Id	Number of occurences	Forms
7127	1	involved and conditioning contemporary ecology of each system. these markers are also used to
7264	1	g unprecedented growth, particularly in conservation biology. in this context, our project adop
7285	1	we build a robust phylogeny of the genus leucadendron, from 5 locus seque
10022	2	ase regularly for an ever expanding dna taxonomy resource. the current best trees will be avail  de a more complete understanding of the phylogeny of the group. these trees will also then form
7643	2	abundance relations are fundamental in ecology. their modeling is at the origin of numerous as  oad range of assumptions in theoretical ecology
10807	1	ld provide important insights into reef ecology, and aid conservation work. there have been lot
15372	2	cies are key and classical questions in biogeography, ecology and evolutionary biology. a range  nd classical questions in biogeography, ecology and evolutionary biology. a range boundary may
2028	1	ar, chemical, behavioural and community ecology.
2104	3	ctive is to accumulate knowledge on the taxonomy, phylogeny and ecological diversification of b  o accumulate knowledge on the taxonomy, phylogeny and ecological diversification of brown-spore  characters. we will infer the molecular phylogeny and test species boundaries and character evo
10883	1	ced for most fields of animal and plant ecology, the microscopic nature of bacteria means we ha
15064	2	the principal aim of ecology is to explain the high variability and differen  topic to reinforce current practices of conservation biology applied to animal populations.
2546	1	d methodologies in quantitative aquatic ecology, and has a significant potential to increase th
2088	1	the project is focusing on the taxonomy of the stenothoid genus metopa, a genus that i
11671	1	l a substantial knowledge gap about the ecology of these life stages. it seems likely that eith
10812	2	opulations are as old as the science of ecology. answers include tigers are rare because they a  compare the importance of evolution and ecology in determining which species should be common o
9961	2	opulations are as old as the science of ecology. answers include tigers are rare because they a  compare the importance of evolution and ecology in determining which species should be common o
10075	1	ccess to unique sources of amazon plant ecology in our quest to discover and explain biodiversi
11513	1	ccess to unique sources of amazon plant ecology in our quest to discover and explain biodiversi
15015	1	approaches from phycology, evolutionary ecology and genetics, agglutinating four senior scienti
10053	1	sciplines, namely evolutionary biology, ecology, population genetics and molecular genetics. th
15053	3	sting physiological characteristics and ecology. understanding the ecology of extreme environme  eristics and ecology. understanding the ecology of extreme environments may provide insight int  ties that inhabit it. understanding the microbial ecology of extreme environments may provide n
2491	1	y theories and apply methods of law-and-economics. approaches inherent in such themes as resili
6875	2	speciation, the essence of which is the ecology-induced way of generation of a new species. in   ime is generated by the non-equilibrium ecology studied on the right scale, the limiting simila
9952	1	of considerable research in behavioural ecology for more than twenty years, it has not yet been
15152	1	ibute, likewise, new information on the taxonomy and molecular characterization of the isolates
13979	1	king into account woodpecker population ecology, habitat requirements, environmental variabilit
12016	1	erienced a new impetus, both in applied ecology and in the search for fundamental ecological pr
14274	1	océanologique de banuyls: phytoplankton taxonomy
11861	2	ecology has been poor at identifying and researching no  is inefficient and gives the science of ecology a poor reputation. our proposal is to use a nov
10079	1	pollination ecology in now able to explain and predict pollinator-m
10041	1	d employed in displays; the behavioural ecology of carotenoid patches has been intensively stud
10052	1	eria, sediment/metal chemistry, and the ecotoxicology of nanoparticles. the deliverables will i
10232	1	will attempt to relate species thermal ecology to recent distribution changes, and then use ou
10498	1	will attempt to relate species thermal ecology to recent distribution changes, and then use ou
11512	1	will attempt to relate species thermal ecology to recent distribution changes, and then use ou
11613	1	will attempt to relate species thermal ecology to recent distribution changes, and then use ou
14862	1	n serve as diagnostic characters in the taxonomy of the various sub-groups, clarification of so
15424	1	selection processes and map them in the phylogeny.
13600	2	ne of the key questions in contemporary ecology and conservation biology. in the proposed proje  y questions in contemporary ecology and conservation biology. in the proposed project, i addres
14708	1	s are widespread in nature within birds phylogeny. finally, since all upupiformes coincide in p
14106	1	al study objects of evolutionary animal ecology – greenfinches and great tits, i.e., passerine
15219	1	p in the knowledge of brachyuran larval taxonomy is in turn responsible by an important amount
11022	1	y will reveal new information about the ecology and evolution of these mammalian ancestors, usi
14892	2	macroecology is a relatively new contemporary field in    a relatively new contemporary field in ecology that analyses large-scale patterns and processe
10238	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
10697	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
11252	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
11262	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
11793	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
11800	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
11803	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
9971	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
9977	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
9986	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
9988	1	y. molecular biology has revolutionised microbial ecology and it is now possible to investigate
10183	2	the ecology of most of the marine bacterioplankton is unkno  ill have a profound influence on marine ecology.
10070	1	ment. we will rely heavily on molecular ecology approaches because ectomycorrhizal fungi are hi
13875	1	ses may be distinguished, evolution and ecology. a genetic change may have taken place in the e
14109	1	l connectivity measures and restoration ecology.
14816	2	work of a programme that joins together macroecology and historical biogeography. this approach  ns together macroecology and historical biogeography. this approach may allow knowing, interpre
10067	1	ndamental knowledge of the evolutionary ecology of hosts and parasites by characterising the in
10156	1	interactions using classical community ecology perturbation experiments, by removing certain p
11676	1	interactions using classical community ecology perturbation experiments, by removing certain p
12272	1	athogen resistance, land management and economics on wheat and oilseed rape production. samples
12153	1	stock performance, animal welfare, farm economics, environmental impact and landscape. the pote
15465	2	table isotope approach to study trophic ecology for that, our last objective will be to calcula  ion of long-term changes in the trophic ecology of these species. these results will be of grea
14699	1	f this insect group and also phenology, ecology and establish the basics for their preservation
10191	1	ever the reasons it is obvious that the ecology of both organisms is dramatically affected. thi
10002	1	food supply to the deep sea. similarly, biogeography studies have found that over distances app
13501	1	ttom-up and top-down forces in food-web ecology.
15370	1	tter understanding of the evolution and ecology of avian cavity nesting and of host-parasite as
2121	1	separate effects of climate, geography, taxonomy and life history.
15153	1	ed to the mainstream of plant community ecology in the last decades, and since then they are re
15214	2	second phase we shall develop that dna taxonomy of selected taxa, by completing the initial re  ing the foundations for a new objective taxonomy free of subjective decisions. simultaneously,
14482	1	orphofunctional transformation onto the phylogeny.
10461	1	this very important area of statistical ecology.
15563	1	s in the following research fields: the ecology of beech forests and their conservation under c
14717	1	on behaviour, functional morphology and ecology within a phylogenetic framework, so one can und
10744	1	of the benthos as a control on sediment biogeochemistry and om distributions, and will yield im
11255	1	of the benthos as a control on sediment biogeochemistry and om distributions, and will yield im
11259	1	of the benthos as a control on sediment biogeochemistry and om distributions, and will yield im
11356	1	of the benthos as a control on sediment biogeochemistry and om distributions, and will yield im
14996	1	able concernig the distribution and bio-ecology of sand flies in the balearic islands. the few
12015	2	, calling upon anthropology, geography, economics, ethnobiology, ecology and legal expertise. d  gy, geography, economics, ethnobiology, ecology and legal expertise. diverse sites and topics h
2493	1	cal interest in population and food web ecology, a main objective of this project is to tackle
451	2	yet complementary angles: inventories, biogeography, preservation and training the maldives is  ntification of larva and hatchlings and taxonomy of different groups.
14418	2	s; • generate needed information on the taxonomy and phylogeny of the pathogens; • еxpand the i   needed information on the taxonomy and phylogeny of the pathogens; • еxpand the information of
14804	1	he characterization of biodiversity and ecology of cave microbial communities, in their natural
6891	1	ject will be an on-line expert sytem on landscape ecology and land-use, which provides recommen
396	1	ecent developments in metacommunity and landscape ecology. we will examine plants, soil animals
442	2	vide a framework of relevance for basic ecology, but also of practical relevance for applied ec  also of practical relevance for applied ecology.
13942	1	eased cyanobacterial blooms on nutrient biogeochemistry in the baltic sea. the potential for to
474	4	d 30 eu experts in eukaryotic microbial taxonomy and evolution, marine biology and ecology, gen  onomy and evolution, marine biology and ecology, genomics and molecular biology, bioinformatics  ty to the forefront of marine eukaryote microbial ecology. by connecting the most modern sequen  ing technology to eu experts in protist taxonomy, biomarks will valorize an invaluable traditio
7030	7	to the main questions in ciliate alpha-taxonomy and the hotly debated problems in biodiversity  sults should allow an estimation of the biogeography of a species-rich group of marine plankton  nid diversity, and an assessment of the biogeography, including literature data. additionally,   g estimation of tintinnid diversity and biogeography. morphological taxonomy as a distinct scie  versity and biogeography. morphological taxonomy as a distinct scientific field is threatened b  gthen austria as a hot-spot for ciliate taxonomy, but will also enable training of students in   ng of students in the basics of ciliate taxonomy.
14419	1	discovered yeasts. the biodiversity and ecology of yeasts in different ecosystems have attracte
7008	1	s are gathering information about yeast phylogeny and development of yeast endocytobiosis, disc
7211	2	but complementary angles: inventories, biogeography, conservation and training. the maldives i  d identification and juvenile fish, and taxonomy of different groups will be offered to local t
15206	1	he understanding of v. parahaemolyticus ecology and the molecular basis of its pathogenic poten
11782	2	r fungus, yet little is known about its ecology. this study will lead to a better understanding   data from the investigation into yeast ecology to address this question. these data from natur
10249	1	by answering a key question in deep-sea ecology, this proposal also addresses nerc s goal of de
14706	3	testing hypotheses about the historical biogeography of clades that span the barriers concerned  esults will be used to test the current taxonomy of the groups concerned. this project will pro  r improvements in reptile and amphibian taxonomy as well as for assessing conservation prioriti
14505	1	ural laboratory for the study of island biogeography and evolutionary proceses. in the case of
14601	1	ural laboratory for the study of island biogeography and evolutionary proceses. in the case of
14937	5	ng hosts populations. understanding the biogeography of host-parasite relationships is importan  ate change. this project will study the biogeography of host-parasite interactions using the bl   to have a high impact in the fields of ecology, evolutionary biology and conservation biology.  ds of ecology, evolutionary biology and conservation biology. in addition, characterising the m  o the study of this species, a model in ecology and evolution. the project will also allow trai
14421	2	r understand the distribution, biology, ecology and paths of invasion of the invasive alien spe  species. 2. better understanding of the ecology, biology, paths of introduction and spread of t
7610	1	t involves the study of the biology and ecology of biofilms formed by a representative of a maj
15280	1	on both archaeal biology and population ecology to understand population dynamics and distribut
15281	3	application of molecular techniques in microbial ecology has discovered the enormous wealth an  ll become familiar with the biology and ecology of these organisms. stratified lakes with seaso  ia are of great interest for studies of microbial ecology and the various bodies of water that
15026	1	on oriented study about the biology and taxonomy of the six porphyra species found in the iberi
15564	4	d 30 eu experts in eukaryotic microbial taxonomy and evolution, marine biology and ecology, gen  onomy and evolution, marine biology and ecology, genomics and molecular biology, bioinformatics  ty to the forefront of marine eukaryote microbial ecology. by connecting the most modern sequen  ing technology to eu experts in protist taxonomy, biomarks will valorize an invaluable traditio
15126	1	urther investigations on their biology, ecology and their evolutionary and biogeographic histor
10459	2	on the lomonosov ridge, to document the taxonomy and investigate the response of the benthic fo  ed in the iodp volume, and the detailed taxonomy will be submitted to an international micropal
11242	1	iation and evolution in the morphology, ecology and behaviour in different groups of organisms.
