio. h2: the mode of organic carbon supply to retention areas controls denitrificati
13710	1	itical parameters examined include food supply for breeders, egg size, start of breeding, sex r
11670	1	are findings from different sedimentary sources accurate dating of these sequences is fundameta
15422	1	lore the use in large scale cultures as food resource for fishes and molluscs in aquaculture.
14612	1	importance at determining the sink and source capacity at ecosystem level. finally, we will in
2124	1	diversity through their contribution to seed production of animal-pollinated plant species. the
12481	2	natural resource protection is one of five strategic pr  published in march 2005 also identified natural resource protection and environmental enhanceme
12480	2	ecosystems are natural resources that provide people with many essenti  siderable constraints, e.g. in terms of water resource availability, flood risk, air quality, t
14928	1	. invasive species may monopolize local resources and outcompete native species; they may alter
7671	1	in formulating recommendations for the conservation of resources.
440	1	ironmental gradients of disturbance and resource availability. to test this hypothesis at a lar
528	1	loit the soil request less and less the resources of open environments. moreover, apart from be
7150	2	hum are the staple food and main energy food source for populations of sahelian countries like   ient seed crops and seed system are the source of significant disturbances in the diversity of
11062	9	ilability and high nutritional value of marine resources means that they should have been a con  chaeological evidence for the continued exploitation of marine resources throughout prehistory   d a new way to detect the processing of marine products at a highly sensitive level. organic re  range of scottish and irish sites where marine resource exploitation would have continued along  f scottish and irish sites where marine resource exploitation would have continued alongside th  t, we will explore changing patterns in marine resource exploitation through time. island sites  ill explore changing patterns in marine resource exploitation through time. island sites, such    new insights into changing patterns of marine resource exploitation by humans in antiquity at   sights into changing patterns of marine resource exploitation by humans in antiquity at a resol
12514	1	turing, distribution and retailing. the supply chain in each sector, and across sectors, will b
10743	1	pes, will relate organic n to potential source areas. input of organic n to forest soils will b
11755	1	pes, will relate organic n to potential source areas. input of organic n to forest soils will b
9974	1	pes, will relate organic n to potential source areas. input of organic n to forest soils will b
13465	1	maintaining levels of biodiversity and agricultural production through its role in plant polli
9843	2	the aim is to determine the ages and sources of detrital zircons in palaeozoic sedimentary r   . they should also reveal the ages and source regions of provenance, crucial to unravelling th
13439	2	opical countries dependent on export of marine products. focused phytoplankton monitoring of co  ch is an environmental friendly protein source. we will define the long-term effects of the env
14157	1	crease of ecological footprint, special consumption of resources and energy and in their relati
2079	1	in relation to climate, hydrography and biological production at lower trophic levels. the proj
13773	1	breeding with seasonal fluctuations in resources. although plasticity allows short-term adjust
14823	1	ironmental factors such as temperature, water supply, irradiation, etc. accumulate stress situa
7673	1	land occupation and uses of ecosystems resources, and how this behaviour impacts biodiversity.
10889	1	ism for studies of larval transport and supply and are also sensitive indicators of climate cha
2179	1	match between the geometrids and their food resource or a mismatch between the geometrids and
14665	2	sential tool for a better management of natural resources. such studies combining climate varia  d consequently an increasing deficit of water resources. moreover, implications of better under
2109	1	for present and future determination of resources. we will also use past vegetation and soil re
12588	2	e a brief review of uk soil carbon data sources and shortfalls in these data. this will provide  he system maps using the available data sources and internationally recognised experts.
10137	1	g vast biodiversity and providing major food resources for humankind. since the industrial revo
11019	1	g vast biodiversity and providing major food resources for humankind. since the industrial revo
15028	1	able and adaptive management of coastal resources, which are deeply affected by anthropogenic a
15583	1	d stakeholders, closing the gap between knowledge production and action.
13386	1	aimed to collect and identify the gene sources of this crop of the lotus species and ecotypes
14192	1	storing safety duplicates at the nordic genetic resource centre participating in activities of
13394	1	n to collect erzincan vegetable genetic sources and to determine morphlogical characterization
15339	2	on plays a key role in the detection of resources by diurnal pollinators. the anatomy of the ey   of visiting such flowers when there is competition for resources. differences in visual system
10525	1	ronment, and also potential very useful sources of new capabilities. bacteria also are a very i
14813	1	able molecular tools to define areas of seed sources and certification, and that upholds the re
2478	1	ecosystems. society has recognized that living marine resources require management in a broader
7490	1	on of bio-fuels competes with areas for food production and nature. moreover, intensified land
7161	1	ge species to optimize the abundance of food resources, and therefore the heritage species
10267	2	s have parasites that infect them, take resources from them and potentially cause disease. the   tempts to develop strategies for secure food production in future climates.
445	1	al species to optimize the abundance of food resources and therefore of patrimonial species.
13879	3	neral availability of nectar and pollen resources and by changing the spatial and temporal vari  e scales at which these species utilize resources. therefore landscape complexity may affect be  poral availability of nectar and pollen resources determine bee foraging success and population
2159	1	and necessary maintenance of the actual resources. in nature conservation there is a need for c
13414	1	y based conservation of domestic animal genetic resources’ in ankara province and ıts villages
14515	1	recting measures to preserve the lake s natural resources. by carrying out an adequate program
13416	1	y based conservation of domestic animal genetic resources in amasya province and ıts villages s
2047	2	sustainable exploitation of marine resources requires balancing con  r, but also balancing the use values of marine resources versus indirect use values and non-use
6959	1	ion to better focus financial and human resources, and reshape, if necessary, conservation stra
7711	2	future pac in its objectives as in its resources is therefore at the heart of debates. among t  ferent european systems of farms in the provision of public goods 3 analyzing the inclusion of
10436	7	all living organisms exploit resources for survival and reproduction. food resources  esources for survival and reproduction. food resources provide the energy, and refuge resources  esources provide the energy, and refuge resources the opportunity, to survive, grow and reprodu  nces of organisms are influenced by the supply of their resources - the users of a patchy world  s are influenced by the supply of their resources - the users of a patchy world are themselves   erever they compete to exploit limiting resources. this process of competition combines with ex  n and redistribution of food and refuge resources within the context of generic conceptual mode
10404	2	a community has significant impacts on plant productivity by affecting competitive abilities o   the soil surface. in addition, we will supply plants with a pulse of 13co2 - a natural and eas
7414	1	rsity loss through a lessening of honey resources which are essential to maintaining the bee. t
12714	1	as. during a time of growing demands on resources and shrinking governmental budget, understand
15483	1	to get faster access to new profitable resources. the results, combined with previous knowledg
11144	1	ties, where over-exploitation of common resources such as fish stocks or failure to curb carbon
7453	1	ies. these environments are also a rich source of novel exploitable compounds. the work program
10073	2	s trade-off is thought to exist because food resources are in limited supply and can be put int  t because food resources are in limited supply and can be put into reproduction or long life, b
10635	5	o parents , which affects the amount of resources available to individual offspring. the conseq  ss and begging behaviour. the amount of resources available to individual offspring depends upo  ily members and the availability of key resources in the environment. however, although the imp  icts, or the interrelationships between resource availability, conflict over these resources an  ource availability, conflict over these resources and the mechanisms that determine the costs a
10229	7	spring demand may often exceed parental supply of resources, such as food, which are necessary   and may often exceed parental supply of resources, such as food, which are necessary for growth  ions for conflicts of interest over the supply of parental investment amongst family members. t  t amongst family members. the amount of resources provided by parents is ultimately dependent u  arents is ultimately dependent upon the availability of resources in the environment. in many b  urces in the environment. in many birds resource availability during breeding is often unpredic  wever, parents can simultaneously track resources in the environment and increase control over
12667	1	component of the evidence base for the natural resource protection programme and supports poli
515	1	lities of interaction for an integrated production of knowledge and a better efficiency for man
229	1	fragmentary but presents interest as a valuable source of information about changes and pressu
13864	1	ndred lakes and watercourses. the final product will be design criteria as well as expected per
10787	1	solates from a variety of environmental sources.
11300	1	solates from a variety of environmental sources.
10239	1	the supply of food to the ocean floor and benthic community
10748	1	the supply of food to the ocean floor and benthic community
10750	1	the supply of food to the ocean floor and benthic community
11717	1	the supply of food to the ocean floor and benthic community
7549	1	to improve the ex situ conservation of genetic resources yams. yams are vegetatively propagate
7539	1	n interest in the long-term security of genetic resources in perennial species, for which extre
10059	1	l produce the first large scale genomic resources in a cuckoo species and will thus be of great
2473	1	of secure medicines based on the malian resources against gastric ulcer. the main objectives ar
2116	1	elines for the long-term management and conservation of resources, based on existing knowledge
12202	2	rnational crop networks, such as the uk plant genetic resources group and the international pla  c resources group and the international plant genetic resources institute european cooperative
13792	1	required for cell respiration, the main source of energy production in eukaryotes. selection is
10304	1	these separate projects is an efficient use of resources that will lead to additional peer-revi
12237	4	, collation and analysis of robust data resources. this project will continue elements of the o  ide defra with statistically sound data sources that have the resolution and flexibility necess  o maintain and extend these unique data resources for the two most important combinable crops i  only impartial and statistically robust source of evidence for policy making which aims to miti
12427	1	t can be interrogated to help determine sources of marine litter and can be used to monitor mar
10302	2	cave art is one of the few sources of archaeological information about the belief   tio of uranium to its radioactive decay product thorium. thus a minimum or maximum age can be c
13856	2	owever, nest predation is a significant source of early mortality in life and changes in predat  tes, predator protective cover and food supply through forest thinning for reproductive success
12033	1	chemosynthesis, are linked to chemical resources that are discontinuous in space and variable
12464	1	ad social goals when applying values to fisheries production and management. this part of the p
7677	1	sustainable exploitation of a valuable natural resource.
11440	3	pose organic matter and when the oxygen supply in the water runs out other types of bacteria ta  use sulphate for the same purpose. a by product of these sulphate-reducing bacteria is hydrogen  ween sulphur from volcanic or bacterial sources. when compared to the fossil record of plants a
12637	1	soils are responsible for the national provision of food, feed and fibre. in the last 20 yrs d
11113	1	changes in society, pressure of coastal resources and climate change.
15490	1	ng of species that compete for the same resources, is increasingly appreciated as a determinant
2118	2	nomically important non-timber tropical forest products – the brazil nut. these nuts are the on  ne how to safeguard the future of other non-timber forest products.
10764	1	d to archaeological artefacts provide a valuable source of information applicable to different
7706	1	of european agriculture is to reconcile agricultural production for various uses with respect f
11563	1	ferences, either differential access to food resources for men and women, or evidence of migrat
15202	1	the management and conservation of this genetic resource in canaries. in addition, phoenix cana
13430	1	t for determination of recent status of water resources fish fauna of bilecik, eskişehir, kütah
13429	1	t for determination of recent status of water resources fish fauna of lakes region of turkey.
10968	3	marine productivity focuses on zooplankton production,            marine productivity focuses on zooplankton production, examining how climate change ma  de a service to other components of the marine productivity programme, by producing useful data
12265	2	stock account for up to 35-40% of world methane production. around 80% of this comes from ferme  an help to reduce emissions per unit of product, per head and/or at a national level: 1 as a re
10837	1	nd benefits males and is the first gene product shown to underlie sexual conflict in any specie
11509	1	key factors that greatly influence the product cost are the stability of the strains and conid
12543	1	nternational trade in growing plants or plant products. for example thrips palmi karny was know
12765	1	species, spread of diseases, damage to livestock production and vehicle collisions. recently e
10420	1	nd to estimate the extent to which such aquatic resources were being consumed. our method is ab
11389	1	nd to estimate the extent to which such aquatic resources were being consumed. our method is ab
12292	4	i is developing important complementary genetic resources to understand interactions between s.  clude wild plant relatives which may be sources of novel resistance factors compared to other r  el resistance factors compared to other resources based on the domesticated crop. secondly, we   he future, the aim will be to use these resources to screen different plant genotypes for resis
14826	1	afy especially appealing as a potential source of nuclear phylogenetic information at a broad s
7575	1	all management perspective in situ genetic resources, it is important to characterize the
7570	2	rench network of arboretums to identify genetic resources of such collections, put forward a pl   a plan of rational management of these resources within the network and enhance the. currently
10144	1	y. by coupling a tungsten halogen light source to the input of the sifts instrument via fibre o
12551	1	d naturally by the insect, derived from food sources or in the case of parasitoids and predator
11282	1	imate change. precipitation is the only source of water and nutrients to the bog and so therefo
7624	1	del of functional relationships between resources i dynamics and vegetation and ii services ren
12532	3	eatments are vital if traded plants and plant products are to meet some of these legislatory re  maging pests on the trade in plants and plant products has been identified as a primary concern  e selected pests on imported plants and plant products.
11134	1	ing concern about the impact of diffuse source pollution on river, estuarine and coastal water
12245	3	rm as a whole, and encourage the use of natural resources in a sustainable way to produce a cos  ainable way to produce a cost-effective product at the same time as safeguarding animal welfare  tting objectives to enable good quality livestock products to be produced with minimal environm
14600	1	sediments constitute a valuable natural resource with ecological, social and economic v
12524	3	es driven by the need for reductions in resource use while maintaining productivity. national s  mental research on the genetic basis of resource use efficiency require a level of appropriate   ly expanded from breeding varieties for organic production to include low input production, and
11266	1	s proposal, a diode laser as raman pump source is amplified in an optical cavity. this increase
13731	1	formation in relation to hatching date, resource use, habitat use and resource levels.