12017	2	rongly limiting interpretation of their ecology, biogeography, fossil record, and prediction of  miting interpretation of their ecology, biogeography, fossil record, and prediction of their ac
11738	2	ity , with significant implications for conservation biology and for evaluating how organisms r  ret the dietary preferences and feeding ecology of fossil fishes, and test the hypothesis that
14117	1	to the ascertainment of the biology and ecology of protected species in order to bring the cons
15430	1	t perfect model organisms for molecular ecology studies. therefore, assessing the responses of
10643	1	inciples of biological oceanography and macroecology, this study will also provide a unique, ev
14764	1	c volatile organic compounds - chemical ecology of plant-plant and plant-animal relationships.
1093	1	ubstitution on the nodes of a molecular phylogeny. different methods will be used, which assume
1970	1	rk will further integrate the fields of ecology and evolution whilst focussing on the roles of
7025	1	ed natural water regime will affect the biogeochemistry of riparian and instream zones as well
10891	1	ur. this has far reaching relevance for conservation biology and for the management of insect s
11338	2	oduce has been suggested as driving the ecology and evolution of their host species. however, t  nce of these parasites for driving host ecology and evolution, and in addition give us understa
10731	1	de-off for behavioural and evolutionary ecology.
13749	1	leaching from soils. a centre for soil microbial ecology will be established to accomplish thi
13465	1	will be valuable for studying honeybee ecology and evolution.
7501	1	. it also differs from the viewpoint of ecology and its chemistry by the yellow color of flesh
13530	1	previous formas-project on the chemical ecology of toxic dinoflagellates. the objective is to f
6866	1	phytogeography, field and experimental taxonomy.
2030	1	a central issue in ecology is to understand how species respond to climate
13785	1	on pollinating insects with well known ecology i.e. large blue butterflies investigate ecosyst
10476	2	sively-studied phenomena in terrestrial ecology, underpinning the fields of landscape ecology a  ial ecology, underpinning the fields of landscape ecology and population biology. despite the e
10889	1	cognized as having major impacts on the ecology of terrestrial, freshwater and marine systems w
6861	1	n lower jurassic floras we can recreate ecology of liassic subtropical delta-plain forest.
10413	1	climatic gradient, using the centre for ecology hydrology s dataset of annual changes in all uk
14317	1	, regional and global biodiversity, its ecology, dynamics and ecosystem functioning are poorly
15339	1	uld have important implications for the ecology and evolution of plant-pollinator networks. thi
14898	2	emicity, risk of extinction, unresolved taxonomy, and possible existence of cryptic species, as  our knowledge on their biodiversity and taxonomy, with applications to their management and con
10333	2	experimental landscape ecology is possible using natural micro-ecosy  h for the emerging fields of macro- and landscape ecology and the maintenance of biodiversity a
10729	2	genetics, population biology, community ecology, landscape ecology, and multivariate statistics   population biology, community ecology, landscape ecology, and multivariate statistics. therefo
15499	2	history theory and plant physiological ecology would predict the parallel evolution of another  g traits. here, we will use comparative ecology to identify plant strategies evolved under arti
15403	1	this research is to analyze the feeding ecology of two endemic herbivorous of the balearic isla
14220	2	abundance is a fundamental challenge in ecology with far reaching implications for macroecology  logy with far reaching implications for macroecology and biodiversity research. differences hav
10091	1	mmunities is the fundamental process in microbial ecology. however, the determination of the po
7720	1	logy combines data from geography, agro-ecology, biochemistry, genetics, and socio - economy at
11302	3	re an important model for the locomotor ecology of arboreal animals and the relationship betwee  ncestor of all apes and elucidating its ecology and mechanics will aid interpretation of the mi  rial setting and studying the locomotor ecology and mechanics of arboreal bipedalism may shed l
11309	3	re an important model for the locomotor ecology of arboreal animals and the relationship betwee  ncestor of all apes and elucidating its ecology and mechanics will aid interpretation of the mi  rial setting and studying the locomotor ecology and mechanics of arboreal bipedalism may shed l
11831	3	re an important model for the locomotor ecology of arboreal animals and the relationship betwee  ncestor of all apes and elucidating its ecology and mechanics will aid interpretation of the mi  rial setting and studying the locomotor ecology and mechanics of arboreal bipedalism may shed l
11435	1	y our understanding of the evolutionary ecology of social behaviour.
15241	1	a more holistic view of coastal waters ecology.
13879	1	edictable way. by studying the foraging ecology of bumblebee and solitary bee species, the mech
14947	1	ience, mainly ethology and evolutionary ecology, as well as in management of game populations i
13751	1	ly for the understanding of behavioural ecology but also for the understanding of population dy
6942	3	the molecular diversity, intraspecific phylogeny and distribution history of three freshwater   ts. introducing a graduate student into conservation biology and molecular phylogenetics contri  project will be applicable in practical conservation biology as well.
2526	2	, experimental, and modeling experts in ecology, ecotoxicology, and risk assessment from 16 ins  ental, and modeling experts in ecology, ecotoxicology, and risk assessment from 16 institutes a
10436	1	and reproduce. it is a central tenet of ecology that the abundances of organisms are influenced
2014	1	to coexist is an unresolved question in ecology. seed dispersal and density-dependent mortality
7534	1	apparentements between host plants. the phylogeny of the sequences present in the tray mmv musa
12711	1	the european commission initiated ‘the economics of ecosystems and biodiversity. teeb runs to
10315	1	th expertise on ecosystems, climate and biogeochemistry , the global programme which iced is a
7515	1	the mediterranean, in a dual objective conservation biology and sustainable management for use
2483	3	ates norwegian expertise in behavioural ecology of marine fishes, australian expertise in reef   shes, australian expertise in reef fish ecology and physiology, and british expertise in compar   norwegian evolutionary and behavioural ecology.
10635	1	ironmental uncertainty with behavioural ecology in examining the costs and consequences of vari
11436	1	y the geometric approach to nutritional ecology to examine the mechanistic basis for the costs
10726	2	e will reveal new information about the ecology and evolution of this enigmatic fossil, using a   would inform on its feeding behaviour, ecology and the selective pressures driving cranial evo
10508	1	set up a consortium of taxonomists and taxonomy end-users from the natural history museum, roy
10509	1	set up a consortium of taxonomists and taxonomy end-users from the natural history museum, roy
10706	1	set up a consortium of taxonomists and taxonomy end-users from the natural history museum, roy
11007	1	set up a consortium of taxonomists and taxonomy end-users from the natural history museum, roy
11337	1	ic, through hormone physiology to field ecology. the molecular biology will be related through
7506	1	cellular algae play a vital role in the ecology of the planet, and, due to their diverse bioche
15056	1	ion could be very useful to clarify the taxonomy of certain especially problematic groups of cy
14556	1	and nuclear, to hypothesize a molecular phylogeny for comparison to the classification on morph
14557	1	and nuclear, to hypothesize a molecular phylogeny for comparison to the classification on morph
15490	4	isciplinary approach mixing elements of ecology, behavioural ecology, conservation biology, mov  mixing elements of ecology, behavioural ecology, conservation biology, movement ecology, eco-ph  ements of ecology, behavioural ecology, conservation biology, movement ecology, eco-physiology   ecology, conservation biology, movement ecology, eco-physiology and genetics to provide one of
15160	1	e believe that the discipline of animal ecology in our country can advance this way enormously.
2118	1	e population structure and regeneration ecology of either harvested or unharvested natural popu
12772	1	umber of negative impacts on freshwater ecology including fish and macroinvertebrates, whilst a
7706	1	researchers and faculty in agronomy and agroecology three institutions of higher education in a
14162	1	a major question of evolutionary ecology is to understand the causes and mechanisms whic
15519	1	ies. many of the questions addressed by ecology and evolutionary biology require a good underst
2536	1	iverse fields as anthropology, biology, economics, politics, psychology and engineering. a bett
11813	1	re is incredibly little known about the ecology of jellyfish largely because of a lack of targe
10770	1	will test this outcomes pertaining the biogeochemistry of these organisms against the climatic
14826	1	n genisteae. a well supported molecular phylogeny is a previous condition for the analysis of t
11715	1	lobal biodiversity, ecosystem function, biogeochemistry and climate have all varied considerabl
10167	1	ields as archaeology, palaeobiology and ecology.
14431	1	re of varied origins: 1. the origin and phylogeny of the diatom flora in the neogene lake syste
11360	2	has fundamental implications for ocean biogeochemistry and ecology. viral activity influences   lications for ocean biogeochemistry and ecology. viral activity influences the fate of primary
10142	3	xistence these questions are pivotal in ecology, as the answers can potentially change our view  ith the increases in the reliability of phylogeny reconstructions, phylogenetic investigations   n europe and usa, obtaining a molecular phylogeny directly from the animals sampled in the fiel
15503	1	cal contingencies. another key issue in ecology is to determine if communities are relatively f
10094	1	as a marker for dispersal. conventional taxonomy will verify the species attracted to pheromone
15096	2	rovide sound and novel knowledge on the ecology of these parasitic plants. previous knowledge o   parasitic plants . many few studies in ecology have used spatial analysis to characterize the
15157	1	undertake studies on the evolution and biogeography of the subterranean fauna since: .
12056	1	ate change , was created and a complete phylogeny of alpine flora was built. analyses were cond
11731	1	the diversity and biogeography of benthic foraminifera, a dominant deep-s
7013	1	al studies are necessary to clarify the taxonomy of the species and to get data for a phylogene
14842	1	peninsula and the alps. in the current taxonomy mainly based in morphological and ecological t
15065	1	refore, they are of special interest in microbial ecology and environmental biotechnology. the
15068	1	oxicity in loxosceles linked to a solid taxonomy and the elaboration of identification tools fo
9919	5	for routine species identification and taxonomy. however, several technical and analytical dif  obiology, this has greatly affected the taxonomy of un-culturable bacteria which are only known  ases, will provide a universal tool for taxonomy. it is not necessary to have specific morpholo  tudy, a factor that greatly slowed down taxonomy in the past. here we use microscopic wasps whi   will set standards for the practice of taxonomy in the future.