7702	2	emphasize the importance of more value wood resources while improving actions for the preserva   of management systems and valuation of wood resources at different scales, fine management of
11459	1	onary innovation and radiation and as a source of taxa that have invaded the deep sea. it is li
11634	1	ge transfer between and access to these resources. this project costs under £140k and makes a h
11124	1	se environmental factors. such invested resources include antioxidants, immunoglobulins or horm
13575	2	s what supports this production a major source of subsidies to marine systems origin from fishi  iscard on nephrops is its importance as food source. utilisation rate may however be modified b
12023	1	ions between four plant traits at two n supply levels. optimal values for total plant biomass o
10142	1	related species potentially compete for resources more than distantly related species. most of
10094	1	opulations in two beetles, a grain pest food resources. aflp analysis will determine heterogene
1936	2	lated to its position relative to local sources. tools to assess the restoration opportunities   relation to the distance to the nearest seed sources are not available at present. it is the ai
2479	1	ecosystem-based management of norwegian marine resources.
1984	1	ria play a key role. the most important source of nitrogen in coastal microbial mats is n2 and
185	1	atrix surrounding habitat, abundance of resources, vegetation cover and the level of overgrowth
14905	2	a taxonomic, phylogenetic and bioactive product prospecting on the seaweeds occurring in the tr  evision and comparison studies of these marine resources. in this project, the species with pot
15068	1	that the information on the degree and source of toxicity in loxosceles linked to a solid taxo
11874	1	itrogen which is often present in short supply in many polar environments. despite its central
10034	1	ion of groundwaters that may be used to supply drinking water. in addition, ammonia oxidation i
2022	2	ves and seagrass beds provide important food sources for millions of people, but are in decline  nd many people depend on reef fish as a source of protein or income.
13355	3	collection, data recording at national plant genetic resources data base and documentation of   and documentation of the information of plant genetic resources collection. passport, collectio  on data are subject to documentation of plant genetic resources collection.
11604	1	rca. microsatellite dna analyses of the source populations will be used to determine whether th
10439	1	pecific variation in its preference for nitrogen sources available. this project aims specifica
10136	1	maternal contribution is limited by the resources available to the mother, and so will vary wit
10944	2	s neighbour by using a different set of resources. one of the problems with applying this idea   ery similar needs for a small number of soil resources, most notably for nitrogen, which until
15389	1	st that one of the most hard impacts on aquatic resources will be both the reduction in surface
11492	1	thway dominate grassland ecosystems and cereal production in warm climates. both the multiple e
10693	2	roviding a chemical fingerprint of dust sources that are important for deposition. a key part o   properties change moving away from the source will give us a clue as to the important processe
14371	2	a fusion approach merging multiple data source of different spatial resolution referring to the   in improving the use of remote sensing product in the field of epidemiology deliverables: • pe
7408	1	eezing is the preferred way to conserve genetic resources in the long term in rabbits should pr
14199	1	le of the soil seed bank as a potential source of plant diaspores, and on the presence of symbi
10125	2	gement interventions. possibly the best source of data for such studies is the holocene record   f prehistoric human population density, resource use and environmental impacts, and also on cha
10686	1	use most plant species use very similar resources: just one or a few highly competitive species
14319	3	cal populations with a relatively cheap source of proteins. however, human-induced changes, inc  iodiversity, productivity and ecosystem resources. future industrial methane harvesting additio  ns sustainable development of ecosystem resources. lake kivu may provide an adequate model for
12601	3	nd partners with a regional overview of soil resources, their extent and use and their key func  unctions, especially relationships with water resource issues. the study will develop a `case s  standing of the strategic importance of soil resources could help the regional assembly deliver
13339	1	value to the currently independent data sources of in situ data and eo. there are three require
2084	3	limate variability and change influence biomass production and trophic transfer in barents sea    of great importance to the barents sea biomass production. the first emphasis will be on analy  s the effects of climate variability on biomass production and trophic transfer from copepods t
15530	1	uch as water and soil conservation, and plant productivity. the specifc objectives of the proje
12040	1	areas and for sustainable management of marine resources, but also pointed out the need for rel
7635	1	al functions that largely determine the production of food in 2010 pir ecological engineering p
13480	1	ude climate change, overexploitation of natural resources, invasion of alien species and destru
7688	1	ine what is the flexibility in terms of agricultural production systems to set up or restore. .
7632	3	al engineering is the ability to choose sources of adequate seeds face an uncertain climate in    multiple levels: species distribution, forest productivity, phenological changes, increase in    economic challenges posed by these new forest resources
7700	1	organic waste products the level where objects are units of pro
7717	1	a global increase in demand for wood products is observed which can not be met by natur
11071	1	ased reliance of economically important living resources. we will present current knowledge on
7198	1	-ecosystem and the ecological services: biomass production, soil conservation and biodiversity,
15294	2	soil is a natural resource with a high socio-economic value, but   e environment and they are a continuous source of risk for heavy metal pollution to soil, air,
15295	2	hen it was recognized that soils were a natural resource that needed a special protection in or   make a modelization of the variability sources in order to obtain continuous surfaces based on
14230	1	rengthened to the extent that needs for resources and environmental services can be met without
14770	1	ation in zones where material and human resources are scarce. in addition, these results will s
7708	1	part of a global context where fishing aquatic products reached a plateau and aquaculture expe
15033	1	impact in the management and economy of water resources. with current trends of climatic change
10949	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
11056	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
11425	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
11432	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
9893	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
9900	1	ray of four sediment trap moorings. the supply of food to the deep-sea floor plays a major role
1943	1	sition of agro-biodiversity in the food-supply-chain. on the basis of that knowledge the progra
2203	1	profits and consumers’ welfare from the product. 3. compare the efficiency performance of diffe
12513	1	arms, and the performance of individual crop and livestock production activities, have been pub
2208	1	erent kinds of expertise, officials and resource users on all levels. the whole project is base
2073	1	influence of reindeer density, habitat/resource use and climatic variation. the social science
2086	1	influence of reindeer density, habitat/resource use and climatic variation. the social science
10106	2	hypothesised that the nutrient limiting forest productivity shifts from n, to n+p, to p during    plots to measure changes in above- and below-ground productivity, monitor changes in nutrient
13987	1	agricultural production is expected to continue to expa
12594	4	ientific evidence on peatland ecosystem service provision as well as the transferability of the   of each site to increase its ecosystem service provision and assess the case for restoration,   ns and compare differences in ecosystem service provision between sites. we will assess the tra  iteria for assessing peatland ecosystem service provision to facilitate monitoring of the healt
15116	1	heritage critical level, defined as the natural resources essential and impossible to replace a
15117	1	heritage critical level, defined as the natural resources essential and impossible to replace a
14946	1	o promote sustainable use of the mining resources. these objectives will be met through the con
2055	1	, and phylogenetic analyses to identify source areas and frequency of previous immigrations of
12507	1	ains one of the most crucial aspects of organic production systems; there is a reliance on legu
2068	1	e effects of such interaction for plant seed production and population dynamics is examined. fi
13614	1	portance for sustainable use of grazing resources in the arctic tundra in the future and an und
416	1	s of abundance in order to sustain this marine resource.
2139	2	il organic matter as energy, carbon and nutrient sources for biomass production and for their m  energy, carbon and nutrient sources for biomass production and for their metabolic functions. c
13855	2	hic effects of community complexity and resource availability on biodiversity and productivity   ferent trophic levels and the impact of plant resource composition and trophic interactions on
10954	1	d, if possible, data to be generated in marine productivity application 2.3. complementary data
2005	2	-borne micro-organisms are the greatest source of biodiversity on earth, and plants drive the d  inities via the quality and quantity of carbon source inputs into the system. fot rerestrial ec
13967	1	of pollen limitation and the effect of seed production on population and metapopulation dynami
540	1	ese ecosystems, the management of their resources and the extrapolation between sites are the m
13944	1	cting effects of regional diversity and resource availability on local diversity, productivity
15207	1	he project are: 1 to assess whether the water source to evaluate the impact of climatic change
14184	1	pest management by any plant protection product is costly, which is why it is sensible to optim
14900	1	mprove the sustainability in the use of natural resources. the major goal of this proposal is t
12576	1	y metal additions on soil fertility and agricultural productivity.
11769	1	dual survivorship and fecundity through competition for resources and microsites for germinatio
9906	1	dual survivorship and fecundity through competition for resources and microsites for germinatio
15099	3	ill reduce the competition for internal resources required byvegetative growth and reproduction   a greater competition for the internal resources between growth and reproduction. we hypothesi  ing between phenological phases and the competition for resources in response to the forecasted
6955	1	nce breeding is difficult as resistance sources are limited and because many resistance factors
11024	1	hem to inhabit only areas with abundant food sources and minimal competition. however, no study
10661	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
10912	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11158	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11170	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11420	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11421	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11701	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
11702	12	, and the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   fuel, the regulation of nutrients, and water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
9896	12	ange, the potential to replace imported sources of energy, the possible impact on food producti  urces of energy, the possible impact on food production, and aesthetic issues related to the lo  he location of wind turbines. potential sources of land-based renewable energy include bioenerg  d electricity, hydroelectricity, ground-source heat, and wind-energy. the spatial organisation   nergy. the spatial organisation of such energy sources, together with energy demand, energy inf   energy infrastructure and other energy-sources within a particular landscape can be termed the  associated ecosystems. they include the provision of food, fibre and fuel, the regulation of nu   and fuel, the regulation of nutrients, water supply and water quality, the creation of opportu  lopment and use of land-based renewable energy resources will have both negative and positive i  oups, the project will identify the key sources of renewable energy within the study area and t  larly, the approach will allow new data sources to be included as they become available. starti  tions of land based renewables. because renewable energy sources have different spatial and tem
7472	1	icipants. another work package provides resources for initial fine-tuning and recurrent adaptat
7488	3	ich aim to achieve 5.75% of liquid fuel supply by 2010 and 20% by 2020. liquid fuels derived fr  n important alternative to conventional energy sources to reduce europe s dependence on fossil   le low-input conditions to be used as a source of lignocellulosic feedstock for bioethanol. ene
10487	1	increased food production is widely considered to be a
9885	1	increased food production is widely considered to be a
12503	1	ent of the long-term data or from other sources. as concern grows over how policy is best appli
12305	2	ce on imported soya as the main protein source which has recently raised environmental concerns  iable quality depending on raw material source, processing, drying and storage conditions. this
7701	3	animal production are a major component of the agricult   des'objectifs achieved by a minimum of resource utilization. the project focuses on the analys  r and intra system efficiency for large animal production. research project progress margins co
7037	3	e developed to sustain control over the agricultural production. such tools were maps, register  ous conflicts arose around questions of resource use and allocation. a well known example are f  stria. a large and yet unedited body of sources will be prepared for edition in the project. th
7306	1	the utilization efficiency of expensive resources and the ability of a agrosystem to limit air
14375	2	osystems as natural capital assets that supply life-support services, i.e. ecosystem services,   n well-being and showing that continued supply of these services is threatened by unsustainable
12229	1	, a scoping exercise to define the data resources required by a ruminant gin and developing the
7157	1	l bacterial biodiversity, such as point source pollution by hydrocarbons or pesticides
14435	1	this project unites efforts, human resources and the infrastructure of 10 bulgarian resear
6894	1	e quantity of safe, healthy, marketable agricultural products, a widening of the farmers’ profe
2516	2	ctive, non-food and low-cost carbon and energy sources for microbial bioprocesses, which can be  hose ensure oxidation of the reduced c1 source to co2 for energy generation, and c1 assimilatio
7454	1	value to the currently independent data sources of in situ data and eo. there are three require
2041	2	oping countries from the perspective of sustainable use of marine resources and promoting devel  ainable and responsible exploitation of fisheries resources by european fleets in waters of thi
10354	1	nd other changes cause them to become a carbon source with the potential to increase the rate a
10358	1	g pest resistance using a natural plant product that would negate the need for use of pesticide
12771	1	y take over half their intake from this source. therefore rats should be able to consume the an
7415	1	us studies have demonstrated that these resources are primarily winter maintained by the stubbl
1961	1	thermic animals depend on external heat sources to maintain their body temperature, which there
2537	1	evolution by providing bacteria with a source of genetic variation required for adaptive evolu
1103	3	context, an efficient management of the water resources is considered very important for italy   n of several irrigation variables using water resources of different salinity and quality. an o  st agronomical strategy to optimize the use of water resources.