11284	1	systems, which profoundly affect global biogeochemistry and climate. compared to complex biogeo
10817	1	of animal populations is fundamental to ecology. many herbivore populations show regular oscill
11049	1	of animal populations is fundamental to ecology. many herbivore populations show regular oscill
11562	1	of animal populations is fundamental to ecology. many herbivore populations show regular oscill
11829	1	of animal populations is fundamental to ecology. many herbivore populations show regular oscill
10211	1	r rhizosphere c flow is linked to their ecology.
11551	1	ross several species should distort the phylogeny of that gene, making it incompatible with the
2169	3	specialists in palaeoecology, community ecology, pollination, forest ecology, cultural-landscap   community ecology, pollination, forest ecology, cultural-landscape ecology, and numerical anal  , pollination, forest ecology, cultural-landscape ecology, and numerical analyses including mul
10689	1	many areas of dynamic biogeography are still unexplored because tests of indi
14122	2	tle known, is expected to advance plant ecology, paleoecology, and conservation biology.   dvance plant ecology, paleoecology, and conservation biology.
15319	2	still many gaps in the knowledge of its ecology, which contribute to build the archetypical dil  te to build the archetypical dilemma in conservation biology: a sense of urgency but no solid g
14602	1	tion or local persistence. by combining landscape ecology, biogeographic approaches and cutting
7147	1	scales: instantaneous based studies and conservation biology approaches for long periods from p
10125	4	oping an increased understanding of the ecology of species decline and extinction is imperative   of the extinction process, such as the biogeography of range contraction and collapse in endan  tive studies of past and present mammal ecology can also inform current mammal conservation and  les displayed by species with differing ecology, life history and trophic status, and will addr
11336	2	geological conditions, climate and the ecology of the area when they were made to try to demon  luctuated occasionally. the climate and ecology of the lake basin will be worked out from a stu
10660	1	with experience in climate, limnology, economics and decision support in the african lakes reg
9886	1	with experience in climate, limnology, economics and decision support in the african lakes reg
12029	2	marine chemical ecology: biodiversity indicators and development. ecima  laid the foundations of marine chemical ecology in france. a multidisciplinary approach for a g
519	1	and the ecological assets. even though landscape ecology, and in particular the researchers be
7635	3	nning the program; she joined the plant ecology, microbial ecology, ecology of populations, ana   program; she joined the plant ecology, microbial ecology, ecology of populations, analytical c  d the plant ecology, microbial ecology, ecology of populations, analytical chemistry and organi
14963	1	s in diverse fields such as metabolism, ecology and evolutionary biology. the work outlined in
13480	1	ld great promise for community oriented conservation biology by identifying fragile ecosystem s
11410	1	by researchers at the university on the ecology of yellow rattle. genetic analysis of yellow ra
9964	1	by researchers at the university on the ecology of yellow rattle. genetic analysis of yellow ra
10638	1	veys, population genetics, experimental ecology and molecular phylogenetics.
13721	1	nd have thus important implications for conservation biology.
11071	1	ce of climate change in relation to the ecology and viability of plant and animal species. clim
14204	1	ns and scales is the central problem in ecology. the relative importance of small- and large-sc
14807	1	e different fields of basic and applied ecology as well as in related matters. the validation o
7661	1	dentify general and basic principles in ecology and evolution of host-parasite interactions in
15378	2	nteractions among species to understand ecology and evolution. recent studies have shown univer  ing advance in bridging the gap between ecology and evolution in multispecies networks with det
7203	3	response, a deeper understanding of the ecology of plant-eating insects and pathogens they are   ization is a primary determinant of the ecology of plant- insect across the agricultural landsc  on of the agricultural landscape on the ecology of pests, pathogens they are vectors and their
214	1	coevolution of plants and fungi, fungal biogeography and potentially explaining tropical monodo
14633	1	ds of evolutionary biology, behavioural ecology, socio-biology and evolutionary psychology.
14124	1	that are focused on the aspects of the ecology of disturbance-related herbs. our working hypot
15033	1	hwaters and provide new insights to the ecology of biological invasions in general.
10214	1	nd laboratory environments to study the ecology of learning in embryos and larvae of coral reef
2037	2	rated modelling and interaction between ecology and economics. in addition, the issue of non-us  ing and interaction between ecology and economics. in addition, the issue of non-use values ass
1943	1	doc. the post doc, with a background in economics and business administration, conducts analyse
2514	1	n particular with regards to changes in biogeography, as observed already. these changes will a
6729	1	phological changes in relation to paleo-ecology, to examine with oxygen-isotope the dental enam
14988	1	our knowledge about the ecology of marine coastal waters has significantly incr
14989	1	our knowledge about the ecology of marine coastal waters has significantly incr
2073	1	is interdisciplinary covering the axis ecology-social sciences aiming at identifying the deter
2086	1	is interdisciplinary covering the axis ecology-social sciences aiming at identifying the deter
7565	1	pertise in the areas of systematics and ecology of filamentous macromycetes
13318	1	biodiversity and ecosystem research for taxonomy based information. edit will address significa
538	2	al level. although it is clear that the ecology of our planet is driven by microbial ecosystems  ress key scientific issues in microbial soil ecology. these include assessing the impact of env
7202	1	the research project concerns microger microbial ecology in agricultural and forest soils and
13467	1	d of considerable relevance for applied conservation biology and agriculture.
15184	1	novel approaches as those derived from macroecology. that is, microbial communities in inland
15315	1	l approaches such as those derived from macroecology. that is, microbial communities in inland
14741	1	its effect on hydromorphology and river ecology; - management proposals to improve the lower eb
2136	1	ore remains a major challenge in marine ecology. the main goal of the project is to quantify th
12045	1	d by studies of population genetics and phylogeny, the evaluation of biological traits and a th
10452	1	in different areas. we will examine the economics of foraging on circumglobal migrations, in pa
10816	1	ol children, will learn about great ape ecology and our ancestral heritage. our results are rel
12497	1	onment change network at the centre for ecology and hydrology.
13950	1	s for training in fisheries science and ecology. we will apply the new methods to case studies
10995	1	-social populations in an intraspecific phylogeny. the work will involve a collaboration betwee
11053	1	-social populations in an intraspecific phylogeny. the work will involve a collaboration betwee
11787	1	-social populations in an intraspecific phylogeny. the work will involve a collaboration betwee
7107	1	sts. it has both a strong background in landscape ecology, including connectivity, remote sensi
15417	1	stems represents a challenge for actual ecology science. however, acquiring this knowledge is n
7017	1	versity is a central theme of community ecology. however, how biodiversity is regulated, and ho
7011	3	at has develped between microbiolgy and ecology, advance mathematical modelling in microbial ec  logy, advance mathematical modelling in microbial ecology across scales, and will be a unique o  st theories from landscape and invasion ecology on microbial terrain.
9878	1	s in the following research fields: the ecology of beech forests and their conservation under c
483	1	s in the following research fields: the ecology of beech forests and their conservation under c
7452	1	research initiative to investigate the ecology and environmental dependencies of european eels
12396	1	scope of emeco is from physics through biogeochemistry to fish, it will develop tools that wil
14597	1	s, the research progress on restoration ecology are remarkable. however, three major lacks are
14817	1	this project is to obtain a consistent phylogeny of the genus campanula using molecular marker
14918	4	group to carry on studies on evolution, biogeography and conservation. in this project we attem   attempt to construct the most complete phylogeny of the cyprinids species inhabiting the circu  lecular markers to address the complete phylogeny of cyprinids, and to elucidate their evolutio  evolutionary history. once the cyprinid phylogeny will be established, we will test main biogeo
15449	1	he most studied aspects in evolutionary ecology. however, most research has focused on signals
6815	1	ts and methods of evolutionary biology, ecology, biomathematics and mathematical systems theory
15073	3	3 perspectives, cytogenetic, molecular phylogeny and genomic, to the evolution of one of the g  on. secondly, a species level molecular phylogeny will be constructed for two genera representi  eral questions of evolutionary biology, taxonomy and phylogenetic relationships in one of the g
15170	1	s constitutes a major paradigm in plant ecology. among specialized pollination interactions, nu
11072	2	n in response to other changes in their ecology. we will use evolutionary theory to ask fundame  long-term responses to changes in their ecology: such as how habitat change, host shifts, or co
10801	2	nstable. thus, a key aim in behavioural ecology is to understand how parent-offspring communica  rtant unresolved problem in behavioural ecology. the models make very similar predictions conce
15476	1	a molecular clock will be applied. this phylogeny will be used to study the phylogenetic signal
13323	1	major disciplines - genomics, genetics, ecology and evolution - for understanding, monitoring a
15293	1	d populations remain poorly understood. ecotoxicology provides consistent laboratory results re
10730	1	volution with my previous experience in ecology, behaviour, physiology and evolution will put m
14605	2	s the study of different aspects of the ecology of the reproductive behaviour of a group of ins  n different aspects of the evolutionary ecology of these animals.
15201	4	e major problems on the systematics and taxonomy of malagasy amphibians. the proposed objective  oject are: 1. resolve the species-level phylogeny for all five frog radiations of madagascar ba  cal and bioacoustic data to clarify the taxonomy and systematics on these groups. 3. generate a   available hypotheses on the historical biogeography and spatial patterns of species diversity,
15258	1	wing topics: a construction of a robust phylogeny and estimation of time of divergence of diffe
10273	1	have typically focussed on the current ecology of populations and have necessarily had to igno
12763	1	investigate urban badger behaviour and ecology in order to identify more effective, humane, ac
13766	1	which our knowledge of their dispersal ecology is especially poor.
9868	1	earchers studying evolutionary biology, ecology and animal behaviour.
11363	1	al interest to evolutionary biology and conservation biology alike, because environmental modif
6901	1	perience in data analysis and numerical ecology, and the necessary infrastructure is also guara
10547	2	as, yet most of our knowledge of marine ecology is derived from rather small-scale studies. to   t dominated by the study of terrestrial ecology and a leading marine institute, we will be in a
14646	2	within the framework of biogeographical ecology and macroecology. our main goal is to analyse t  ramework of biogeographical ecology and macroecology. our main goal is to analyse the determina
13597	2	y advance our knowledge about bacterial biogeography, regulating factors of microbial diversity   diversity, and microbial metacommunity ecology. it will also help us to understand to which de
14746	4	ely related species. the integration of phylogeny into community ecology is, therefore, necessa  integration of phylogeny into community ecology is, therefore, necessary to understand fully co  the potential importance of considering phylogeny in community ecology studies, phylogenetic ap  e of considering phylogeny in community ecology studies, phylogenetic approaches have been litt
10294	1	oped a number of cutting edge molecular ecology tools which enable us to parallel the laborator
14568	1	we propose the study of the taxonomy and the geographic distributionof the ca 70 sp
15413	1	90s, spanish researchers in polychaete taxonomy have been involved in the iberian fauna projec
15249	1	e to the knowledge of the life history, ecology, evolution and conservation of avian scavengers
13769	1	the project at the frontier in food web ecology.