10801	4	provide their offspring repeatedly with resources after hatching or birth. parent-offspring com  en parents provide their offspring with resources because parents incur costs from providing ca   conflict, offspring should demand more resources from their parents than parents are prepared   he parents to control the allocation of resources. by contrast, scramble competition models, su
10849	5	seen as having a basic similar need for resources so that they can grow and reproduce. plants a  ant battle with each other to gain such resources. plants need to secure resources for growth a  n such resources. plants need to secure resources for growth and successful reproduction that w  e same problem. they too need to secure resources for growth, which are ultimately directed tow   find themselves competing for the same resources, one can expect a conflict to emerge between
13323	1	information systems and bioinformatics resources for common use by the partners. large data se
7716	2	ence of eukaryotes, which is the likely product of intracellular symbiosis between archaea and   to ecologically intensive management of agricultural production
10090	1	to compete. recent theory suggests that resource competition will over-ride genetic benefits, b
10119	1	determine the changes in foraminiferal carbonate production during the last 100 myrs and const
6817	1	ly sign that individual can efficiently use resources available for organism. the various featu
13422	1	ter buffalo has been the most important animal production material in turkey for centuries for
13420	1	he important breeds of sheep famous for milk production. the activities on conservation, charac
13417	2	sustainable utilization of farm animal genetic resources’ has been conducted since 1995 under   portant breeds of sheep famous for high milk production and prolificacy. the activities on cons
13421	2	ia and marmara regions previously, as a source of farm animal genetic resources remain only in    previously, as a source of farm animal genetic resources remain only in marginal areas of the
13401	1	tic plants which are conserved as plant genetic resource. the plants exists in our collection w
10528	1	shown that the comley limestones are a source of orsten organisms, the only instance of this s
12141	1	rotection of the living environment and natural resources. should be pointed out that top level
13766	2	f magnitude farther away from the spore source than in previous studies. this will be achieved   ferent distances from a specified spore source for which our knowledge of their dispersal ecolo
9868	1	e ability to learn about the quality of resources from others has evolved in species vulnerable
7291	1	he updating of the national database of genetic resource collections, study of the representati
10454	1	tures of these lipids, their biological sources, and the environmental controls on their occurr
11523	1	tures of these lipids, their biological sources, and the environmental controls on their occurr
10203	5	e been linked to global warming. global methane production in marine sediments is very signific  ere are even suggestions that anaerobic methane production and consumption may be due to the sa   driving this process, by investigating methane production in high-pressure systems. these syst  o temperature and pressure changes, the supply of compounds for methane oxidation or production  ggested as being an important potential source of methane. we will identify the physiology and
2107	2	st are highly productive areas, with an annual production about 10 times of what might be found  ve also shown that kelp is an important carbon source for many animals in these areas. however,
14634	1	acilitation process in the obtaining of resources and in the reduction of dysfunction. the aim
14589	1	deer populations represent an important natural resource in the european countryside. their exp
7548	1	ution of diversity. we can evaluate the product of what can be termed farm conservation and hav
14624	1	ed with the distribution, abundance and production of fish in several reservoirs from the river
10294	1	bacteria which grow on methane as sole carbon source have been obtained from many environments
12519	1	g corporate social responsibility where resources within research in organic food and farming a
15577	4	sity makes an important contribution to agricultural production by providing ecosystem services  nd the ecosystem services important for agricultural production are there policies which, if fo  vices in farmlands without compromising agricultural production farmland is an international re  pped lands may be positively related to biodiversity and provision of ecosystem services. if th
12600	1	in the disturbance of large volumes of soil resources annually. topsoils may be stripped and s
11193	1	sting public human and chicken genomics resources.
10657	1	te change, the bering sea is one of the source regions of the north pacific intermediate water
2184	2	antification and identification of main sources of uncertainties. we will build single-, two- a   finally, we will compare the different sources of uncertainty, ranging from measurement error
12221	1	g greenhouse gas emissions. amongst the sources of renewable energy that have been recognised a
13372	1	cular-morphological characterization of plant genetic resources, especially genetic diversity o
7053	1	he tools will be based on the same data sources as used in the species-delimitation process and
7305	1	the genome to determine the most likely source population of each point of the genome and ident
2209	2	r risk analysis. adaptive management of natural resources does not only require an efficient ma  refore to: • identify the most critical sources of uncertainty about the biological state of an
11327	3	cant additional contribution to oceanic carbonate production by marine bony fish. these animals   seawater. this previously unrecognised source of marine carbonate is significant in its own ri  r that it makes a major contribution to carbonate production on a global scale. furthermore, du
7318	3	because sheep breeding systems, meat or milk production standards are likely to affect the avai  tion standards are likely to affect the availability of resources that they generate for scaven  ng capabilities even in a context where resources are partly predictable in space and time. mor
10705	1	metry. use will be made of two labelled sources of c . the outputs from this project will be qu
11269	8	on irrigation to smooth fluctuations in annual production levels. there is apparent potential i   is apparent potential in terms of both land and water resources, but the reality is that often  conflicting demands are exceeding basin water supply. this is a particular issue in relation to  nzania have identified the expansion of agricultural productivity as the growth engine to addre  expansion and growth will be reliant on sustainable resource supply in terms of water and land   d growth will be reliant on sustainable resource supply in terms of water and land and associat   of existing land use and its impact on water resources and associated ecosystem function is a   ble sustainable management of water and land resources, in an era of fast development and chang
11416	8	on irrigation to smooth fluctuations in annual production levels. there is apparent potential i   is apparent potential in terms of both land and water resources, but the reality is that often  conflicting demands are exceeding basin water supply. this is a particular issue in relation to  nzania have identified the expansion of agricultural productivity as the growth engine to addre  expansion and growth will be reliant on sustainable resource supply in terms of water and land   d growth will be reliant on sustainable resource supply in terms of water and land and associat   of existing land use and its impact on water resources and associated ecosystem function is a   ble sustainable management of water and land resources, in an era of fast development and chang
9970	1	ly unproductive environment compared to productive habitat. this novel project will combine fin
11359	1	ly unproductive environment compared to productive habitat. this novel project will combine fin
404	1	ccinium dwarf-shrubs. in the context of forest productivity, the observed changes in plant comm
11691	1	addition, this mineral is an important product of iron metal corrosion in permeable zero-valen
9942	1	addition, this mineral is an important product of iron metal corrosion in permeable zero-valen
7310	1	se service for integrated management of biodiversity resources area. this objective will be pur
10399	1	native woodland is a scarce resource of high cultural, scientific and nature
6921	1	ltd. to develop new, higher value-added agricultural products. as cost effective development, w
14324	1	: specialized in economic evaluation of water resources management.
7006	1	s energetic requirements, its potential resource exploitation, and its susceptibility to predat
10773	1	ly to be of interest to the sustainable marine resources theme, particularly elements concernin
10263	2	e know that they are virtually the sole source of fixed carbon for higher trophical levels in i  provide food for young krill when other sources of food in winter are lacking. this food chain
1945	1	ts and pathogens are major problems for sustainable food production. global economic developmen
10377	1	robiota and contribute significantly to global productivity. they occupy environmental niches t
2009	1	fe history traits, and exploit limiting resources in different ways. insight in the life-histor
14136	2	functional groups of am fungi. 3.assess biomass production of plants as a function of colonisat  development for agriculture, ornamental plant production, landscaping and ecosystem restoration
13939	2	correlative relation between available nutrient resources and species distribution at a spatia  nstrate to what degree species-specific resource utilization determines their distribution in t
7020	1	s ecosystems provide to humans, such as food production, the maintenance of water quality and s
11079	1	bal climate changes. recycling of woody resources is almost exclusively confined to a narrow ra
10832	1	erse interaction: if endophytes consume plant resources then they might compete for carbon in t
10651	1	even suggest optimal tactics for human resource use in the face of an unpredictable and resour
13558	1	of natural history is the main funding source of gbif sweden, and a new 5-years contract was r
11240	2	cting as predators on plankton and as a food source for a variety of animals including fish, se  of the art methodologies and create new resources that we will make available to the scientific
11497	2	cting as predators on plankton and as a food source for a variety of animals including fish, se  of the art methodologies and create new resources that we will make available to the scientific
2011	1	basis of variation using modern genomic resources in gene mapping and expression-profiling, wit
10704	4	r good conditions in which high quality resources are freely available have different preferenc  ces than females reared on poor quality resources. for example, in our previous work, we have s  s with access to better larval or adult resources have stronger directional preferences for mal  ility, two traits that strongly reflect resources available during larval and adult development
11414	4	r good conditions in which high quality resources are freely available have different preferenc  ces than females reared on poor quality resources. for example, in our previous work, we have s  s with access to better larval or adult resources have stronger directional preferences for mal  ility, two traits that strongly reflect resources available during larval and adult development
14438	6	ea sativa are based on the inventory of genetic resources, estimation of genetic variability an  tainable management and conservation of genetic resources of forest-fruit species. in this conn  • to characterise castanea sativa mill. genetic resources in bulgaria and to assess current dis  r future management of chestnut stands, forest products quality monitoring and a strategy for c  y for conservation of european chestnut genetic resources. the recommendations will provide for  rests and the level of contamination of forest products, with the aim of taking correct managem
7523	1	in plants, it is now very difficult to source local plants and phenotypic analysis does not gu
1097	2	and, this process can be exploited as a source of genetic diversity to be introgressed into sel   the peninsula, in close proximity with seed production areas for the cultivated varieties. gen
7546	5	maintaining wood production in madagascar, the first energy source,  ood production in madagascar, the first energy source, requires the planting of eucalyptus. gol  ry arguments for better use of national resources for a sustained production of wood for the ma   better use of national resources for a sustained production of wood for the malagasy populatio  e of national resources for a sustained production of wood for the malagasy population. it is t
11606	1	d genetic structure of refugia, and the source of colonists for the rest of europe. this projec
206	1	lated to conservation and management of genetic resources of endangered salmonids environments
13484	1	imes affect fitness characteristics and natural productivity. this project focuses on the comme
13525	2	rtant species. the degree to which fish genetic resources are depleted is unknown, however, and  omoting sustainable management of these fish resources
6779	3	ike winter rapeseed growing. for hybrid seed production we use male sterile and restorer lines.  s of hybrid we use our inbred lines and source lines of male sterile and restorer lines. we mak  he official testing and starting hybrid seed production and propagation of parent lines. the fi
11137	1	eir ecological requirements. therefore, competition for resources between related species may b
15255	1	r back as the 1950s have proven to be a valuable source of information to show that the genetic
13730	1	nt mode of instantaneous speciation and source of novelty in higher plants in recently glaciate
2501	1	y represent a tradeoff between material resources allocated to dna vs. rna. the project will be
9869	4	ronmental conditions. as phenotype is a product of a genotype and its environment, and phenotyp   this will enhance management of forest genetic resources and tree production quality, particul  onservation, for example, in conserving genetic resources in the remnant scots pine forest frag  es responsible for management of the uk forest resource and experience in communicating scienti
10666	2	to predict and manage the ocean and its living resources in an era of unprecedented change. the  case, krill may become a more important food resource for us humans too in an uncertain future;
10668	2	to predict and manage the ocean and its living resources in an era of unprecedented change. the  case, krill may become a more important food resource for us humans too in an uncertain future;
10983	2	to predict and manage the ocean and its living resources in an era of unprecedented change. the  case, krill may become a more important food resource for us humans too in an uncertain future;
11016	2	to predict and manage the ocean and its living resources in an era of unprecedented change. the  case, krill may become a more important food resource for us humans too in an uncertain future;
10644	1	on coral reefs for their livelihood and source of food. almost all of the ecosystem services pr
14534	1	everal isotopic tracers to identify the sources will contribute a precise knowledge of the natu
11069	2	act indicators, representing impacts on water resources, flood risk, food production, biodivers  impacts on water resources, flood risk, food production, biodiversity and human health and well
13324	3	as lowland areas dependent on mountain resources, and for facilitating the development of sust  and for facilitating the development of sustainable resource management regimes for mountain re   will be formulated through a series of product-oriented workshops dedicated to: 1 long-term mo
11405	2	ct the spatial distribution of pathogen sources and receptors are urban populations more vulner  l and water; catchment risk assessment; water resource management; human health and epidemiolog
11584	2	ct the spatial distribution of pathogen sources and receptors are urban populations more vulner  l and water; catchment risk assessment; water resource management; human health and epidemiolog
12157	1	tigate the influence of closure date on seed production in a range of widely grown perennial, i
10475	1	with increasing distance from the eddy source. it is these features that a successful numerica
7476	1	t the most effective solution for fresh-water supply since traditional technologies as water pi
12623	1	entify methods of managing the land, or water supply systems, which could help to reduce these
2504	2	oject we hypothesize that this enhanced phytoplankton production can efficiently be exploited t  to the specific environment of enhanced phytoplankton production from forced upwelling. by impl
12669	1	ses: 1. investigation of potential data sources to provide time-series data; 2. testing and eva
12670	1	table and accepted methodology and data sources for the production of uk and country level indi
9955	2	successfully at high density because of competition for resources, meaning that these sites sho  sity, i.e. when nest-sites are in short supply. finally, we will carry out manipulations of the
2186	1	. with thinning the forest can become a source-sink system, and the presence of a species does
13602	1	large resources are invested in habitat restoration in sweden
10483	2	ocean areas have clear blue water with low productivity and there is likely to be very little   ly: firstly with increasing depth, food supply from the surface becomes sparser and a point is
13598	1	phytoplankton production is dynamic and the occurrence
12388	1	hat is available within the coastal and marine resource atlas of the ‘magic’ website . it is en
2152	3	years in parallel with the increase in total production within the industry. estimated growth   ulture industry, cannot be based on the marine resources exploited at present. the only unexplo  loited at present. the only unexploited marine resources of significant biomass are found at lo
2528	3	years in parallel with the increase in total production within the industry. estimated growth   ulture industry, cannot be based on the marine resources exploited at present. the only unexplo  loited at present. the only unexploited marine resources of significant biomass are found at lo
14377	1	the past decades, a lot of efforts and resources have been invested to protect the remaining a
7217	2	se islands, while their major role as a source material for neighboring systems, source of biod  ource material for neighboring systems, source of biodiversity or pollution buffer has been dem
13325	1	r possible biological fragility, unique genetic resources, global relevance to carbon cycling a
13340	1	ge and impacted by man through fishing, resource extraction, seabed installations and pollution
2125	1	the ecology of microbes, for our global genetic resources, for biotechnology, for our understan
10270	1	ices from carbon storage, biodiversity, water provision, flood protection, aesthetic/recreation
13341	4	iplinary situation analysis of highland aquatic resources, focused on values, livelihoods, cons  cosystem services derived from highland aquatic resources, in particular poor, food-insecure an  eholder values associated with highland aquatic resources and areas of conflict will be assesse  ders to: monitor the health of highland aquatic resources; develop and promote wise-use, and wh
7481	4	iplinary situation analysis of highland aquatic resources, focused on values, livelihoods, cons  cosystem services derived from highland aquatic resources, in particular poor, food-insecure an  eholder values associated with highland aquatic resources and areas of conflict will be assesse  ders to: monitor the health of highland aquatic resources; develop and promote wise-use, and wh
11640	1	ng the last two centuries, are an ideal source of genetic material. museums today contain many
10130	1	hange, to enable future soil conditions water resources to be predicted using computer models.