15042	2	the most relevant questions in food web ecology. in addition, spatial heterogeneity appears as   ncrease our knowledge on the functional ecology of mediterranean arid ecosystems, a particularl
7053	4	ing a cohesive protocol for integrative taxonomy. information from traditional morphometrics, a  their species integrity remain unknown. ecology could be involved and the species could, for ex  ate the cautious inference of a role of ecology in the species’ evolution. the project will be    the specific project aims: integrative taxonomy needs well-documented case studies for the fin
6876	1	, experimental population and community ecology, and the statistical analysis of vegetation. we
215	1	branches of science: mycology and plant ecology, in the field of mineral nutrition of woody pla
9931	1	nothing is known about their functional ecology. it is proposed to use species-specific pcr pro
15505	1	amage. burning modifies the morphology, taxonomy and phylogenetic structure of plant communitie
15043	2	isciplinary approach mixing elements of ecology, conservation biology, eco-physiology and genet  ry approach mixing elements of ecology, conservation biology, eco-physiology and genetics to pr
2089	1	udies to elucidate the biodiversity and ecology of these habitats are long overdue. their ecolo
10295	1	and modelling at the interface between ecology, engineering, and physics. suspension feeding r
11223	1	and modelling at the interface between ecology, engineering, and physics. suspension feeding r
11762	1	and modelling at the interface between ecology, engineering, and physics. suspension feeding r
14828	1	is still a central issue in population ecology. habitat heterogeneity and despotic settlement
11501	2	n anthropology and the social sciences, economics, ecology, risk management, spatial planning,   ogy and the social sciences, economics, ecology, risk management, spatial planning, climate cha
2106	1	cantly to our knowledge of bearded seal ecology and the dynamics of benthic community structure
10659	1	y evidence on the genetic diversity and ecology of living forams in the cold regions of the hig
7473	1	changes, linking different disciplines: ecology, genetics, genomics and evolution. foresttrac b
7006	1	has been applied on various aspects of ecology such as patterns of plant and landscapes, appli
10009	2	the hydrology, soils and ecology of moorland are vulnerable to local environment  rs and streams draining moorland stream ecology. the student will be based at the 5 rae rated s
12038	1	ons are an ongoing driver of the global biogeography of body size in freshwater fishes. we furt
11502	2	portant issue by working on the spatial ecology of a tropical seabird, the round island petrel.  gether evolutionary biology and applied ecology.
1972	1	e most intriguing questions in chemical ecology is why one plant species produces so many diffe
15474	2	among the main challenges for current ecology are to understand and to be able to predict the  ich have been little used in functional ecology. the analysis of xylem traits will allow improv
11329	2	jor unresolved problems in contemporary ecology is to understand how diversity arises in plant   esis interacts with other plant traits, ecology and evolutionary history to influence plant gro
7020	3	tem functioning by explicit coupling of microbial ecology and community structure to biogeochem  bial ecology and community structure to biogeochemistry. despite considerable advances in biodi  , environmental microbiology, genomics, biogeochemistry, and advanced mathematical modelling. r
1953	1	ehavioural mechanisms and physiological ecology. together we will unravel the selection dynamic
10253	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
10254	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
10754	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
11529	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
11533	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
9994	1	g of hydrological systems and dependent ecology is essential for optimal environmental manageme
14628	1	nowledge of the composition, structure, phylogeny and evolution of one of the most complex, str
14700	1	nts is a difference in the reproductive ecology of the sexes that results in sex differences in
15193	2	oal of evolutionary biology, population ecology and conservartion biology, among others. in the  d seeds using microsatellites, movement ecology and also variation of plant sex expression. the
14652	4	s have also been reported. the field of taxonomy is experimenting some controversial debates in  e are necessary tools for the fields of macroecology and conservation biology; the rather pejor  ools for the fields of macroecology and conservation biology; the rather pejorative term taxono  iversal barcodes on which to base a dna-taxonomy has been proposed as a necessity. testing whet
7547	1	rtant questions about the environmental ecology concepts and mechanisms in the genetic diversit
10131	1	tion in other circumstances, such as in conservation biology or the management of pesticide res
11417	1	tion in other circumstances, such as in conservation biology or the management of pesticide res
15297	1	l. moreover, they are important for the conservation biology of this species.
7589	1	utionary framework based on a molecular phylogeny established in parallel with neutral markers,
206	1	ging tasks in evolutionary genetics and ecology research today.
15418	2	where general hypotheses on evolution, biogeography, ecology and conservation can be conceived   hypotheses on evolution, biogeography, ecology and conservation can be conceived and assessed.
15419	2	where general hypotheses on evolution, biogeography, ecology and conservation can be conceived   hypotheses on evolution, biogeography, ecology and conservation can be conceived and assessed.
6743	1	ludes experimental investigation on the ecology of the taxons too. the aim of the second analys
13520	2	t with the best supported hypotheses of phylogeny, using specimens from this survey and applyin  g species, with the goal to resolve the taxonomy of these forms using dna data. the project wil
6889	1	therefore, they are significant both in taxonomy and biogegeography. at the same time they are
11137	2	ms. one important tenet of evolutionary ecology is that two forms cannot coexist if they are to  s its different island populations. the ecology of each form will likewise be quantified in ter
10532	1	ive in the context of the evolution and ecology of roseobacters and their phages and are very l
15478	1	portunity to investigate the diversity, phylogeny and evolution of the rhizobial symbiont and o
9869	1	in geographic distribution, biology and ecology. fundamentally, the project will integrate geno
10424	1	lling species unusual in terms of their ecology or life history do the same mechanisms determin
10665	1	lling species unusual in terms of their ecology or life history do the same mechanisms determin
10683	1	lling species unusual in terms of their ecology or life history do the same mechanisms determin
9899	1	lling species unusual in terms of their ecology or life history do the same mechanisms determin
10428	2	t would also be a platform on which new taxonomy can be published and new biological informatio  them on an animal group for which a web taxonomy is already available. finally, we shall work w
10759	2	t would also be a platform on which new taxonomy can be published and new biological informatio  them on an animal group for which a web taxonomy is already available. finally, we shall work w
11014	2	t would also be a platform on which new taxonomy can be published and new biological informatio  them on an animal group for which a web taxonomy is already available. finally, we shall work w
11041	1	ss. corrections for missing portions of phylogeny are possible, and these provide a clearer pic
13889	2	will cover all aspects of harmful algal ecology, distribution, physiology, phylogeny, environme  lgal ecology, distribution, physiology, phylogeny, environmental consequences and mitigation of
7250	1	a of ​​biodiversity numerous scientific ecology work provide a better understanding what are th
14154	1	the applicant has previously researched ecology and management of birch and aspen plantations c
15084	1	lation size ne, an essential concept in conservation biology and a basic parameter in many mode
14679	3	sting physiological characteristics and ecology. understanding the ecology of extreme environme  eristics and ecology. understanding the ecology of extreme environments may provide insight int  ities that inhabit it. uderstanding the microbial ecology of extreme environments may provide n
13325	1	physical oceanography, microbiology and biogeochemistry, so that the generic relationship betwe
2125	1	cesses, the mini-ecosystem lichens, the ecology of microbes, for our global genetic resources,
15004	1	tion on their biodiversity. even if the phylogeny of the charipinae has been recently studied a
2135	1	ll of which profoundly would affect the ecology of fish. the objective of this proposal is to e
11333	1	f concurrent studies on modern peatland ecology and fire will provide generic skills training a
10234	1	ows us to address two further issues in ecology - the adaptive significance of variation in gal
10433	1	ows us to address two further issues in ecology - the adaptive significance of variation in gal
10018	3	particularly important in evolutionary ecology, as this allows us to understand how individual  tly, logistically daunting questions in ecology. we have three objectives: 1. to understand the   tits, and will address the fundamental ecology of avian malaria in a wild bird population, whi
10290	3	particularly important in evolutionary ecology, as this allows us to understand how individual  tly, logistically daunting questions in ecology. we have three objectives: 1. to understand the   tits, and will address the fundamental ecology of avian malaria in a wild bird population, whi
14182	1	due to their size and well-established taxonomy. increasing diversity of primary producers enh
196	4	the proposed project will focus on phylogeny and evolutionary ecology of the representativ  ill focus on phylogeny and evolutionary ecology of the representatives of the ascomycete family  genetic trees. besides the evolutionary ecology context, the work will also result in solving s  o elucidate the species composition and ecology of the genus russula in estonia. although playi
13845	1	s in population genetics are pivotal to conservation biology. first, the amount of genetic vari
10965	1	ng, combined with established molecular ecology techniques, including cloning and sequencing of
10911	1	ystem, of profound importance to global biogeochemistry and climate. photoheterotrophic prokary
10980	1	ystem, of profound importance to global biogeochemistry and climate. photoheterotrophic prokary
10488	2	ved understanding of west indian mammal ecology will then show whether it is also possible to i  understanding of the region s pre-human ecology can then suggest appropriate methods of restori
13796	2	e, behavior of free-ranging animals and landscape ecology. during the proposed project i create  ction, prey anti-predator behavior, and landscape ecology to assess the effects of both environ
11081	1	ject will contribute new information on taxonomy and to sequence databases of reef organisms.
15301	1	trying to provide more insights on the phylogeny, coalescence times, and phylogeography of tho
10100	2	tanding of hydrothermal fluxes in ocean biogeochemistry, the cooling of ocean crust along the e  reading ridges and to the evolution and biogeography of vent-specific fauna. the analyses will
7047	3	to clearly define and characterize the taxonomy and systematic position of the species, to be   s been known about the biodiversity and ecology of the genus above soil level. hypocrea teleomo  proposed to to analyze and document the ecology of the species collected.
14984	1	. to complete the information about the ecology and distribution of each taxa, and to carry out
14986	1	+ to complete the information about the ecology and distribution of each taxa, and to carry out
14486	1	on - will be studied to reconstruct the phylogeny based on this information.
15480	3	f phylogenetic relations to clarify its taxonomy, or simply to help us, across sequence analyse  t genes for the better knowledge of the taxonomy and phylogeny of our hyphomycetes. also with t  he better knowledge of the taxonomy and phylogeny of our hyphomycetes. also with the aim to pre
10616	1	ortant insights into the forces driving ecology and evolution in future larger follow up studie
13886	1	restoration ecology has difficulties in developing ecological resto
10567	1	into how ice loss may affect the marine ecology of this sensitive region, and will help to pred
11147	1	her more information about methanotroph ecology in the arctic through work next summer, much la
7536	1	have been well characterized for their ecology. we want to make an initial inventory of the ge
11818	1	ntrols of seafloor geometry on deep-sea biogeochemistry and biodiversity.
10032	3	water quality of the river and also its ecology: so much so that the hyporheic zone has been as  that could be important controls on the ecology of groundwater-fed rivers because they either r   converts nitrate, which can damage the ecology of a river where it is present at high concentr
11842	3	water quality of the river and also its ecology: so much so that the hyporheic zone has been as  that could be important controls on the ecology of groundwater-fed rivers because they either r   converts nitrate, which can damage the ecology of a river where it is present at high concentr
13885	1	species, the results can be applied to conservation biology in order to model rare and endange
10789	1	roups, a scientific discipline known as phylogeny reconstruction. earlier methods relied on the
13745	2	data sets on climate, snow-melt, plant ecology, etc. our efforts in landscape ecology has gene  elt, plant ecology, etc. our efforts in landscape ecology has generated a detailed gis-based ve
14596	1	s, the research progress on restoration ecology are remarkable. however, three major lacks are
14719	1	s, the research progress on restoration ecology is remarkable. however, three major lacks are c
11037	1	understanding of many aspects of their ecology, because detailed data exist and because they h
11566	1	understanding of many aspects of their ecology, because detailed data exist and because they h
10151	1	ehaviour has important implications for ecology, evolution . this information is essential to m
11419	1	ehaviour has important implications for ecology, evolution . this information is essential to m
11771	1	ehaviour has important implications for ecology, evolution . this information is essential to m
1967	1	remains one of the major challenges in ecology. recent advances in ecological theory have poin
154	2	a central issue in ecology is to understand how environmental factors infl  ogical processes thus being valuable in conservation biology. anthropogenic factors change habi
10962	1	on ecosystem function and global carbon biogeochemistry. we propose to investigate the effects
13924	2	rely heavily on the systematics and the taxonomy that is available for the organsim group in qu   therefore of great importance that the taxonomy rests on solid ground and that it is easily av
13475	1	at different levels in insect chemical ecology, ethology and evolution, from single molecules
6943	2	hus, this research will further advance conservation biology and ecology in hungary. one beginn  urther advance conservation biology and ecology in hungary. one beginning-level postdoc, two ph
7201	1	pathology, nematology, epidemiology and ecology to provide a set of management tools telluric p
13810	1	threatened species, focusing on the eel ecology in lakes. our project includes investigations o
12542	3	arcoding is emerging as a power tool in taxonomy research with potential applications in biodiv  potential applications in biodiversity, ecology and epidemiology. the main aim of the current p  n provide separately in modern fusarium taxonomy. the project will utilise the fusarium species
14830	2	y, population structure and behavioural ecology of podarcis filfolensis, another endemic lacert  ptive responses in terms of behavioural ecology traits and their phylogeographical patterns. we
14831	2	y, population structure and behavioural ecology of podarcis filfolensis, another endemic lacert  ptive responses in terms of behavioural ecology traits and their phylogeographical patterns. we
15082	9	scribe these faunas. on the other hand, taxonomy as a science is nowadays at a crossroads, havi  e, for example, the growing gap between phylogeny and classification, the apparent mismatch of   nomic lists, and the lack of support to taxonomy in academic circles. undoubtedly, some problem   itself. this project is, above all, on taxonomy, systematics, and phylogeny of andean amphibia  bove all, on taxonomy, systematics, and phylogeny of andean amphibians and reptiles, but aims t  ntribute to the debate on the crisis of taxonomy too. the goals are to: 1 make a substantial co  n to the knowledge of the diversity and phylogeny of selected groups of tropical amphibians and  and possible solutions to the crisis of taxonomy. the expected results and benefits are: the di  ment of the debate on the crisis of the taxonomy and the possible solutions to this crisis.
13800	1	in collaboration with experts in plant ecology, mycology and entomology.
15500	3	ffers a suitable field for the study of phylogeny and biogeographic patterns. its members are f   systematics and several aspects of the biogeography of these mosses. namely, the use of molecu  ing an answer to classical questions in biogeography that underlie this indetermination, such a
10707	1	s in climate system models but coupling biogeochemistry, chemistry and the human management wit
11468	2	the fields of infectious epidemiology, ecology, stochastic modelling, mathematical biology and  d extend its impact in epidemiology and ecology.
14502	1	ewok of this project are the studies on ecology and conservation of the species in which we hav
15067	1	developed a project about the molecular phylogeny of the genus aeromonas. this study has allowe
2512	1	re integrates nearly all aspects of the ecology of a species, and knowledge of the factors limi
15322	1	ir phylogeography, population genetics, ecology, and also of their adaptive responses to the ne
12151	1	metry research methods. the data of the ecology of raccoon in neighboring countries will be ana
10011	1	l-established postgraduate programme in conservation biology at dice, including those dealing w
14840	1	on the life history and the population ecology of mosquitofish and its invasive success.
12622	1	structure established by the centre for ecology and hydrology for their carbon catchments progr
168	1	considerable experience of our group in ecology of terrestrial orchids and clonal plants, and a
11009	1	old is a central topic in evolutionary ecology. since bodies self-repair, why cannot every org
11232	1	old is a central topic in evolutionary ecology. since bodies self-repair, why cannot every org
12423	1	for example: marine mammals; cold water ecology and biodiversity; and, socio-economic factors i
2524	1	orest management and fragmentation. the ecology and distribution of many dead-wood dependent fu
2074	3	-disciplinary modeling involving forest ecology, forest history, archaeology, quantitative pala  tive palaeoecology, population biology, economics, and stake holder involvement. observationall  ment, timber logging, grazing pressure, economics, and human well-being. the project will there
2087	3	-disciplinary modeling involving forest ecology, forest history, archaeology, quantitative pala  tive palaeoecology, population biology, economics, and stake holder involvement. observationall  ment, timber logging, grazing pressure, economics, and human well-being. the project will there
13986	3	g human and physical geography, systems ecology and more empirical ecology. the overall objecti  phy, systems ecology and more empirical ecology. the overall objective is to understand how pas  odiversity conservation and theoretical landscape ecology in all types of landscapes.
10123	1	s existing understanding of the saiga s ecology and movement patterns in relation to rangeland
14121	1	a major challenge in ecology is to explain the patterns of biodiversity and
14621	1	lationship between genetic distance and taxonomy in different groups. at intra-specific level,
7654	1	ntification and analysis of territorial ecology practices engaged. conduct social foresight ana
14155	1	al in understanding of the dynamics and ecology of these habitats. in this study, we aim at est
2010	1	l life history and its influence on the ecology of individual organisms. these ecologically mec
2457	1	w some fundamental differences in their ecology, which may be reflected in their life history p
13926	2	of patterns and processes in population ecology and evolutionary biology. it is also highly rel  hly relevant for more applied fields of ecology such as pest management, conservation and manag
12228	1	improved understanding of weed biology, ecology and adaptation in agroecosystems is a basic req
14720	1	s, the research progress on restoration ecology are remarkable. however, three major lacks are
7194	1	nce the understanding of the functional ecology of microbial actors involved in the degradation
11404	1	ct ecophysiological characteristics and ecology.
1975	1	for many years, ecology was dominated by studies of communities focussi
10085	1	h have a similar form, architecture and ecology. because of these similarities among species, i
2023	1	he main gap in our understanding of the ecology of microorganisms and the role that microorgani
2044	2	ersity. in the last decade the field of macroecology has been put in the forefront of ecology.   cology has been put in the forefront of ecology. this approach emphasizes the study of empirica
15229	2	and 4.- to test and improve the current taxonomy of the groups concerned. this project will pro   firm basis for improvements in reptile taxonomy and conservation. it will also make an excelle
14548	2	relationships have been of interest in ecology since de candolle and nowadays its a fundamenta  nowadays its a fundamental construct of biogeography. it is widely believed, at least among bio
2120	1	e. moreover, cross-fostering is used in conservation biology as a method to save endangered bir
12445	1	understanding of population biology and ecology for key species of commercial interest. specifi
183	3	macroecology is a newly defined scientific branch betwe  newly defined scientific branch between ecology, evolution and biogeography, aiming to clarify   c branch between ecology, evolution and biogeography, aiming to clarify ecological processes us
10159	1	birds to answer many large questions in ecology and evolution. such questions include how their
15407	1	tion is a central issue in evolutionary ecology, yet several aspects concerning its significanc
11059	2	ng than has so far been possible of how ecology and environments shape the evolution of biodive  hysical dimensions can be measured, and ecology inferred from chemical analysis. the sediments,
11304	2	ng than has so far been possible of how ecology and environments shape the evolution of biodive  hysical dimensions can be measured, and ecology inferred from chemical analysis. the sediments,
181	3	es in the tribe empriini, resolving the taxonomy of the presumably cryptic species groups, and    these groups in the light of molecular phylogeny. - resolving the taxonomy and nomenclature of  of molecular phylogeny. - resolving the taxonomy and nomenclature of most critical cryptic spec
13718	1	hes, ecological approaches, terrestrial biogeochemistry, and modeling to address problems from
9997	1	, we will combine the traditional river ecology expertise of hildrew and woodward, with the sta
167	1	arried out in the many areas of spatial ecology are not based on experimental manipulations but
10245	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
10512	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
11471	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
11520	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
11796	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
9981	1	tial to reproduce more faithfully ocean biogeochemistry and how it will respond to changes in c
13833	1	t will integrate marine and terrestrial ecology to examine the magnitude of marine inflow on sh
11370	1	robes based on key enzymes to study the ecology of dms oxidising marine bacteria.
2469	2	ishment of interglacial conditions, the biogeography of west europe became one where a successi   study period. in addition, the trophic ecology of each target species will be investigated in
10140	1	scientific research as examples: ocean biogeochemistry and the forecasting of rain.
11810	1	scientific research as examples: ocean biogeochemistry and the forecasting of rain.
10366	1	tudents with broad research training in ecology, evolution and conservation. emphasis is placed
11827	2	my research lies at the interface of ecology and evolution and is focused around two key que  round two key questions in evolutionary ecology: what determines species diversity and how did
2464	1	t have been understudied in behavioural ecology. we also aim to explore consequences from a rec
11291	2	nts a fundamental issue in evolutionary ecology, assume that social behaviour is influenced by   ing a fundamental issue in evolutionary ecology, this proposal is novel, because the heritabili
218	2	e results will improve understanding of taxonomy of the m. falcata/m. sativa complex and proble  e to the solving of actual questions of taxonomy and protection measures.
14165	1	ncast oil shale mining is preferred for economics and social reasons and it is considered that
10887	1	this would change our perception of the ecology of such commonplace habitats. hence, our propos
15373	1	besides, many studies focused on their ecology, physiology, metabolism, genetics or biotechnol
10633	1	studentship will focus on the community ecology of microbial infections within the lungs of cys
15475	1	light on the bacterial species concept, biogeography, ecological functioning and evolutionary m
11734	1	o video evidence to determine the micro-ecology of vent gastropods in relation to temperature a
6900	1	based on the traditional morphological taxonomy of millipedes, include a taxonomical groundpla
15356	2	natural history onto the reconstructed phylogeny. in addition, a molecular clock will be calib  . finally, we will reconstruct the main phylogeny of gastropoda, by adding the new sequences to
438	2	velop interdisciplinary studies between conservation biology and bio-economics. through the con  es between conservation biology and bio-economics. through the contract, an inter-disciplinary
11838	1	portance of spatial pattern for savanna ecology, and will help define which processes must be i
13763	1	odiversity conservation and theoretical landscape ecology in all types of landscapes.