10416	1	hange, to enable future soil conditions water resources to be predicted using computer models.
11698	1	hange, to enable future soil conditions water resources to be predicted using computer models.
9889	1	hange, to enable future soil conditions water resources to be predicted using computer models.
14763	1	andertals that can be tested with other sources of evidence, such as the fossil record, the pal
10924	1	s been largely unrealised. however, the source specificity of certain bacteriohopanepolyols and
13922	4	and forestry and consequent changes in resource availability. ants are ecologically very impor   of species to successfully compete for resources. recent restoration programs aim to restore n  tested. changes in spatial and temporal resource availability, resulting from forestry-related   stry and fire and consequent changes in resource availability. this improved knowledge will enh
12255	1	odiversity associated with conventional intensive agricultural production. many studies have be
13797	1	nities and facilitate the prediction of fish production in a future with changing climatic cond
10911	1	cannot use carbon dioxide as their sole carbon source and consequently use organic molecules fr
10980	1	cannot use carbon dioxide as their sole carbon source and consequently use organic molecules fr
10970	1	honeybees supply man with honey and provide a vital pollination s
7721	1	diseases are essential components of a sustainable food production. resistance genes prove an
10488	1	record does not represent an objective source of information. not only is it far from complete
13796	1	infrastructure on moose space use using resource utilization function in relation to infrastruc
15060	1	erns, and other important human-induced sources of mortality, on great bustards in iberia, and
13342	4	ns made by individuals and groups about natural resource management. in this project we will us  and use systems, and it is an important source of revenue and protein, particularly in developi  ns and has a key role in conflicts over natural resource management around the world. our multi  p novel approaches to the mitigation of natural resource conflicts involving hunting. finally,
2130	1	. ongoing investigations in both rivers supply material for studying host-parasite dynamics and
2092	1	and represent an important factor as a source of new variability in the subsequent evolution o
7658	1	in terms of modification of the runoff, sources of micro and ecotoxicological impact on hydrosy
7047	3	economic and ecological importance, as sources of pharmaceuticals and mycotoxins, as sources o  s of pharmaceuticals and mycotoxins, as sources of industrial enzymes, and as biological contro  nts. thus hypocrea species are valuable biological resources. utilization of these and new bior
12279	3	ure increases on global food prices and supply, a balance is needed between food production and  and supply, a balance is needed between food production and the maintenance of healthy and dive  r levels. • nitrogen inputs are a major source of co2 emissions • leaching of nitrogen and phos
10502	1	aquatic environment thus protecting our aquatic resources and biodiversity.
10244	1	aquatic environment thus protecting our aquatic resources and biodiversity.
10246	1	aquatic environment thus protecting our aquatic resources and biodiversity.
10742	1	aquatic environment thus protecting our aquatic resources and biodiversity.
11220	1	aquatic environment thus protecting our aquatic resources and biodiversity.
12227	3	, due to the depletion of non-renewable natural resources, their potential negative impacts on   ly. with over 85% of mined p is used in food production, and field vegetable crops being very r  etable crops being very responsive to p supply there is a need to identify future research requ
10490	5	resources are limited and must be divided between diffe   organisms can choose to devote limited resources to their offspring or to themselves, but not   even some invertebrates invest time and resources into feeding and protecting their offspring.   ese organisms a large proportion of the available resources are devoted to reproduction, leavin   devoted to reproduction, leaving fewer resources for self maintenance. the solution we observe
11543	5	resources are limited and must be divided between diffe   organisms can choose to devote limited resources to their offspring or to themselves, but not   even some invertebrates invest time and resources into feeding and protecting their offspring.   ese organisms a large proportion of the available resources are devoted to reproduction, leavin   devoted to reproduction, leaving fewer resources for self maintenance. the solution we observe
14779	1	izers and pesticides has allowed a huge increase in food production in the last 40 years, feedi
7634	1	th soil fungi that can access difficult access resources directly to plants but improving their
13890	2	closures in young forest stands along a habitat productivity gradient. the moose food plants ar  een affected. effect further depends on habitat productivity, and the same moose density can gi
161	2	long-term variations of tree growth and site productivity. the case studies reported consistent  ortant link in cycling procecces as the source of the majority of the nutrients taken up annual
147	2	dom may favor bacteria while the lower phytoplankton production in dom-rich years can reduce b  dependant on phytoplankton exudates and degradation products. two estonian large lakes võrtsjär
11147	1	group will contribute their skills and resources to a larger effort with this proposal initial
7536	1	h as oaks, which one wishes to conserve genetic resources, what strategy to scale to a known in
14183	1	minimise pesticide use, maximise use of natural resources, but are economically-viable and envi
14141	1	at higher air humidity can diminish the nutrient supply of plants . every species will be subje
10305	1	hy function of soils: they underpin the production of food and fibre, the cycling of nutrients,
10940	1	nd will be controlled by manipulating p supply. the rate of weathering, lmwoa dynamics and micr
187	1	r total carbon gain in conditions where resources are limited. in general, changes in leaf long
11818	1	e-scale seafloor elevations are a major source of environmental variability in the deep sea. in
13526	1	and importance of the cyanobacteria for zooplankton production. the current study is one step o
10909	1	re important and dependent on the major sources of material to estuaries. in this respect, susp
10155	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
10414	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
10422	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
10758	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
10915	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
11423	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
11693	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
11706	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
9879	1	ucial role in maintaining a healthy and productive marine ecosystem. this is important consider
15271	1	dels for the identification of the main nitrogen sources, among other elements, and their contr
10032	1	uk are supplied mainly from groundwater sources, especially during the summer months when rainf
11842	1	uk are supplied mainly from groundwater sources, especially during the summer months when rainf
14023	1	tant cyst deposits on the sea bottom, a source of recurrent bloom events. for this reason, i wi
12274	3	ure increases on global food prices and supply, a balance is needed between food production and  and supply, a balance is needed between food production and the maintenance of healthy and dive  fficiently. nitrogen inputs are a major source of carbon dioxide emissions and leaching of nitr
12239	1	also by supporting other organisms as a source of food and shelter. the nature of vegetation ma
11597	1	eted and cost-effective distribution of resources to conservation programmes. this will directl
10407	1	od hazard and water regulation, and the provision of food, materials and energy. the objectives
1095	1	are related to pastoral management will supply information about the participation of local com
10982	1	rattle is a parasitic plant that steals resources from other plants by changing the suitability
11037	1	l alter the way the animals compete for resources, allowing smaller individuals greater access,
11566	1	l alter the way the animals compete for resources, allowing smaller individuals greater access,
10151	1	dividuals, particularly with respect to resource use, is likely to impede our ability to grasp
11419	1	dividuals, particularly with respect to resource use, is likely to impede our ability to grasp
11771	1	dividuals, particularly with respect to resource use, is likely to impede our ability to grasp
11806	1	allow. we propose to identify intrinsic sources of variation in the costs of providing parental
10360	1	, some fish will be better at acquiring food resources than others. these fish will consequenti
7489	4	replacing fossil oil with renewable resources is perhaps the most urgent need and  e energy than is contained in the final product. thus, using plant material in the chemical ind   fossil material contained in the final product but also save substantial energy in the process  ts in bulk quantities and with a secure supply. genetic engineering of vegetable oil qualities
15338	1	-nesting bees and wasps as suppliers of resources, will be done, through a gradient of landscap
13577	2	e to poorer light climate, and increase bacterial productivity due to high input of doc and dec  s project is to clarify how primary and bacterial productivity will change due to predicted cli
7102	1	s for the marketing of agricultural and fishery products, enhancing biodiversity and ecological
7705	1	ion of contextual elements of favorable agricultural production to an overall reduction of para
14443	2	onomically valuable genotypes and their resources in habitats, including protected zones on nat  tainability of conservation and use the natural resources of medicinal plants, including protec
7483	2	ion of dietary nitrogen utilization for milk production and excretion in urine and faeces. nove  nterlinked research aims to improve the supply of amino acids to be absorbed relative to the qu
454	1	itary constraints that are limiting the cereal production in madagascar, a hemi-parasitic weed
7214	1	the phytosanitary constraints limiting cereal production in madagascar, a scrophulariacée hemi
7201	1	of alternative methods. in the case of vegetable production, the challenge of these developed
7196	1	actices and sustainable conservation of biological resources, we can expect to acceptance by pr
1104	2	task 4. exploitation of territorial and environmental resources and climate changes. task 5. hy  d climate changes. task 5. hydrological resources management.
403	2	ve to rice monocropping for a long-term increased food production in the mekong delta. the unde   the farmer takes full advantage of the natural production capacity of the rice field ecosystem
13810	1	ent of sustainable-use programmes where resources, stakeholders and authorities work in concert
10252	1	range of ecosystem services, including forest products, hydrological services, and carbon sequ
10425	1	ide standard protocols for choosing the sources of individuals for human-aided movement of plan
10990	1	ide standard protocols for choosing the sources of individuals for human-aided movement of plan
11173	1	ide standard protocols for choosing the sources of individuals for human-aided movement of plan
10649	2	pic scale in a soil, bacteria and their food source or oxygen supply, for example, are spatiall  acteria and their food source or oxygen supply, for example, are spatially separated, even at r
14513	3	environment and sustainable use of the natural resources it is essential to develop methodolog  ented to monitor ecosystem dynamics and sources of disturbances. it is crucial that these metho  ologies incorporate remote sensing as a source of synoptic and spatially explicit information i
7204	1	rench countryside three compartments of biological resources, management modes and different so
11527	2	g the value of the services provided by natural resources, ecosystems and biodiversity. this is  tegrated methodology problem. it is the product of an internationally renowned team of natural,
10707	1	ronments, as well as to build the human resources in important regions of the globe for future
12614	1	mes work in practice, including funding sources. the specific countries will include the uk; us
2040	1	he latter region is dependent on: 1.the supply of species by the donor region; 2..the nature an
7602	1	ted roles, environmental simulation and shared resources, decision support and negotiating. the
15578	1	he use of economic valuation of b&es in natural resources management policies, especially for m
7180	2	the horticultural trade is a major source of introduced species in the world. in this stud  . because our contemporary world is the product of complex interactions between natural and ant
7018	2	s pathogens of cultivated mushrooms, as sources of pharmaceuticals and mycotoxins, as biologica  gents of plant pathogenic fungi, and as sources of industrial enzymes. particularly important i
12477	2	to: - provide recommendations on which sources of social and economic ‘evidence would be most   tem approach 2 recommendations on which sources of social and economic ‘evidence would be most
6764	1	ertebrates provide very good, potential food resource for different aquatic bird quilds. the ai
11349	1	n what biogeochemical processes control biological production in the ocean, and on what time sc
2505	1	ratory, and the greenland institute for natural resources. the results are expected to be usefu
168	1	ill test an original hypothesis about a source of chaotic dormancy and flowering in perennial h
10396	1	the cells themselves are available as a food resource for other organisms. it has been found th
10798	1	ver, the significance of this dynamic c source in driving denitrification against different bac
11127	3	the impacts of n deposition on plant p supply and determine whether these impacts can drive sp  ion can recover from these impacts on p supply when n deposition declines as a result of effect  ing, particularly other systems where p supply is the most important factor in determining plan
13522	1	ern sweden, and the surrounding ‘normal production forest . we will combine fossil beetle analy
14907	1	f factors such as rainfall variability, soil resource availability for plants, and herbivory at
11009	1	ted conspecifics who gain access to the resources it leaves behind. but in a population made up
11232	1	ted conspecifics who gain access to the resources it leaves behind. but in a population made up
7015	2	act on prey biodiversity, while at very low productivity, the same predation pressure may actua  d, on how krill larvae use hetrotrophic food sources at times of declining primary productivity
14599	1	ablishing benthos contribution and main source of inputs from outside to the lagoon, and the ro
7259	2	ronment, the role played by carbon from terrestrial sources in the diet of species of crustacea  tions and the first results obtained on carbon sources used by the species in the course of a w
2471	3	des of distributing rights of access to natural resources - and the manner in which they are pr   of increased prizes, pressure upon the resources and managerial restriction of access will thr  en local participation and control over nature resources and the landscape one identifies with.