6967	1	importance as a baseline of vegetation ecology. they can form the basis of climate change mode
7154	2	complementary specialties: mathematics, economics, ecology, fisheries, animal husbandry and agr  ry specialties: mathematics, economics, ecology, fisheries, animal husbandry and agronomy
15423	2	sting physiological characteristics and ecology. the tinto river is an extreme environment with  avy metal conditions. understanding the microbial ecology of extreme environments may provide n
11299	2	any oomycetes seriously impact upon the ecology of natural populations. in coastal marine ecosy  thogenicity, biology, epidemiology, and ecology of e. dicksonii. as part of the oceans 2025 cor
11540	2	any oomycetes seriously impact upon the ecology of natural populations. in coastal marine ecosy  thogenicity, biology, epidemiology, and ecology of e. dicksonii. as part of the oceans 2025 cor
11344	1	t and with guidance from the centre for ecology and hydrology, windermere, we plan to analyse c
10186	3	ural sources. little is known about the biogeochemistry of this potent ozone-depleting trace ga  nt ozone-depleting trace gas. molecular ecology techniques will be developed and used to examin  ng bacteria will be used to examine the ecology of these bacteria in laboratory based mesocosm
7304	1	chromosomal phylogeny of monkeys has shown that the evolution of th
10104	1	h proposal are to establish a dna based phylogeny of the lucinidae in order to interpret the ev
15007	1	phylogeny and phylogeographical analyses are basic tool
14912	2	three phylogenetic important questions: phylogeny of heterobranchia, and the monophylies of opi   natural history onto the reconstructed phylogeny. finally, molecular and morphological phyloge
14811	1	ect we try to set up a robust molecular phylogeny of the subfamily chrysomelinae based upon the
14631	4	d inside this family mostly because its taxonomy is based on shell morphology and the anatomy o  tem and associated organs. to propose a phylogeny of the helicodontidae based on the sequences   which have been used in the traditional taxonomy. we want also to characterize by molecular met  ies in the oestophorinae, to know their phylogeny as well as the validity of several undescribe
15030	4	e this superfamily mostly because their taxonomy is based on shell morphology and the anatomy o  iated reproductive organs. to propose a phylogeny of the helicoidea based on the sequences of d  phological data used in the traditional taxonomy. we will use different phylogenetic inference   the molecular information to update the taxonomy of the w-mediterranean sphincterochila species
12403	2	combined with analytical chemistry and ecology, provide powerful investigative tools for asses  s e.g. physical changes that may impact ecology. this project has 5 main aims: 1 develop a road
14451	3	of the project are the investigation of taxonomy, ecology, distribution, and economic importanc  ject are the investigation of taxonomy, ecology, distribution, and economic importance of four    data and analyses of the distribution, ecology, economic importance, and conservation signific
10393	2	vanced research training in fundamental ecology and environmental science, and in the integrati  into environmental management. the mres ecology and environmental management is an inter-discip
10857	2	s based on the existing nerc-funded msc ecology programme at the university of aberdeen , aims   e training for research on the biology, ecology and sustainable management of biological resour
10110	1	rphological and molecular techniques of taxonomy and systematics, and experience with computer
10871	1	to the hard science of biodiversity and ecology. this grant supports 4 full studentships for th
10864	2	, integrating science, technology, law, economics, policy and management, with an in-depth educ  ement, water management, energy policy, environmental economics and policy, business and the en
11639	2	the aim of the msc in applied ecology and conservation is to provide a flexible cours  ssary for a range of careers in applied ecology and conservation. this grant supports six full
11549	1	al zone ; the importance of integrating ecology with hydrological and geomorphological aspects;
11649	1	al zone ; the importance of integrating ecology with hydrological and geomorphological aspects;
13974	1	l also provide new insights into fungal ecology and evolution, and contribute to our better und
13735	2	and methods from community and systems ecology, ecotoxicology and molecular biology. effect va  ods from community and systems ecology, ecotoxicology and molecular biology. effect variables a
15355	1	as two general objectives, one of basic ecology and a more applied one. first, we study the int
10282	3	es a real success story in the study of ecology has been the long-term studies of mammals and b  ress some key questions in evolutionary ecology: 1. do males depend more on their ability to ge  ogy which is that we can do behavioural ecology in the lab.
9932	1	that no inference can be made about the phylogeny of the organism from secondary metabolite seq
11839	1	lutionary biology, animal behaviour and ecology.
14452	1	national joint projects in the field of ecology, environment protection, and the application of
13613	1	of great interest in both the field of ecology, and in the forest industry. we plan to use a v
14640	1	h tool in the fields of systematics and phylogeny. this project has two basic objectives. first
10291	1	cant gap in our understanding of global ecology and the functioning of the earth system.
11285	1	cant gap in our understanding of global ecology and the functioning of the earth system.
12402	1	try changes and their effects on marine biogeochemistry, ecosystems and other components of the
14635	1	kinds of objectives: a.- descriptives - taxonomy of amphipoda, isopoda, syncarida and hydracnid
10020	3	changes with ontogeny, life history and ecology. 2. parameterise this model using existing empi   five issues: a the effects of external ecology on investment in defence b the relation between  nvestment in defence d the evolutionary ecology of sequestering versus synthesising of toxins e
11044	3	changes with ontogeny, life history and ecology. 2. parameterise this model using existing empi   five issues: a the effects of external ecology on investment in defence b the relation between  nvestment in defence d the evolutionary ecology of sequestering versus synthesising of toxins e
13601	1	atch ecosystem needs by developing flow-ecology response curves for variables representing stru
15057	1	towards studying the diversity and the biogeography of species of the genus halomonas in diffe
15138	2	stly, the position of these taxa in the phylogeny of the digenea will be determined by using mo   this will require the elaboration of a phylogeny of these groups, based on molecular markers a
14414	1	30 researchers and 20 phd-students from ecology, agronomy and economy. we welcome you to browse
14757	2	on theoretical and applied problems in ecology, evolutionary biology and conservation biology.  ms in ecology, evolutionary biology and conservation biology.
15123	1	of iberia , and several corollaries for conservation biology.
15061	3	a central theme in community ecology is the search for principles accounting for the  n contribute substantially to community ecology, fisheries, biology conservation, evolutionary    conservation, evolutionary biology and biogeography. by focusing on parasite communities of mu
10782	1	mplications for marine productivity and biogeochemistry of the improved description of phytopla
11318	1	mplications for marine productivity and biogeochemistry of the improved description of phytopla
13841	3	isciplinary merging geography and plant ecology. present-day plant species diversity and patter  te to bridging some of the gaps between landscape ecology and the more empirical ecology.   andscape ecology and the more empirical ecology.
2187	1	lation processes of general interest in conservation biology, i.e. how population viability is
15387	1	oundbreaking in that it combines modern landscape ecology, phylogenetic comparative and genomic
15492	1	new insights in our knowledge about the ecology and evolution of allopatry identification of co
10409	2	nd climate on peatland biodiversity and biogeochemistry. the importance of species diversity fo  elop bio-indicators of risk to peatland ecology and functional integrity caused by elevated nit
13611	2	nd climate on peatland biodiversity and biogeochemistry. the importance of species diversity fo  elop bio-indicators of risk to peatland ecology and functional integrity caused by elevated nit
15571	2	nd climate on peatland biodiversity and biogeochemistry. the importance of species diversity fo  elop bio-indicators of risk to peatland ecology and functional integrity caused by elevated nit
15220	1	this context, understanding the feeding ecology and the spatiotemporal dynamics of seabirds is
7226	2	e the role of geographical barriers and ecology in the process of differentiation. the indian o  ticularly in the taxonomic groups which biogeography is now better understood. we propose in th
467	2	e the role of geographical barriers and ecology in processes of differentiation. the islands in  oups for which the understanding of the biogeography is henceforth improved. in this project we
14953	2	it constitutes a challenge for current ecology dissecting and outlining with enough detail the   ecosystems or, in other words, between biogeochemistry and population dynamics. in lakes much
11347	1	cial behaviour, life-history theory and conservation biology.
14930	3	aches. first, we will build a molecular phylogeny at the species level, to identify the origin    unique or multiple. by calibrating the phylogeny with geological events it will be possible to  rigin of the developmental changes. the phylogeny will then be used to identify closely related
10598	2	umber and area is a dominant pattern in macroecology. neither phenomenon is fully understood. w   to the synthesis of macroevolution and macroecology.
10087	1	tion, the origin and spread of disease, conservation biology, and the history of the movement o
14844	4	this proposal will study the phylogeny and evolution of earthworms belonging to the   d as diagnostic characters in earthworm taxonomy. however, for many species, the spermathecae s  c. the establishment of the lumbricidae phylogeny will allow us to study the evolution of the s  framework and their implications in the phylogeny of the group. we will apply phylogenetic meth
15014	1	sequence that help to interpretate the phylogeny of the group.
10971	1	one of the enduring problems of ecology is to explain the processes which govern the as
14454	1	ructures on the basis of the elaborated phylogeny 5. analysis of the distribution of the parasi
2066	3	historical biogeography conjectures that cladogenesis, the origins  lora, and will advance knowledge of the phylogeny and taxonomy of a species-rich and ecological   advance knowledge of the phylogeny and taxonomy of a species-rich and ecologically important l
155	1	rpose of the project is to describe the phylogeny and dispersal trajectories of baltic sea regi
15196	1	gh it has been extensively studied, the phylogeny of the tribe cariceae is not completely resol
200	2	analyse brown bear third topic involves phylogeny reconstruction of the tapeworm genus echinoco  articular attention will be paid on the phylogeny of different strains of most life-threatening
14793	1	the project is aimed to study the phylogeny and the phylogeography of the subgenus mesoca
7399	1	we propose to produce a fine and robust phylogeny based on protein-coding genes, and using popu
7597	1	we propose to produce a fine and robust phylogeny based on protein-coding genes, and using popu
15010	2	t nuclear markers that can be useful in phylogeny. to do this, we will select 100 introns of fa  fulness of these introns for studies of phylogeny and speciation of a well-known species group,
14542	1	ers. if possible, a consensus molecular phylogeny will be reached and compared to phylogenies b
15329	2	able environments: the classical island-biogeography theory, the classical metapopulation theor  tion theory, and approaches coming from landscape ecology. in this context, our aim is to provi
15326	1	ountries and will allow to build a deep phylogeny of all mitochondrial lineages to investigate
6886	1	tems in many subject areas ranging from ecology to the evolutionary biology. a number of specie
13946	1	systematic studies on the biogeochemistry of fe and mo are necessary to be able t
12734	1	oint project or series of projects with economics division and clg to provide the evidence need
14211	1	ject challenges an existing paradigm in ecology and our findings can be used in nature conserva
15506	1	amage. burning modifies the morphology, taxonomy and phylogenetic structure of plant communitie
12527	1	ure years and especially in areas where taxonomy which underpins diagnostic capabilities. this
10549	1	complementary expertise: the centre for ecology and hydrology . the hordeivirus can be pollen-b
11047	1	complementary expertise: the centre for ecology and hydrology . the hordeivirus can be pollen-b
475	2	nd climate on peatland biodiversity and biogeochemistry. the importance of species diversity fo  elop bio-indicators of risk to peatland ecology and functional integrity caused by elevated nit
12028	1	ics, proteomics, breeding, systematics, ecology and evolution have interacted in order to uncov
14820	1	must be noted that this project merges ecology and genetics for the study of the population bi
6745	2	ethods. the investigation of population-ecology and metapopulation structure of these rodents a  the project we will know more about the ecology of these rodents and we will able to give sugge
15328	3	in microbial ecology, the biomass, activity and ecological  y without molecular tools, which use in microbial ecology is relatively recent. one of such mic  s in nature. focusing on the population ecology of a few model species provides a unique possib
6802	2	se approaches rarely meet adequately in ecology. in the analysis of food webs describing inters  tone species, which is a key problem of conservation biology.