2525	2	. therefore, characterizing the present genetic resources, on a genome wide basis, and comparis  rial. in cooperation with the norwegian genetic resource centre, the data will be passed down t
2543	1	lant species in relation to grazing and resources and indirect effects on the invertebrate comm
2519	1	nature resource management is often characterised with
2521	3	nt. reindeer is a vulnerable high value resources increasingly threatened by development. the c  een use and protection of highly valued resources. regional planning is a weak planning institu   interventions can be a toolbox in more sustainable natural resource management.
12638	2	enced personnel to manage these diverse resources. the landis facility is managed and operated    for the sustainable use of the nations land resources.
10411	4	that are important for maintaining the productivity and sustainability of agricultural ecosyst  ina. with rising population and income, agricultural productivity will have to continue growing  systems that provide vital habitats and alternative food sources for beneficial insects within   systems face the challenge of improving productivity and sustainability while decreasing their
10326	1	ive studies are proposed here on larval supply and settlement of the barnacle semibalanus balan
11489	3	highlands of northern ethiopia, is the source of the blue nile, one of the world s great river  long been recognized as critical to the resources of ancient and modern egypt. new geophysical   ions and their water, plant and hunting resources.
11518	3	highlands of northern ethiopia, is the source of the blue nile, one of the world s great river  long been recognized as critical to the resources of ancient and modern egypt. new geophysical   ions and their water, plant and hunting resources.
12270	1	p projects from industry and government sources.
14155	1	ause both modes of reproduction require resources, a trade-off between them is inevitable. nume
2010	1	worldwide fisheries supply 16% of the total human consumption of animal pro
11095	2	ecies that give birth on land. the food supply of different species may vary in seasonality and  predation on the one hand and access to resources on the other.
231	1	iming of adult eclosion. the inevitable source data for the pcm – reliable phylogenetic tree of
15396	1	en demand and availability of essential resources. we would like to explore the potential syner
14687	1	ental work on the effect of an external supply of nitric oxide on nitrate reductase activity of
2485	2	on rates are high. in communities where provision of clean water is inadequate, storage of wate  ntamination of stored water is a common source of diarrhea. stored water is also a potential br
14692	1	sumed by herbivores and detritivores on plant productivity; and the potential role of dung and
10085	2	one possibility is that differences in fruit production between species are minimized by bioti  mpensates for flower number to equalize fruit production among species. we will focus on two po
10001	1	tter than small ones when competing for resources, and explore how this alters the predictions
14721	1	ll maintain the benefits that come from natural resources and environmental services. the objec
14581	1	ll maintain the benefits that come from natural resources and environmental services. the objec
14582	1	ll maintain the benefits that come from natural resources and environmental services. the objec
14722	1	ll maintain the benefits that come from natural resources and environmental services. the objec
15268	3	estment in the current reproduction. as resources for an organism are limited, an increase in r  ed with a decrease in the investment of resources in other life-history traits, such as the imm  bjectives are: objective 1: how trophic resources availability varies with altitude. objective
7038	2	of local people in their management of natural resources, - within which institutional network  ssessed regarding its potential for the sustainable use of natural resources, and the possible
7709	2	tices and selection of plant and animal biological resources are essential because they contrib  re essential because they contribute to product differentiation and a more respectful use of th
11735	1	he local staple diet and into the local agricultural production this is one of the key question
12510	2	and upland in the uk were converted to organic production. in the short term, this was driven   structure e.g. organic concentrate feed supply and limited finishing capacity for hill livestoc
12282	3	ality and inform the development of low carbon production systems which are resilient and adapt  se. this will be obtained from standard sources and by consultation with farmers and growers. m  l be considered and the extent to which resource use can be extended by manipulating the gene p
2197	1	system will be analyzed by modelling of resource utilization as a basis for co-occurrence with
11059	1	ical analysis. the sediments, and other sources of data, also tell us when each fossil lived, a
11304	1	ical analysis. the sediments, and other sources of data, also tell us when each fossil lived, a
7579	2	ntegrate the behavior of mate choice in genetic resources management. our project offers 1 to s  rs, 4 to derive direct implications for genetic resource management
12204	11	esses is heavily dependent on germplasm resources. access to well characterised genetic resourc  resources. access to well characterised genetic resources are essential to the underpinning of   the conservation and sustainable use of genetic resources are cited as contributing directly to  cerning a sustainable, competitive food supply chain, sustainable, diverse and adaptable farmin  able, diverse and adaptable farming and sustainable management of natural resources. the suppor  ctions is in line with defras policy on genetic resources for food and agriculture for england   s in line with defras policy on genetic resources for food and agriculture for england and wale  ting uk commitments for conservation of plant genetic resources under both the convention on bi   uk national plant inventory of ex-situ resources and is accessible via the defra supported uk   s accessible via the defra supported uk genetic resources for food and agriculture web portal.   ible via the defra supported uk genetic resources for food and agriculture web portal. the proj
10716	1	re is food. this is because dms is a by-product of biochemical processes that occur when differ
11704	1	re is food. this is because dms is a by-product of biochemical processes that occur when differ
10586	1	birds are able to allocate reproductive resources in relation to the perceived attractiveness o
14632	1	and fragmentation of habitat may affect resource availability, demographic parameters and gene
2049	1	negotiations, related to management of plant genetic resources internationally.
2210	1	a significant impact on other renewable forest resources and where the impact is or is expected
13715	1	altic ecosystem, or overly reducing its fish production.
10902	2	coffee is smallholder grown and a major source of income for individual farmers, coffee export   rstanding how ecosystem services affect coffee production we can develop knowledge to allow bet
10986	2	coffee is smallholder grown and a major source of income for individual farmers, coffee export   rstanding how ecosystem services affect coffee production we can develop knowledge to allow bet
11231	2	arly in terms of its ability to support food production, nor how it could affect the livelihood  elation to nutrient cycling, water, and food production, with a view to assessing how managing
13764	2	ge renders both retention of larvae, to supply the own population, and the supply of larvae to   , to supply the own population, and the supply of larvae to surrounding areas. this species is
10300	1	r. the proposed research will stimulate algal production in the steam by ameliorating light lim
11684	1	r. the proposed research will stimulate algal production in the steam by ameliorating light lim
1923	1	biodiversity in pastures withdrawn from agricultural production.
14277	1	rovement of the water quality. the huge production of biomass can cause water levels to rise, e
12343	1	astal access bill. data from a range of sources will be put into a standard database and used t
2518	1	relation to the economic performance of natural resource systems. future stock dynamics, limits
11208	1	he biological diversity and informatics resources held at ccap, and assist in improving the flo
10128	1	ine ecosystems provide humans with many resources such as drinking water, food and oxygen, as w
11370	1	sion of dimethyl sulfide , is the major source of atmospheric dms, whose oxidation products hav
12408	1	e addressed as development of renewable energy resources from the marine system progresses: 1 c
10392	1	of the marine and coastal environment s natural resources, impacts of contaminants and climate
10335	5	terial evidence for the exploitation of aquatic resources by prehistoric humans is much rarer t  ctivities, such as farming, hence other sources of evidence must be sought. the most widely use   most widely used approach to assessing marine resource consumption has been to employ stable i  idely used approach to assessing marine resource consumption has been to employ stable isotope   he people eating given diets. the major source of isotopic information in human bones is the st
7580	1	lectors and managers often a problem of resources and space, and streamlining collections. othe
7398	1	ystems involved in over 90% of the seed supply in west africa. they are central to the conserva
7503	1	ce method for the ex situ management of genetic resources. however, this method is developed in
2467	1	ystems are among those with the largest production of fish biomass and seabird biodiversity on
10896	4	vices from marine systems including the provision of food to millions and the protection of coa   stem from the unsustainable use of the marine resources, for example over fishing, and other a  vices. it means rethinking the way that natural resources are managed, taking a whole ecosystem  valuate current forms and mechanisms of resource access by coastal poor and resource governance
9846	1	curring gradients of nutrient and light supply. i will then conduct shade-house experiments to
11603	1	floods and faunal agents using multiple sources of palaeoenvironmental evidence . these data an
11146	2	this imbalance, we hope to identify new sources of cellulases with commercial potential, partic  larly in the field of second generation biofuel production.
7289	1	nd characterization of an unknown viral genetic resource, the archaeal virus hyperhalophiles
10309	2	will be collected at the diamond light source and the advanced light source. the results of th  ond light source and the advanced light source. the results of these experiments will allow us
10887	2	nciple that life on earth is reliant on plant production driven by the sun s energy. there was   iting is the prospect that the original source of methane in groundwater fed rivers is both a s
179	1	applications in agriculture, ornamental plant production and landscaping.
13523	4	round c allocation in relation to the n-supply; i found that tree-girdling, which terminates th  ffected a fungal plfa as much as high n-supply did. here, i want to explore these relations in   ucture occurring along a natural forest nutrient supply and plant productivity gradient. at the  ng a natural forest nutrient supply and plant productivity gradient. at these sites and experim
2486	2	tored organic carbon which constitute a source for release of climate gases. degradation of org  is on key functional groups involved in methane production, and studies of the communities resp
13607	1	his challenge more profound than in the natural resource management identify the rationalities
12021	1	from spatio-temporal segregation of key resources like water and perennials herbaceous, coupled
438	1	ion and sustainability of fisheries and marine resources. the use of the controlled dynamics sy
7192	1	increasing agricultural productivity in plants during the last fiv
10408	3	ls will acknowledge that regulatory and provisioning services are ecologically interdependent,    management play in regulating flows of provisioning services is the common thread that binds t  e impact of climate change on ecosystem services provision and local livelihoods. through webex
11413	3	ls will acknowledge that regulatory and provisioning services are ecologically interdependent,    management play in regulating flows of provisioning services is the common thread that binds t  e impact of climate change on ecosystem services provision and local livelihoods. through webex
10543	3	can take explicit account of the major sources of uncertainty in our knowledge of the system,   way in which new management regimes for marine resources, such as a range of protected areas an  ndings and body condition, and on their prey resources.
7277	1	st to counter this erosion and maintain resource sustainability. in this context, we propose to
13767	2	ification of ecosystems to increase the supply of food and fiber has resulted in the decline of  how changes in management can alter the supply of other ecosystem services, such as water quali
11838	1	one of the most thorough long-term data sources presently available for isolating the effects o
13330	1	versity and to prioritise contamination sources and contaminated sites, 5to strengthen the scie
7676	1	as pest reser- voirs but also providing food resources for other biodiversity components
13972	1	cally perturb the consumer pressure and resource supply. to increase the quality of the model a
2183	1	ctive, robust management strategies for natural resources under climate change.
13951	1	o optimise the size and distribution of source populations in the landscape, and to estimate th
11273	1	for lakes with relatively short and the source of nutrients to the lake we can study how a lake
12593	1	agricultural production and numerous other key activiti
10493	1	be interpreted if we are to manage our natural resources effectively and sustainably in the lo
7516	1	t, in cooperation with the institute of genetic resources beijing other hand, the use of neutra
14448	1	ng the presence of probiotic strains in food products and in the gastrointestinal tract is fore
11385	4	competition for resources, such as food, shelter and ma  determines the probability of access to resources. therefore, rank position within a hierarchy    obtain exclusive or priority access to resources and can limit the access of lower rank member  e access of lower rank members to these resources. hierarchies can be composed of a highly aggr
10074	1	ic c fixation rates. thus, estimates of global productivity using satellite imagery, which util
10186	1	n large amounts into the biosphere from natural sources. little is known about the biogeochemis
10843	1	character differences, and good genomic resources. members of the genus populus certainly lend
145	1	s project is to reveal the intraspecies genetic resources of farmed .
6811	1	so in every day work of preservation of genetic resources of domestic animal breeds threatened
14210	1	ticularly important in situations where water resources are limited. accordingly, understanding
10352	1	ulfur bio-availability in the soil, and increase plant productivity.
13708	2	utilization of wildlife resources generates a substantial amount of fo   tanzania, and thereby directly promote sustainable resource use, preservation of biodiversity
15110	1	ry field experiments to elucid the main sources of stress will be carried out.
12609	1	ives are to obtain accurate data on the supply of peat and alternative materials to the four ma
13358	1	he one of the significant countries for plant genetic resources and plant diversity in the worl
10857	1	, ecology and sustainable management of biological resources, for students intending to carry o
11659	1	calibre capable of addressing priority water resource issues needing interdisciplinary solutio
7110	1	ng capabilities even in a context where resources are partly predictable in space and time. mor
1086	2	human activity is the most important source of modification and threat to vertebrate populat  servation of vertebrate species and the sustainable use of natural resources.
12483	1	tegrated management of land, water, and living resources that promotes conservation and sustain
522	2	e production standards might affect the availability of resources that they generate for the sc   capacities even in a context where the resources are partly predictable in time and space. mor
14527	1	re the atmosphere is the only pollution source. recent results indicate that the kinetic aspect
14362	1	motely sensed data with data from other sources, such as disease incidence. - a better understa
11096	1	ial ecosystems and is the world s major source of softwood timber. a defining feature of these
15063	1	atal areas. on the other hand, breeding resources increase male intra-sexual competence, and th
12604	1	number lq09: http://www.sniffer.org.uk/resources/lq09/layout_default/0.aspxbackurl=http%3a%2f%
10282	2	n the real world. this discrepancy is a source for concern: laboratory situations remove some s  cern: laboratory situations remove some sources of selection that may be very important in wild
9932	2	to test the distribution of a subset of natural product genes, including specific probes for kn  cal search and discovery strategies for natural products to generate novel antibiotic in the la
10656	1	political economy of negotiations over resource use, which will ultimately help policy makers
15369	1	the study of avian nests as attractive resources for ectoparasites and other symbionts includi
13948	1	compounds. these may be important as a source of information for herbivore foraging choices. d
10287	2	on chemical forms of n, is greatest in low productivity ecosystems where don dominates the soi  haracterised and ubiquitous gradient of grassland productivity, coupled with non-destructive st
10298	2	on chemical forms of n, is greatest in low productivity ecosystems where don dominates the soi  haracterised and ubiquitous gradient of grassland productivity, coupled with non-destructive st
12242	2	development of systems of land use and livestock production with reduced environmental footpri  their genetic diversity also provides a source of genes for adaptation to climate change. forag
11560	1	o assess the impacts of such changes on phytoplankton productivity and fisheries.
15468	2	t extreme environments are an important source of microorganisms with potential applications in  ve been involved in since 2005. the end product will be the description of new taxa and strains
10176	2	acclimation will require an additional supply of nitrogen. this research project will establis  respiration is dependent on an adequate supply of nitrogen. to provide a more mechanistic under
13936	1	with major contribution to the primary production of carbon and nitrogen in the baltic sea. th
2535	2	etic material from hair, scat and other sources of dna and subsequent identification of species  nd genetic sampling from highly diluted sources of dna . this part of the project will center a
6924	1	wheat. the increase of profitability of wheat production as well as the reduction of environmen
10003	1	know about biological impacts, and the source of the current concern about the impact on marin
10153	1	know about biological impacts, and the source of the current concern about the impact on marin
11687	1	know about biological impacts, and the source of the current concern about the impact on marin
7397	1	local animal populations are linked to product quality or origin, are accompanied by a complex
12361	1	accidents and the consequent threat to marine resources investigate the relationship of toxici
2058	1	rthern svalbard shelf through different carbon sources and in different years. ultimately, the
12616	3	size of potential benefits, remediation resources can be targeted more effectively helping maxi   captured in monetary terms which helps resources be allocated efficiently in the overall econo  haracteristics of the uk, and available sources of information. the methodologies will be teste
14872	1	soils can be source and sink of carbon, then soils contribute to car
7559	2	and the rationalization of ex situ and genetic resources conservation yams face a lack of know   rationalization of ex situ and genetic resources conservation yams face a lack of knowledge ab
10796	1	d across the continents. this will also supply a spatial/temporal template for understanding th
11858	1	sites which could become an invaluable genetic resource for our understanding of the evolution
11843	2	areas as possible for a given amount of resources. academic ecologists have been studying the i  logists, conservationist and a users of wildlife resources that will use predator-prey theory a
10037	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
10039	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
10293	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
10296	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
11055	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
11306	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
11570	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
11834	2	rement s bae 146 research aircraft, the resources of the uk s university facility for atmospher  l bring significant added-value to nerc resources by the active participation of international
12531	2	recurrent outbreaks continue to occur. sources of inoculum for these outbreaks remain unclear.  roject aims to investigate and identify sources of residual inoculum at key nurseries where rec
6732	1	a empire. the project, based on written sources, will investigate the late intermediate and inc
10782	1	that will examine the implications for marine productivity and biogeochemistry of the improved
11318	1	that will examine the implications for marine productivity and biogeochemistry of the improved
2187	1	sweden, it is important to optimise the use of resources aimed at preserving these and the land
2048	2	therefore are: 1. assessing patterns in resource availability in space and time as they are per  y which they understand the dynamics in resource availability as a process with environmental a
2100	2	ed to an increased interest in deep-sea resources. however, deep-sea fisheries have often prove  this difference include slow growth and low productivity of deep-sea fishes, and possibly that
14164	1	simultaneous regulation of benthic and pelagic production in the coastal sea. field experiment
11804	1	portunity to determine what habitat and energy sources archean rocks provide to life today and
7222	1	dian ocean through a wide range of data sources, with the objective to characterize the biodive
7199	3	systems requires greater efficiency in use of resources and n p soil. . the complementary conc  rieties associated better extraction of mineral resources having access to different pools of n   multi- varietal - in terms of the n in resource use efficiency and p soil. this assessment com
11395	1	side others with which they compete for resources. many biologists would maintain that species
457	2	ds, even though their important role as source of material for neighbouring systems, source of   e of material for neighbouring systems, source of biodiversity or even as pollution buffer has
2083	2	ntral and southern norway, is likely to increase biomass production and accelerated tree growth  ons, will have an impact on the grazing resources for reindeer, and thereby a socio-economic im
6741	2	nsistent. evaluation of the native gene resources has become an important task, taking the vari  tivity is necessary from the biological sources to the analysis of active ingredients. the pers
14953	1	ion. in addition to its central role in lake productivity, his influence on shaping communities
15454	1	unctioning. litter decomposition is the primary source of soil nutrients and it is also a funda
14767	1	the effects of leaf longevity on resource use efficiency in limiting environments consti
14930	1	idity, constant temperature and limited food resources. this strong selective pressure leads to
2477	2	hat have previously been protected from resource extraction. it is therefore particularly impor  -term effects that exploiting petroleum resources have on oceanic ecosystems.
14608	1	s where morphological characters do not supply enough information to solve the phylogenetic his
15203	1	in the reduction of planktonic primary production and biomass. this project also aims to deal
14133	1	nutrient loading originating from land sources, and could be an important, yet overlooked mech
11114	1	logenated compounds which are the major natural source of volatiles with the potential to degra
10460	2	ooplankton samples collected during the marine productivity cruises in the irminger sea will be  plankton size spectra obtained from the marine productivity samples will be compared with the d
12515	1	y have difficulties finding the time or resources to address the demands of a national listing
12527	1	t defra plant health division ensured a supply of young scientists in all the different plant h
12545	1	ides complementary expertise and unique resources such as a large collection of relevant altern
10981	1	use most plant species use very similar resources: just one or a few highly competitive species
13364	1	m of the project is to determine of the genetic resources that can be used as ornamental plant
7475	1	into the mechanisms by which different sources of knowledge are utilised in the practical acti
15027	1	but the low number of effective pollen sources may lead to reduced fitness in progenies. moreo
2067	1	seed production is one of the most basic and important
11130	1	ly depending on the relatedness between source and recipient. does the same pattern occur in th
7390	2	ppliers actors and seekers of different resources involved in r & d in biotechnology and to mak  sider the impact on the conservation of genetic resources
11149	1	onment for the better protection of our aquatic resources and biodiversity. the work will have
11696	1	onment for the better protection of our aquatic resources and biodiversity. the work will have
10297	1	ffects. to date, consideration of these sources of heterogeneity in predictive models of popula
11709	1	change are adding further pressures on fish resources. new strategies are therefore required t
10028	1	change are adding further pressures on fish resources. new strategies are therefore required t
12243	1	rass species and lucerne for industrial product cropping and the provision of specific environm
12612	4	to mitigate health impacts via the two sources and thus inform a debate about the relative cos  mpare this with health risks from other sources. this will provide a baseline analysis from whi  ation to risks from other activities or sources of exposure. the specific objectives are to: 1.  contaminated land with those from other sources of exposure to the contaminants. 5. compare ove
11163	2	possible negative consequences for food supply, water quality, biodiversity and other aspects o   contemporary rural landscsapes are the product of their history, and that we can learn much fr
11798	2	ations related to meltwater routing and supply and thus ice-sheet dynamics. recent satellite ob  ial lakes have on meltwater routing and supply and thus ice sheet dynamics the study will utili
12424	1	ice mechanisms. however, the expertise, resources, networks and logistical planning that are re
12178	1	landscape benefits and the considerable resources they currently devote to the management of he
14555	1	ctors, such as abundance and quality of food resources or demographic parameters, such as densi
7699	1	n the other hand, an increase in demand agricultural products. the area of arable crops sector
12560	1	footprint of farming while maintaining food production and security. the mapping technology co
13400	1	as a great richness for olive germplasm resources. following a comprehensive inventory work in
2076	3	e and coastal systems provide important food sources, and may also be of significance to the me  nted by marine pollution from different sources and from over-fishing or over-exploitation of m  om over-fishing or over-exploitation of marine living resources. fishing has serious impacts on
13433	1	the project aim is to protect genetic resources of domesticated animals in private fa
11145	1	states, and development of optimum and sustainable natural resource management strategies for
14105	2	onic food shortly after the larval yolk supply has been exhausted. starvation and high mortalit  s and biomass, making them an available food source for larval fish.despite the growing number
12189	2	tanding of the countryside; and protect natural resources. the range of management options unde  ctivities on services from a variety of sources, including the scientific literature and expert
12540	2	amples can be preserved and a limitless supply of material can be made from the most limited of  al can be made from the most limited of resources. in the literature several wga methods have b
11183	1	cs operations are planned. an important product of our work will be a recommendation of the bes
1099	2	the following aims: - to represent lamb meat production systems variety, as regards lamb types   he feeding regime in the different lamb meat production systems; - to estimate the relative con
10166	2	probably continue to be the predominant source of energy for decades to come. developing our un  cs operations are planned. an important product of our work will be a recommendation of the bes
10215	1	cs operations are planned. an important product of our work will be a recommendation of the bes
10415	2	probably continue to be the predominant source of energy for decades to come. developing our un  cs operations are planned. an important product of our work will be a recommendation of the bes
10671	2	probably continue to be the predominant source of energy for decades to come. developing our un  cs operations are planned. an important product of our work will be a recommendation of the bes
10931	1	cs operations are planned. an important product of our work will be a recommendation of the bes
11719	1	cs operations are planned. an important product of our work will be a recommendation of the bes
11182	2	probably continue to be the predominant source of energy for decades to come. developing our un  cs operations are planned. an important product of our work will be a recommendation of the bes
9861	2	peatlands are the largest natural sources of the greenhouse gas methane , with mo   atmospheric ch4 becoming transient ch4 sources. the reason that we know so little about the ef
10047	1	result from changes in the continental source, hydrothermal exchange or the precipitation of m
11408	1	result from changes in the continental source, hydrothermal exchange or the precipitation of m
11227	1	is, we are going to examine the largest source of year-to-year climate variability on earth, na
9895	1	is, we are going to examine the largest source of year-to-year climate variability on earth, na
12356	1	ad disposal site as one of the possible sources of contamination observed within whitsand bay.
11034	1	mpete actively for space and planktonic food resources. they provide three-dimensional habitats
11552	1	ble - sometimes half of the annual food supply arrives within a few days. however, despite the
11498	1	hrough training workshops and web-based resources. new image processing software will be develo
14973	1	position, and the trophic links between resources and consumers. we expect important changes in
14022	1	tor behaviors they are suitable control product targets. to verify that the transmission channe
14195	3	improvement of agricultural productivity is a major challenge in the c  an abiotic stress factor that decreases plant productivity and overall biomass production. this  ecreases plant productivity and overall biomass production. this project aims at identifying no
7621	1	carbon content of soils while ensuring plant productivity. understand how the concentration of
15382	1	degradation of ecosystems, depletion of resources, lost of biological and cultural diversity an
193	5	ficiencies in sustainable management of fish resources and at the same time management strategi  ke peipsi has been a water body rich in fish production. however, during 20th century the total   caused drastic increase in pressure on fish resources of l. peipsi forming potential risk to t  local livelihood. furthermore, valuable fish resources of the lake are under the threat of anth  d their motivation for participating in fish resources management. fishing pressure of winterti
162	1	years, the numbers of several waders of food resource that may be connected with impoverished s
11859	1	ously and efficiently monitoring global wetland resources.
13866	1	several sources of threats to the maintenance of biodiversity m
10437	1	de-off surface depending on its age and availability of resources. we aim to describe the pheno
14791	2	s existing today represent an important genetic resource of great value, which includes plant s  ns in different research fields such as plant production, plant breeding, molecular biology and
11156	4	s such as limitations for food or other resources determine individual birth and death rates an  nd population density as surrogates for resource limitation. studies with model species for whi  can be linked to predictable changes in resource availability serve an important role in improv  rategies to cope with vole cyclicity, a source of variation that is at least partly predictable
13376	2	t on conservation and evaluation of fig genetic resources in southeast anatolia region:turkey h  n:turkey has the rich variations in fig genetic resource and south east anatolia region is the
13381	1	preservation and utilization as genetic sources of vine varieties and types.