11163	1	e mixture of human actions, climate and ecology has effectively evolved to the state that we se
11454	1	data from our 50-year study of fulmar ecology have shown that variations in the north atlanti
13883	1	idemiology but has never been tested in ecology. the second method is for modelling dynamics be
1956	1	may stimulate further research into the ecology and evolution of specialists and generalists an
14518	1	mation about avian community structure, ecology of two key species, habitat structure, phenolog
14818	1	zeri is a relevant bacterial species in microbial ecology, due to their relevant physiological
15348	2	tention to chromatic patterns, chemical ecology and cases of convergent evolution stemming from  l and plate tectonics in confirming the phylogeny of different taxa. we propose several seconda
11141	1	nalytical principles and the linking of soil ecology to the construction industry. finding a wa
15452	1	osts. thus, understanding host-symbiont ecology is key to understanding how biodiviersity is su
10576	1	a major influence on the structure and ecology of shallow water coral reefs. this occurs throu
11034	1	roups, regardless of latitude, depth or biogeography. few of these groups have excellent fossil
14973	1	ning, thus combining two main topics in ecology and conservation. the main goals of this projec
15425	1	ple genes represent a paradigm shift in phylogeny because they introduce concepts of population
10785	1	he composition, community structure and ecology of the herefordshire fauna, and comparison of i
11065	1	he composition, community structure and ecology of the herefordshire fauna, and comparison of i
11833	1	he composition, community structure and ecology of the herefordshire fauna, and comparison of i
11642	2	pertise with marine skills in microbial biogeochemistry, flow cytometry, molecular ecology of c  geochemistry, flow cytometry, molecular ecology of cyanobacteria combined with terrestrial back
11088	1	a major topic in evolutionary ecology is the evolution, by kin selection, of conflict
11859	1	e site will focus on characterising the ecology and hydrology and classifying the bog surface i
9805	1	nding and expertise in the genetics and ecology of speciation to problems which have world impo
11156	1	d still remains an outstanding issue in ecology, and especially in a conservation context. envi
13759	1	ilience of coastal ecosystems, and that ecology and management therefore must be scaled up. in
10256	1	d their impact on both host and disease ecology is crucial.
11267	1	d their impact on both host and disease ecology is crucial.
15442	1	tthere is an increasing demand to ecology to predict the effects of anthropogenic alterat
11500	1	nagement, which is novel in restoration ecology. the approach, when adopted elsewhere, will imp
15357	2	s project proposal combines restoration ecology with the emergent field of studies related to e  pplications in the field of restoration ecology and forest management.
7615	1	eau. we propose to continue research in conservation biology to determine the ecological succes
7526	1	is project proposes the revision of the taxonomy of the genus daucus, combining morphological a
7527	1	mmunity is trying to understand, in the conservation biology, the processes related to the decl
10790	1	rs impact pmmo expression, methanotroph ecology, and methane oxidation rates in geochemical set
11213	2	this project lies in the combination of phylogeny-based evolutionary genetic analysis of select  n adaptation to major shifts in species ecology. it should also provide an important example of
10855	1	been learned about the distribution and biogeochemistry of iron in recent years, but the abilit
11474	1	is more commonly applied in macro-scale ecology. the model as it stands assumes self-similarity
10841	1	hypotheses relating to the behavioural ecology of the hawksbill turtle at two sites in the car
14622	1	acterium; b those micro organisms whose ecology is similar, so they can survive and growth in t
228	1	of articles have been produced on their taxonomy and population biology. still, early stages of
14226	1	n to the knowledge on the distribution, ecology, phylogeography and coevolution of selected myc
10283	1	emically-active biogases. therefore the biogeochemistry of the oceans is the consequence of mic
10209	1	sly unexplored aspects of evolution and ecology in this economically-important group of fish pa
10017	1	ource of information on many aspects of ecology and evolutionary biology. in the first and majo
14206	3	work with behavioral and physiological ecology and demography in birds and mammals. twenty-eig  owledge that exists on the behavior and ecology of gray-cheeked mangabeys from earlier studies   bring together experts in the fields of ecology, behavior, physiology, wildlife veterinary, bio
12620	1	ty, adas consulting ltd, the centre for ecology and hydrology, the british geological survey an
15148	2	niques for determining the quantity and phylogeny of the enzymes beta-glucosidase, diphenoloxid  l, gene expression and the quantity and phylogeny of the enzymes beta-glucosidase, diphenoloxid
10556	1	the rapidly emerging field of chemical ecology, this study helps in two key areas of uk insect
11286	1	the rapidly emerging field of chemical ecology, this study helps in two key areas of uk insect
15263	1	understanding of the basic biology and ecology of the little bustard at different spatial scal
13461	3	spatial and social ecology are important aspects in understanding the ecol   important aspects in understanding the ecology of animals due to its influence on population s  ynamics. in territorial species, social ecology can explain territorial dynamics, distribution
2113	2	will then be used to study the spatial economics of the species and how this may vary through   ated through researchers working on bio-economics at huc and a large mammal group at nina in tr
10541	2	it has been a core theme in population ecology for decades, not least because it is pivotal to   will provide general insights into the ecology of dispersal, an understanding of how dispersal
11748	1	or a 12 month secondment to work in the ecology division at the university of stirling. i inten
15273	1	onstraints of point pattern analysis in ecology. in order to test most of the raised hypotheses
10308	2	blem. one of the earliest hypotheses in ecology, the competitive exclusion principle states tha  e applied to such difficult problems in ecology. my proposed research will have two main object
11406	2	blem. one of the earliest hypotheses in ecology, the competitive exclusion principle states tha  e applied to such difficult problems in ecology. my proposed research will have two main object
15282	1	ur research team, so we have an initial phylogeny that we aim to complete , and the appearance
2128	1	complementary expertise in bark beetle ecology, modelling and biological invasions . the budge
11626	2	roposed to generate the first molecular phylogeny for the circumtropical, species-rich, broadca   museum collections. the combination of phylogeny and distributions will be used to answer four
204	1	in combination using modern methods of phylogeny. morphological characters will be evaluated a
6957	1	help us to clarify their species level taxonomy. in male song characters that are likely to co
14771	1	discovered and the biological data and taxonomy of species usually not studied the risk of tra
7023	3	tem functioning by explicit coupling of microbial ecology and community structure to biogeochem  bial ecology and community structure to biogeochemistry. despite considerable advances in biodi  , environmental microbiology, genomics, biogeochemistry, and advanced mathematical modelling. r
15144	1	ize sex chromosomes, and also about the phylogeny of the arvicolids. another striking feature i
10799	1	iment has far-reaching implications for microbial ecology by demonstrating how colonisation dyn
15124	2	t persists concerning their role in the ecology and evolution of pollination systems. generaliz  tical approach widely used in community ecology to understand the ecological and genetic factor
15317	1	h allows users a whole knowledge of the taxonomy, nomenclature, distribution, and habitat of th
7253	1	empirical studies and dialogue between ecology, geography and sociology. stéphanie manel, maga
7599	1	is a potential candidate to improve the taxonomy of pseudomonas and define ecotypes.
15336	2	cosystems as essential habitats trophic ecology studies to know their habitat dependence. the c  ase in the knowledge of the biology and ecology of some of these species, which are highly vuln
15377	2	ibed, providing information about their ecology, biogeography and about the ecological communit  viding information about their ecology, biogeography and about the ecological communities they
14908	1	h allows users a whole knowledge of the taxonomy, nomenclature, distribution, and habitat of th
13431	1	genetic structure and taxonomy of anadromus and nonanadromus pearl mullet pop
13486	1	merging two core fields in contemporary ecology. the first relates to productivity and environm
2045	2	ur expertise is in the fields of marine ecology and international law; we expect to collaborate  borate with another project on resource economics of marine exploitation. based on these studie
14474	1	in the alicante mountain area, from the landscape ecology approach will be maintain., this proj
12732	1	trends in abundance and distribution b.taxonomy c.autecology 3.involve collaboration with rele
221	1	n to the knowledge on the distribution, ecology and phylogeography of the tribe in the holarcti
14725	1	be used to address new aspects in plant ecology as the importance of evolution in the assembley
15429	3	the charipinae, mainly focusing on the phylogeny and biogeography of the entire group and the   e, mainly focusing on the phylogeny and biogeography of the entire group and the biodiversity a  e entire group and the biodiversity and taxonomy of the genera with lowest species richness. du
13803	1	t with the best supported hypotheses of phylogeny, using specimens from this survey and applyin
14769	2	n there are numerous cases in which the taxonomy at species level and the relationship among sp  ect are: 1º accomplishment of molecular phylogeny in a series of chosen iberian species of form
15235	1	esearch jobs in the field of polychaete phylogeny, be it dealing with syllidae or any other fam
11623	3	re easily accessible information on the taxonomy of plankton. plankton scientists from several   rdeen, propose to develop and produce a taxonomy manual for ready use. various such experts hav  , distributions, abundances and general ecology. the format and output will be standardised and
14921	1	roject of flora briofitica iberica. the taxonomy and systematics of the genus orthotrichum has
14489	3	in the territory studied. moreover, the phylogeny of the three genera studied and related gener  llow users a whole knowledgement of the taxonomy, nomenclature, distribution, habitat and phylo  nomenclature, distribution, habitat and phylogeny of these three genera.