10500	2	dfills are the first and second largest sources of anthropogenic methane, respectively. signifi  y. significant progress must be made in source reduction as well as researching and developing
10740	2	dfills are the first and second largest sources of anthropogenic methane, respectively. signifi  y. significant progress must be made in source reduction as well as researching and developing
11622	2	dfills are the first and second largest sources of anthropogenic methane, respectively. signifi  y. significant progress must be made in source reduction as well as researching and developing
10836	1	on to the sizes of spatially discrete c resources with varying c/n ratios, using photon-countin
9968	1	on to the sizes of spatially discrete c resources with varying c/n ratios, using photon-countin
11450	3	to test this prediction by manipulating resource availability. if productivity is important, th   more quickly at intermediate levels of resource availability than at high or low levels of res  ilability than at high or low levels of resource availability.
11143	2	mechanism that allows species to share resources and so reduces competition between them and h  ies share a nutrient that is in limited supply by having preference for different forms of that
12142	2	gae genome diversity influence on local species richness and productivity will be provided. we   d organic matter and competing algae as nutrient sources by studding the growth of g. semen and
14528	1	sidered as an environmental information source that agglomerated information about the process
15357	1	footprint that is associated to loss of biodiversity and provision of ecosystem services, i.e.
12192	1	re and other primary and secondary data sources to identify the habitat conditions required for
13928	1	d palaeoecological methodology and data-sources. the various temporal frequencies of ceased man
13531	1	d palaeoecological methodology and data-sources. the various temporal frequencies of ceased man
12624	1	tive and trends or constraints in their supply will be evaluated. this project will look at the
12589	2	ovide vital functions for biodiversity, water resources, surface water management, carbon stora  ed by mankind over many centuries as an energy source and plant growing media , extraction, res
12152	2	eat soils, which depend on rainfall for water supply and are consequently poor in nutrients and  hich is very sensitve to disturbance of water supply. britain is one of the main locations for
12240	1	is to manage fertility, particularly in organic production systems, and reduce the incidence of
12489	1	osystems as a whole and the sustainable supply of ecosystem services on which we depend. it wil
7526	1	good management of genetic resources implies in particular verify the auth
10216	1	they provide a similar amount of total annual production to that on land and the turnover time
10925	1	they provide a similar amount of total annual production to that on land and the turnover time
13822	1	perennial herb, their enemies and their food resources. direct and indirect weather effects as
10790	2	assessing the impact of cu mineralogy, nitrogen source, oxygen level, iron level, and other fa  mo expression data from defined mineral sources and different soils collected from natural syst
11276	1	ch thermocline waters fuel 75% of total biological productivity in lower latitudes, they are, i
15058	1	ese conditions plants would assign more resources to growth and reproduction and fewer to chemi
529	2	evertheless new management methods show sources of reciprocal benefit between these two dimensi  ts natural mortality provides the basic food resources for these birds. thus the griffon vultur
7116	2	the new management measures may reveal sources of mutual benefit between these two dimensions   , by its natural mortality, most of the resources consumed by these birds. and the griffon vult
13332	2	odiversity in dynamic ecosystems to the provision of these services will be compared and tested  orks for linking biodiversity traits to service provision and for improving and testing indicat
2548	2	onservation and sustainable use of crop genetic resources. the project is designed to identify   lysing driving forces, interests, power sources, and strategies. we apply a theoretical framewo
7623	1	ontribute to many critical services for plant production. we propose to test the hypothesis tha
14378	1	among the most important constraints on animal productivity and welfare. the life cycle of the
10082	1	s energetic requirements, its potential resource exploitation, and its susceptibility to predat
12064	1	objective of this project is to provide natural resource managers with quantitative estimates o
12584	1	mponent of the masq database. the final product will be a report that provides a breakdown on t
12183	1	been seen solely as a cause of reduced grass productivity. however soil compaction, in its var
12180	1	anagement practices in order to protect resources and to enhance biodiversity by means of creat
12188	1	maintain and improve the biodiversity, natural resources, landscape and historical value of en
12289	2	ure increases on global food prices and supply, a balance is needed between food production and  and supply, a balance is needed between food production and the maintenance of healthy and dive
14613	1	ncipal hosts. with all this, we want to supply information in order to help the establishment o
14226	1	on of ectomycorrhizal fungi as possible food sources is foreseen. working through the extensive
10515	2	y work in nature. this discrepancy is a source of concern for two reasons: firstly, laboratory   ations may be misleading as they remove sources of selection that may be very important in wild
9999	2	y work in nature. this discrepancy is a source of concern for two reasons: firstly, laboratory   ations may be misleading as they remove sources of selection that may be very important in wild
2021	2	itant losses of ecological and economic resources. because of the non-linear response of these   ial patterning of communities and their resources. in order to link the concepts of catastrophe
13832	1	project will also try to elucidate the source of these volatiles, as it is not necessarily com
10762	1	ill make efficient use of existing nerc resources supplied to us to perform a soil translocatio
10054	1	, transcript data can be converted into resources which support efforts to understand the inter
11582	1	, transcript data can be converted into resources which support efforts to understand the inter
10307	1	ir genomes, we will have a great set of resources to help us, and others in the marine microbio
10562	1	ir genomes, we will have a great set of resources to help us, and others in the marine microbio
11323	1	ir genomes, we will have a great set of resources to help us, and others in the marine microbio
12191	1	species-rich lowland grasslands are the product of farming and are dependent especially on low
10080	1	k that for males this means channelling resources into attracting mates, even if that means dyi
10017	1	animals such as these are an important source of information on many aspects of ecology and ev
13857	1	d molecular techniques to determine the source of phytoplankton blooms. in mesocosms, we will s
9806	1	tern of adult distribution show reduced seed production or increased mortality of seeds or seed
10221	2	will depend on how individuals allocate resources to survival versus reproduction across the li  pan, and on the quantity and quality of resources available during growth and development. in h
10904	2	will depend on how individuals allocate resources to survival versus reproduction across the li  pan, and on the quantity and quality of resources available during growth and development. in h
9992	2	will depend on how individuals allocate resources to survival versus reproduction across the li  pan, and on the quantity and quality of resources available during growth and development. in h
227	1	cultures and thereby the nutrition and productivity of plants, is slightly known. however, as
13867	2	rsity, species composition, biomass and spore production. disturbed sandy grasslands in south e  rsity, species composition, biomass and spore production of am fungal communities. 2. to invest
13988	1	the dead organic matter as their basic food source the structure of the soil fauna community w
7477	2	cs and food web dynamics within an open-source modelling framework. this framework will provide  d economic assessment methodologies for natural resources. a key conceptual advance of this pro
13350	3	r than the amount of soil available, as production of biofuels competes with areas for food pro  ion of biofuels competes with areas for food production and nature. moreover, intensified land    social drivers of how land use such as biofuel production and land abandonment can influence s
10541	1	val generally declines due to increased competition for resources such as food or breeding site
11510	1	blight, are a major threat to our food supply. similarly, infectious diseases are widespread i
10308	2	hat if 2 species greatly share the same resources then one, the stronger competitor, should exc  ace of intense competition for limiting resources.
11406	2	hat if 2 species greatly share the same resources then one, the stronger competitor, should exc  ace of intense competition for limiting resources.
7686	1	tudy will focus on the vulnerability of water resources directly related to the filtration capa
2032	3	mma sustainable use and conservation of marine living resources. it consists of four integrated  ly takes into account these scales when marine resources are being exploited. we intend to work  he spatial scale of the exploitation of marine living resources.
14684	1	of spain and europe. the study includes seed production and viability, predispersal seed predat
12567	1	ing of the role and impact of different sources of pollutants within the aquatic ecosystem.
11778	1	ecomes a key driver of regulation, with resources directed according to the risks involved and
7317	1	ts of declining pollinator services and floral resources, including effects on wild plant popul
13352	1	ts of declining pollinator services and floral resources, including effects on wild plant popul
10673	2	ng britain and ireland. the most recent source area for irish stoats and their divergence from   rgence from current populations in that source will be determined. this pump-priming study shou
12357	1	offshore wind farms from international sources. the output will be a report describing the key
15368	1	is could be benefited with the use of a genetic resource bank in the context of a protection an
12250	5	ainst crop pathogens, to avoid waste of resources, crop spoilage and dependence on fungicides.    disease and its management affects the use of resources – energy, water and disease resistance  wide implications from their use. these resources are used predominantly to establish, grow and  seases affect the green canopy, wasting resources and causing spoilage. considering the effect   agement strategies which avoid waste of resources. this project will support the defra aim of r
7023	1	s ecosystems provide to humans, such as food production, the maintenance of water quality and s
11478	1	ns, they compete to exploit the limited resources provided by the host, with the most virulent
10767	2	en different continents. by pooling our resources in this international programme, our study wi  e volcanoes and their underlying mantle source. these insights are essential if we are to under
14207	1	sts and weeds, and thus greatly improve food production. however, intensive use of common pesti
13357	1	on. the cryopreservation of turkey mint genetic resources in cryobank has been aimed in this pr
7541	1	the long-term conservation of genetic resources of recalcitrant seeded species requir
7528	1	investigated, ranging up to market the product. animal performance will be measured in a contr
7505	1	a formidable predator of mussels and a source of damage difficult to quantify. it is also high
15095	1	lmost exclusive dependence of others as source of nutrients and to compare them with those alre
14884	1	e competence between parasites for host resources and transmission mode of parasites. the model
15149	1	onment. this methodology will save many resources in the research to come.
7394	1	ant role of farm in the conservation of plant genetic resources. . from a sociological study, h
7431	2	d in the exploitation of living coastal resources, the laboratory" adaptation and diversity in   d optimize the sustainable use of these resources and to maximize the economic, social and cult
10010	4	ltered availability and distribution of food resources. the responses of animal populations to    interactions influence their access to resources. for example, important non-linearities in po   individuals behaviour responds both to resource availability and to other individuals in the p   case partnership through access to the resources of a well established long-term research site
11412	1	bees and stingless bees is an important source of food and income worldwide. however, multiple
11495	1	bees and stingless bees is an important source of food and income worldwide. however, multiple
2045	2	mme sustainable use and conservation of marine living resources'. to this end we will investiga   models for sustainable exploitation of marine living resources. thses models will be discussed
14474	1	quotas for wise management of the game resources. these models will also predict damage caused
12164	2	e course of bd1415, it emerged that the supply of plant available n and p in the fym may have b  ectively, from 2007 onwards. elevated p supply, in particular, is known to have a negative effe
11617	1	ssociated with chemosynthetic microbial methane production as tracers, to investigate, for the
10943	1	orest plots; local interviews about the source fauna persistence and history of disturbance of
11623	2	d and used successfully during two nerc marine productivity summer zooplankton courses and anal  e efforts at aberdeen university. these resources we aim to consolidate into a user friendly ma
14921	1	e communities constitute an interesting source of information for the environmental studies and
14637	1	ccessibility to valuable biological and genetic resources for further exploitation by researche
11148	4	because resources, and the time it take to acquire them, are li  n its efforts to survive and reproduce. resources spent on one area, such as health, cannot be    must trade off how best to spend their resources so as to maximise the benefits they gain. suc  m s inability to cope with the damaging waste products that would allow comparisons, not only b
7704	2	ency of the modes of development of the land and resources by agricultural activity. there has   and the degree of local control loss of resources. this task has already been completed in braz
11350	1	se populations of dispersed particulate carbon sources on and within soil across scales of cm t
10617	1	enet of adaptive radiation theory, that resource competition is driving such divergence, makes
10312	1	h is a prominent, yet often overlooked, source of variation in mating behaviour in natural popu
10026	1	ccepted that senescence evolves as a bi-product of this weakening selection. classical theory p
11233	1	networks that we depend on for food and fuel production, for sustainable development, and ultim
11556	1	lable to the community. as an ancillary product the project will also concept-proof a novel and
10793	1	ntering territory it may not gather the resources it needs to fuel spring migration in time and
12509	3	e from of0318 and of0332, organic field vegetable production - baseline monitoring of systems w  le systems. this will help increase the supply of uk-grown arable and horticultural products wh  rease the supply of uk-grown arable and horticultural products which will help defra meet organ
15324	1	in addition, i plan to develop genomic resources on these phenotypically divergent sister spec
10669	1	animals such as these are an important source of information on many aspects of ecology and ev
10886	1	animals such as these are an important source of information on many aspects of ecology and ev
10735	3	adapted to its habitat and nutritional resources are abundant, females will have enough energy  large numbers of eggs. when nutritional sources are low, for example in environments where the   ere the species is newly established or competition for resources is high, some females may not
11683	1	r around half the biologically mediated global production of oxygen and removal of carbon dioxi
15141	1	ity crises. because financial and human resources for nature conservation are limited, it is ap
1976	1	and eating of species that use similar resources and are thus potential competitors, often lea
14161	5	ming. over half of them have plant- and animal production both. the nutrient cycling is not a p  ld. however, ca 40% of farms has solely plant production. in the ecological farming is essentia  al closed nutrient cycle. the plant and animal production should be strongly tied. farm-produce  t is investigated. for each variant the plant products are analyzed biochemically to investigat  n extensive and handles the problems in plant production, tillage, agrochemistry, microbiology,
13820	2	dies in a four-trophic-level system. if floral resources, provided to enhance parasitism, impro  ds varies with distance from the nectar source.
12414	1	ational efficiencies through sharing of resources. a range of information products were identif
2043	1	in many cases also impacts adversely on fisheries resources inside the eez. moreover, fishing v
11407	1	work, as well as providing an extremely valuable resource for other projects, policy makers and
14837	1	, constant temperature and very limited food resources. in insects typical morphological change
1989	3	also determine how they should allocate resources to different components of their display. we   their fitness how should they apportion resources between fixed, morphological traits and flexi  ial interactions with others are a rich source of feedback, but how do they learn from this inf
15186	2	two species, the parasite trying to get resources from the host and the latter trying to avoid   atter trying to avoid the extraction of resources. therefore, the existence of the relationship
11668	1	virulence is seen as an unfortunate by product from the point of view of both the parasite and
10060	1	y-marked bird using pit tag and genetic sources of variation, enabling us to generate an estima
11580	1	at utilise the carbon from methane as a source of food, and build up a picture of the wider soi
10809	1	in mammals, mothers provide the resources and early environment in which young develop
10700	1	ensive information, methods and genomic resources available with c. elegans to understand the g
11224	1	l changes that we know about from other sources of information. another method looks at the dna
14593	1	onses to situations of reduced vascular supply and decreased function.
10698	3	is deposited in the surface ocean. this supply of nutrients is essential for the growth of phyt  y receive only small amounts from other sources. we know very little about the amounts of dust   erm trends in the relationships between nutrient supply by dust and growth by phytoplankton and
12686	1	through competition for nest sites and resources. the results would be used by the non-native
12249	1	uel sector and an additional market for agricultural products. oilseed rape determine the effec
10050	5	ned. in addition, ecosystem changes and natural resource management decisions link to wider env  tream pongolapoort dam. the increase in water provision primarily for the irrigation of commerc  which has a 53% unemployment rate, poor service provision and high incidence of disease. as a r  ion of the ecosystem services and water/land productivity of the system both before and after c  links to human wellbeing. by addressing natural resource governance, the project seeks to contr
11077	1	determine how the communities differ in plant productivity, soil co2 efflux, fungal biomass and
11772	1	environmental change and perturbation. sources of environmental stress include both natural en
14812	1	he most severe abiotic factors limiting agricultural production. the high rates of population g
12579	1	additions per se on soil fertility and agricultural productivity.
12578	1	y metal additions on soil fertility and agricultural productivity.
10888	3	better ways of managing their mangrove resources, such as allowing controlled cutting of these  abs that live there. 2 to determine the sources of carbon dioxide and other greenhouse gases th  ferentiate broadly between the possible sources of the gases coming from our plots. we will als
14209	1	trophic ones turning the lakes into co2 sources. this is mainly caused by the extensive inflow
6999	3	of the impact of virus induced lysis on bacterial production and its consequences, it certainly  he viral impact a controlling force for bacterial production, iii what is the fate of bacterial  ial production, iii what is the fate of bacterial production if the above mentioned compartment
10830	1	in expression in response to different nutrient sources and examine the localised and long dis
12482	2	the conservation and management of such resources. this makes it essential that tools developed  a and methods to be identified. the key resources and outputs from this study will be: •the cre
518	1	g natural value due to its functions as source of nutriments and habitats for accessory or sava
203	2	biomass productivity and biodiversity of hybrid aspen a   be clarified. the limiting factors for biomass production capacity during the different growth
10484	4	cant additional contribution to oceanic carbonate production by marine bony fish. these all ing   seawater. this previously unrecognised source of marine carbonate is significant in its own ri  r that it makes a major contribution to carbonate production in particular regions of the ocean  te precipitates sink in the open oceans source for tropical shallow water carbonate sediments.
13427	2	in 1995, the domestic animal genetic resources conservation project was implemented.     in 1995, the domestic animal genetic resources conservation project was implemented. thus, t
11346	1	articularly in plants, and variation in resource availability between populations. we will stud
9959	1	ine data and information from different sources and collected in different ways. it can then be
10884	1	resents a major threat to the continued supply of water for domestic, agricultural and industri
10143	1	it easier to locate and select suitable resources. i recently published a computer modelling st
10410	1	it easier to locate and select suitable resources. i recently published a computer modelling st
10419	1	ng evidence indicates that an important source of variation in paternity originates from proces
9866	1	ng evidence indicates that an important source of variation in paternity originates from proces
13923	1	t plant health, and can be considered a natural resource. it is doubtful whether the potential
11023	1	pigment requires a different amount of resources including carbon and nutrients . subsequently
11277	2	t of about 90 % water and are important resources for the companies that supply water to homes   ortant resources for the companies that supply water to homes in the uk. although it has been k
11301	2	t of about 90 % water and are important resources for the companies that supply water to homes   ortant resources for the companies that supply water to homes in the uk. although it has been k
11837	2	t of about 90 % water and are important resources for the companies that supply water to homes   ortant resources for the companies that supply water to homes in the uk. although it has been k
9801	1	t root exudates and they form the major food source for soil microbes. in return, the bacteria
11238	1	llenge so as to ensure that the limited resources available for conservation are deployed most
2145	1	from a number of previously funded data sources.
15491	1	rom obtaining sufficient conditions and resources to maintain homeostasis, but biotic processes
10606	3	e influence of habitat modification and resource productivity on pollinator-parasite community    types representing different levels of resource availability and persistence. patterns in reso  ailability and persistence. patterns in resource productivity will be determined by measuring d
12539	3	ganisms, which are harmful to plants or plant products. a key aspect of the protective measures   harmful organism in the plant or plant product being moved. in the case of potato viruses the    health service, was that phd ensured a supply of young scientists in all the different plant h
12636	1	osts. 6. lastly, we will identify major sources of uncertainties, gaps in knowledge and recomme
15313	1	biochar is a carbon-rich product obtained by thermal decomposition of biomass at
2531	1	sverdrup assumptions, and predicted egg-production of zooplankton. this culminates in a spatio-
12263	1	he generation and improving of specific resources and tools will include - production of near i
2170	1	to be ubiquitous. endophytic fungi are sources of biologically active secondary metabolites wi
2050	1	pulations and populations from possible source areas to estimate divergence times and immigrati
13858	1	scaling up agroforestry is crucial to increase food production and reduce poverty in sub-saha
6720	1	breeding.in hybrid tomato breeding and seed production quick hybrid rate identification is an
13888	2	by focusing on the interaction between habitat productivity of resources and top-down control   raction between habitat productivity of resources and top-down control by piscivorous predators
10903	1	ion numbers up and provides a necessary source of food and income. however, the success of the
11801	1	ion numbers up and provides a necessary source of food and income. however, the success of the
10757	1	red to enable appropriate management of natural resources. the fact that failures of recruitmen
11265	1	red to enable appropriate management of natural resources. the fact that failures of recruitmen
12266	2	the genetic resources unit , result in fine scale mapping o  e quantitative traits which impact upon sustainable production etc. currently there are very fe
11298	1	being both the largest natural methane source and a large net carbon sink . key strengths of t
11598	1	turies. south west water plc manage the water resources of the exe catchment and are investing
11852	1	uman well-being depends not only on the provision of food and water, but also on the preservati
2482	1	functional groups competing for limited resources through strongly size-structured interactions
12031	3	ity : quantification on model organisms sources of neutral and functional transpecific biodiver  ity : quantification on model organisms sources of neutral and functional transpecific biodiver  mpatibility system, adaptation to toxic resources and biotic or abiotic stress, or plant develo
10043	1	y will effect on-and off-farm ecosystem resources. this proposal aims to begin developing a par
15112	4	ing correct estimates of proportions of resources used. the main objective of this project is t  -based model on the consumer signatures using resources distribution mixtures. the probabilisti  tain robust estimates of the individual use of resources. those estimates should allow us to de   other information about proportions of resources use derived from other methodological approac
15523	1	r, along with a comparative analysis of resource use.
13720	1	ion, and ultimately e.g. water quality, fisheries productivity and biological richness. pike ar
11757	1	ton food chain collected during phase 2 marine productivity cruises in the n.atlantic. this wil
11288	7	ts, which when they sink and die form a food source for the sediment faunal community. addition  these bacteria also provide a potential food source for the sediment community. the bacteria ca   fauna to graze on. the balance between food sources and oxygen concentrations is likely to be   structure. we intend to investigate the food sources available to the sediment community and to  xygen concentrations are low, bacterial food sources may play an important role in trophic dyna  s and where oxygen is high the dominant food source will be the microscopic plants. we have a u  pment of chemosynthesis and a potential food source for the benthic animals. we will compare th
14517	1	sions on the limitation imposed by base resources to macroinvertebrates in the two types of hea
9822	1	s general agreement that we must invest resources in managing and conserving populations of eco
12262	2	development of systems of land use and livestock production with reduced environmental footpri  nd improving the quality of precious uk resources from the more extreme consequences of climate
10223	1	people has been weak. yet, assuring the supply of water for these demands by improving watershe
11694	1	people has been weak. yet, assuring the supply of water for these demands by improving watershe
14189	1	components of fitness being studied. a source of confusion has also been in the vagueness of t
11586	2	of orchids is facilitated by their vast seed production, a single plant typically releasing ove  . using carbon, nitrogen and phosphorus sources enriched with specific isotopes of these elemen
12647	1	t in better planning for the use of our marine resources.
11555	1	ied the presence of methanogens oceanic methane production is, in part, associated with particu
15526	4	edictability and frequent scarceness of water resources. at the same time, iberian freshwater f  rgent need to integrate human demand of water resources, especially dam construction and operat  inable strategies for the management of water resources. to these aims, we will analyze reservo  ping a more environmentally sustainable use of water resources.
15581	1	of life is questioned. climate change, natural resource shortage and patterns of urban growth
11770	1	harvested species. for the use of these marine resources to be sustainable, it is necessary to
14786	3	anthropogenic sources of heavy metal contamination include industrial  de industrial manufacturing, energy and fuel production, gas exhaust and also excessive fertili   environmental standpoint. a variety of biological resources, including plants and microorganis
10696	1	ort for the north atlantic study in the marine productivity programme, in particular for the se
15250	4	ungulates have been considered the main food resource for vertebrate scavengers in mediterranea  nd might be an important and overlooked source of food for scavengers. carcasses might be used   or scavengers may depend upon different sources of mortality and so the spatio-temporal distrib  e role of wild herbivore carcasses as a food resource for vertebrate scavengers and its effects
13812	1	grasslands. methods are: 1. historical sources will be used to analyse landscape and diversity
11730	2	lso produce population viscosity, local resource competition and skewed sex ratios. we propose   nd quantification of the level of local resource competition. the results of this work will con
10738	1	ratures in conditions of limited oxygen supply; it is possible to identify which morphologies a
11348	1	ratures in conditions of limited oxygen supply; it is possible to identify which morphologies a
10900	4	ers with lifestyles adapted to abundant natural resource availability face diminishing access t   lifestyles adapted to abundant natural resource availability face diminishing access to resour  availability face diminishing access to resources and degradation of es provision. the large co  ights with respect to the es that their natural resources provide, as well as reinforcing commu
1106	1	y cycle. the aim is: - to determine co2 sources and sinks across the air/sea and land/sea inter
12293	2	and progeny from mapped populations for sources of resistance. in the long term the most sustai  resent and this objective will look for sources of resistance that can be used in breeding prog
11607	1	ional team, which combines considerable resources and expertise in avian sensory science and av
10479	2	should be regarded as an irreplaceable genetic resource. unfortunately, many such landraces ha   adapted alleles could be utilized as a genetic resource for future breeding programs. we will
10145	5	and biodiversity. these in turn form a source of other services such as food, medicinal plants  ices such as food, medicinal plants and forest products. the physical setting of river basins h  people who live in river basins and the resources and services that they draw from the basin. i  cts: *understanding the water, land and biodiversity resources of river basins, with a particul  the available natural and institutional resources to fashion mechanisms for access and manageme
10979	5	and biodiversity. these in turn form a source of other services such as food, medicinal plants  ices such as food, medicinal plants and forest products. the physical setting of river basins h  people who live in river basins and the resources and services that they draw from the basin. i  ts: - understanding the water, land and biodiversity resources of river basins, with a particul  the available natural and institutional resources to fashion mechanisms for access and manageme
14859	3	in these ecosystems in concordance with agricultural production and the development of field ma   to facilitate the harmonisation of the agricultural production with the conservation of natura  of the agricultural production with the conservation of natural resources. these techniques wil
413	1	tance of hunting and the utilisation of resources of the forestry in national politics. in that
10658	1	zooplankton samples, identification of food sources of the different fish populations and food
9901	1	zooplankton samples, identification of food sources of the different fish populations and food
10122	1	anced acquisition of nutrients and as a source of carbon for photosynthesis, but definitive evi
12162	2	ed with entry level stewardship address natural resource protection such as the integrity and h  ion such as the integrity and health of soil resource. there is therefore a need to identify op
14468	2	m of the project is to characterize the genetic resources of wild small fruit species /blueberr  wild small fruit species which are rich source of phenol compounds /in particular flavonoids /w
10066	1	nergy is to be generated from renewable sources, according to the government s energy strategy.
13483	2	factors such as light, temperature and resource production. this project has the objective to   fects of changing winter conditions and resource production on fish population dynamics is anal
12284	2	livestock production systems have a dual role not only   on systems have a dual role not only in food production, but also in the provision of public go
12170	2	d for birds, both in terms of providing food resources in winter and food resources and nest si   providing food resources in winter and food resources and nest sites in summer. there is now g
190	1	ostly be attributed to changes in their food resource – mesozooplankton. the general objective