14571	2	jective of this project is to study the taxonomy of catapyrenium, endocarpon and placidiopsis g  . to complete the information about the ecology and distribution of each taxa, and to carry out
14861	1	ies under study. 4.- obtain a molecular phylogeny of the genus lycosa using both mitochondrial
14890	2	sy to use for ecologists non-experts in taxonomy, will be also given. the first phylogenetic an  will be also studied and experiments in ecotoxicology will be conducted to validate the use of
2090	3	we propose to combine traditional taxonomy based on detailed morphological analyses with   lmost 100 years. the result is that the taxonomy of calcareous sponges in the atlantic and arct  l to provide corroboratory evidence for phylogeny based on morphological hypotheses. basically
14796	1	ject is to complete a wide study on the taxonomy of the european and north african heathers bas
7704	1	n: family farming, peasant agriculture, agroecology and multiple forms local rural development
14213	1	as a result of the study, knowledge of ecology of ta communities will be complemented and loca
10026	1	earch into ageing, including population ecology, evolutionary biology, veterinary and medical s
10303	1	st species is expected to influence the ecology and evolution of transposable elements within g
10421	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
10663	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
10685	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
10914	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
11692	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
9897	2	al and longer term variability in ocean ecology and biogeochemistry within the context of clima  r term variability in ocean ecology and biogeochemistry within the context of climate change. t
10467	1	permanent ice areas. by contrasting the ecology of these three environment types the project wi
10361	1	l questions regarding the evolution and ecology of polyploidy and reproductive systems in plant
11645	1	rate hosts but little is known of their ecology. the main objectives are to screen community dn
11481	1	to a fundamental question in community ecology and also is directly relevant to the management
2144	2	e the role of seed banks in arabidopsis ecology and evolution, with a special emphasis on the r  seed bank characteristics influence the ecology and evolution of arabidopsis.
143	1	e of the fundamental questions in plant ecology - which traits of species, and to what degree,
2024	2	the central concept of individual-based ecology , which states that individual variation actual  g of universal theories and concepts in ecology.
10669	1	ource of information on many aspects of ecology and evolutionary biology, and the proposed gran
10886	1	ource of information on many aspects of ecology and evolutionary biology, and the proposed gran
11865	1	d waste water treatment effluent on the ecology of amoeba associated pathogens. culture depende
177	1	branches of science: mycology and plant ecology, in the field of mineral nutrition of woody pla
12748	1	the european commission initiated ‘the economics of ecosystems and biodiversity. teeb runs to
15141	1	their secretive habits and challenging taxonomy. the promising use of these spiders as bioindi
14161	1	, tillage, agrochemistry, microbiology, agroecology, food and feed quality. the results of this
10614	1	ite life-history strategies on parasite phylogeny and evolution rate to be assessed by comparat
2082	1	cal foundation in stochastic population ecology and data from birds, mammals and marine fishes
13820	1	– and challenge some existing community-ecology theories. the aim of the proposed project is to
10346	1	by developing molecular tools to study taxonomy of malaria parasites, and applying these to sa
14837	3	cle. the first step will be a molecular phylogeny, to identify the origin of the shortened life  independent origins. by calibrating the phylogeny with geological events it will be possible to  rigin of the developmental changes. the phylogeny will then be used to identify closely related
10107	1	function in the context of reproductive ecology.
10645	1	siderable background information on the ecology and behaviour of this beetle. in my laboratory,
2020	1	in the fast-moving fields of molecular ecology and ecological speciation.
14925	3	very small areas is a major question in biogeography, ecology and evolutionary biology, with de  as is a major question in biogeography, ecology and evolutionary biology, with deep implication  plications in the more applied field of conservation biology. invasive species are nothing more
10060	1	nt and novel papers on the evolutionary ecology of a cognitive trait, and an additional technol
11650	1	nance is a central theme in behavioural ecology, rarely have the genetic bases of behavioural t
14215	1	le plots. recent advances in functional ecology, and data availability on species traits and ph
11373	2	mportant consequences for the genetics, ecology and future evolutionary potential of species. n   understanding the breeding biology and ecology of species is essential to their successful man
14216	1	the project will be carried out in the macroecology workgroup of the tartu university, where p
10205	2	ion or dryland cultivation, and how the ecology of early rice fields developed out of that of w  bc. we will then be able to see how the ecology of rice plants changes when people domesticated
11689	1	this proposal falls within the ecology hydrology funding initiative. the lead ceh scie
11845	1	this proposal falls within the ecology hydrology funding initiative. the lead ceh scie
10596	2	new techniques in isotope biogeochemistry will be applied to study archaeological  ect will advance archaeological isotope biogeochemistry in three principal areas: a by applicat
11195	3	ms of their population and evolutionary ecology. for the most part, however, our understanding   erstand the population and evolutionary ecology of host-parasite interactions in the natural wo   with their population and evolutionary ecology. we focus on a well-studied laboratory system c
13985	1	sms. the overwhelming majority of plant biogeography studies have hitherto focussed on seed pla
11553	1	ce. research will utilise the molecular microbial ecology skills developed in professor welling
6949	1	radiation. the project is aimed at the taxonomy, and complex evaluation of the middle triassic
6999	1	as a major breakthrough in the field of microbial ecology, and together with the recognition of
10446	1	mely opportunity to integrate molecular phylogeny, ecophysiology and molecular biology in a gen
10611	1	the central issues of modem population ecology. the development of spatial theory - driven in
11646	1	the central issues of modem population ecology. the development of spatial theory - driven in
518	1	s smuggler concept between agronomy and ecology, which interfora alliances for idea conception
7171	2	the work on the biology and ecology of ludwigia allowed to provide stable grounds o   in the situations encountered, both in ecology of ludwigia quen regarding management needs. in
11346	2	a fundamental concern of both ecology and evolution is the question of how diversity   f a species are key determinants of its ecology. evolutionary transitions between different str
15283	2	team and others, so we have an initial phylogeny that we aim to complete, whereas for others w  as for others we plan to generate a new phylogeny , and the appearance of evolutionary innovati
11879	1	conservation practitioners involved in agroecology, conservation, public engagement and school
15020	1	our understanding of the evolution and ecology of natural environments but also an important r
13781	1	ironmental change. first i will conduct phylogeny-based comparative analyses in order to identi
10419	1	ss males has considerable impact on the ecology and evolution of a population, regulating the e
9866	1	ss males has considerable impact on the ecology and evolution of a population, regulating the e
11277	1	arbon study catchment by the centre for ecology and hydrology. our work will involve measuring
11301	1	arbon study catchment by the centre for ecology and hydrology. our work will involve measuring
11837	1	arbon study catchment by the centre for ecology and hydrology. our work will involve measuring
11238	1	university of york and nerc centre for ecology hydrology, knowledge exchange specialists, and
15111	1	sive about such a change in the trophic ecology of the species during the incubation period. to
2181	1	integrating population, community, and landscape ecology in environmental change research. the
14975	1	ailed sandgrouse . - study the breeding ecology and demographic parameters of both species, and
15086	1	ailed sandgrouse . - study the breeding ecology and demographic parameters of both species, and
1978	1	of animals is one of the main themes of ecology since its early days. the first theory that att
11637	2	ncept has been extremely influential in ecology and conservation biology. however, its importan  en extremely influential in ecology and conservation biology. however, its importance in plants
12539	2	develop a better understanding of virus taxonomy and its subsequent impact on biology. it is al  ure years and especially in areas where taxonomy which underpins diagnostic capabilities. this
11740	1	test relevance to understanding methane biogeochemistry in the modern climate mode. the propose
12730	1	trends in abundance and distribution b.taxonomy c.autecology 3.involve collaboration with rele
10320	2	ing area of research that links to both ecology and evolution. these models will follow the pro   important role in future research into ecology and conservation; i am thrilled at having the c
13888	1	pelagic food web ecology has long been the major paradigm in the study o
2509	1	toxic algae; taxonomy, quantification and early warning. toxalgaehar
14471	1	a comprehensive knowledge of the basic ecology of this interaction. this objective includes an
2482	1	es a novel approach to biodiversity and biogeochemistry, and will adress the important question
10043	1	l be established between the centre for ecology, law and policy the development of a 3-year res
209	1	in field. detailed studies of bryophyte ecology will be performed in laboratory. following hypo
15112	1	insights on the trophic ecology of a population based on the integrative signal
15523	1	this research is to analyze the feeding ecology of two endemic herbivorous of the balearic isla
12052	1	. a multidisciplinary approach: botany, ecology, soil science, geochemistry, genetic, molecular
7159	1	d fauna, pollen and phenological. . the biogeography models predict, and for some to understand
10624	1	titioning of ecm fungi with contrasting ecology in pure culture over a range of c:n ratios, and
11292	1	ely to have far-reaching impacts on the ecology and chemistry of the oceans. certain processes,
12726	1	trends in abundance and distribution b.taxonomy c.autecology 3.involve collaboration with rele
12731	1	trends in abundance and distribution b.taxonomy c.autecology 3.involve collaboration with rele
1964	2	ed one of the most burning questions in microbial ecology: how does nature permit the coexisten  rom microbiology, molecular biology and ecology to investigate the diversity, activity and dyna
9877	1	depth analyses of their physiology and ecology.
15526	1	racteristics that are relevant for fish ecology in a mediterranean context, especially the magn
11725	1	ironment for wildlife, our knowledge of urban ecology is surprisingly poor; furthermore, we kno
15581	1	urban ecosystem services, institutions, economics and resilience science and strive to translat
10542	1	urn periods likely to impact floodplain ecology willbe estimate dand compared to climate-change
15101	1	gh such models have been used widely in ecology and conservation, few models have directly incl
11730	1	ersal biology with the study of spatial ecology, sex ratio evolution and the maintenance of coo
11609	1	ionary history that led to a remarkable ecology dominated by insect, reptile, and bird taxa. to
15022	2	and 4.- to test and improve the current taxonomy of the groups concerned. this project will pro   firm basis for improvements in reptile taxonomy and conservation. it will also make an excelle
10765	1	r, requires that we can constrain their ecology and mode of life. differentiating between benth
10974	3	ublic health, vaccine development, agro-ecology and conservation biology. combining two major c  , vaccine development, agro-ecology and conservation biology. combining two major concepts of e  ning two major concepts of evolutionary ecology i will study how host-parasite coevolution and
10324	1	uggest that an animal s environment and ecology underlie such variation. the proposed research
15237	1	s on the foraging behaviour and trophic ecology in primarily insectivorous bats shiftting towar
144	2	e silurian to the devonian. by now, the taxonomy of silurian thelodonts and anaspids, and of de  ta help to optimize the topology of the phylogeny tree. detailed sedimentological analyses of b
10584	1	possibilities for the study of pathogen ecology. in this proposal we develop and test pcr-based
13854	1	sing world, arranged by the society for conservation biology in new york 30/7-2/8 2004. for the
11136	1	erstood, and its effect on the chemical ecology of plankton and the foraging behaviour of preda
11860	1	global questions about coccolithophore ecology, their role in the marine carbon cycle and thei
10355	1	important insights into tropical forest ecology, as well as greater understanding into the pote
10747	1	important insights into tropical forest ecology, as well as greater understanding into the pote
9976	1	important insights into tropical forest ecology, as well as greater understanding into the pote
13842	1	dence to compare with the mitochondrial phylogeny. we will develop snp markers to study the rel