review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Robert D. Holt | Q30234145 |
P2860 | cites work | Source-sink dynamics shape the evolution of antibiotic resistance and its pleiotropic fitness cost. | Q51705053 |
Using niche-based models to improve the sampling of rare species. | Q51722799 | ||
The effects of density dependence and immigration on local adaptation and niche evolution in a black-hole sink environment. | Q52212338 | ||
Growth and leaf physiology of monkeyflowers with different altitude ranges. | Q53868461 | ||
Allee effects, immigration, and the evolution of species' niches. | Q54791118 | ||
Niche Conservatism: Integrating Evolution, Ecology, and Conservation Biology | Q55896756 | ||
Concluding Remarks | Q55896758 | ||
Limits to the Adaptive Potential of Small Populations | Q56029556 | ||
Ecological niche modelling as a technique for assessing threats and setting conservation priorities for Asian slow lorises (Primates:Nycticebus) | Q56484146 | ||
Predicting the spread of an invasive plant: combining experiments and ecological niche model | Q56773238 | ||
Multi-scale analysis of species introductions: combining landscape and demographic models to improve management decisions about non-native species | Q56773288 | ||
Modelling species distributions without using species distributions: the cane toad in Australia under current and future climates | Q56774004 | ||
The effect of sterilizing diseases on host abundance and distribution along environmental gradients | Q56882978 | ||
Making better biogeographical predictions of species' distributions | Q57014222 | ||
Predictive habitat distribution models in ecology | Q57014283 | ||
Consequences of spatial autocorrelation for niche-based models | Q57021341 | ||
Niche differentiation in Mexican birds: using point occurrences to detect ecological innovation | Q58006394 | ||
PREDICTING SPECIES' GEOGRAPHIC DISTRIBUTIONS BASED ON ECOLOGICAL NICHE MODELING | Q58006441 | ||
Epidemic models used to explain biogeographical distribution limits | Q59057907 | ||
Adaptation to marginal habitats: contrasting influence of the dispersal rate on the fate of alleles with small and large effects | Q74265072 | ||
Emergent properties of conspecific attraction in fragmented landscapes | Q80015525 | ||
Temporal autocorrelation can enhance the persistence and abundance of metapopulations comprised of coupled sinks | Q80401635 | ||
Population extinction and the genetics of adaptation | Q81709194 | ||
Evolutionary consequences of asymmetric dispersal rates | Q81791549 | ||
Evolution of a species' range | Q82040482 | ||
General theory of competitive coexistence in spatially-varying environments | Q28140547 | ||
Conservatism and diversification of plant functional traits: Evolutionary rates versus phylogenetic signal | Q28749929 | ||
Phylogenetic niche conservatism, phylogenetic signal and the relationship between phylogenetic relatedness and ecological similarity among species | Q29616110 | ||
Environmental niche equivalency versus conservatism: quantitative approaches to niche evolution | Q29616175 | ||
Combining population-dynamic and ecophysiological models to predict climate-induced insect range shifts | Q31039894 | ||
Niche dynamics in space and time | Q31147318 | ||
Usefulness of bioclimatic models for studying climate change and invasive species | Q31159856 | ||
Phylogenetic analysis of the evolution of the niche in lizards of the Anolis sagrei group | Q33254631 | ||
Grinnellian and Eltonian niches and geographic distributions of species | Q33298662 | ||
Resolving the paradox of stasis: models with stabilizing selection explain evolutionary divergence on all timescales | Q34599685 | ||
WHEN DOES EVOLUTION BY NATURAL SELECTION PREVENT EXTINCTION? | Q36395570 | ||
Limits to evolution at range margins: when and why does adaptation fail? | Q36657158 | ||
When sources become sinks: migrational meltdown in heterogeneous habitats | Q42053170 | ||
The evolution of species' distributions: reciprocal transplants across the elevation ranges of Mimulus cardinalis and M. lewisii | Q43474103 | ||
The Croonian Lecture, 1991. Genostasis and the limits to evolution | Q43888306 | ||
Defining fundamental niche dimensions of corals: synergistic effects of colony size, light, and flow | Q44790008 | ||
The ecological niche of Daphnia magna characterized using population growth rate. | Q45341991 | ||
Fluctuating patch boundaries in a native annual forb: the roles of niche and dispersal limitation | Q46225408 | ||
Allee effects, invasion pinning, and species' borders | Q46763084 | ||
Ecology of sprouting in woody plants: the persistence niche. | Q47895971 | ||
Evidence of climatic niche shift during biological invasion. | Q51185506 | ||
Commentary on Losos (2008): niche conservatism déjà vu. | Q51678597 | ||
Competition at the range boundary in the slimy salamander: using reciprocal transplants for studies on the role of biotic interactions in spatial distributions. | Q51679508 | ||
A unifying framework for metapopulation dynamics. | Q51681069 | ||
To the edge: studies of species' range limits. | Q51691459 | ||
The inflationary effects of environmental fluctuations ensure the persistence of sink metapopulations. | Q51698143 | ||
P433 | issue | Supplement_2 | |
P407 | language of work or name | English | Q1860 |
P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
P304 | page(s) | 19659-65 | |
P577 | publication date | 2009-11-17 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Bringing the Hutchinsonian niche into the 21st century: ecological and evolutionary perspectives | |
P478 | volume | 106 Suppl 2 |
Q35154312 | A conceptual framework for the evolution of ecological specialisation |
Q30883264 | A crucial step toward realism: responses to climate change from an evolving metacommunity perspective |
Q57012385 | A network approach reveals surprises about the history of the niche |
Q30548197 | A road map for integrating eco-evolutionary processes into biodiversity models |
Q99411801 | Adult-Juvenile interactions and temporal niche partitioning between life-stages in a tropical amphibian |
Q45043815 | An integrative approach to detect subtle trophic niche differentiation in the sympatric trawling bat species Myotis dasycneme and Myotis daubentonii |
Q36868123 | An updated perspective on the role of environmental autocorrelation in animal populations. |
Q28742802 | Applying a regional community concept to forest birds of eastern North America |
Q57123319 | Biodiversity research: data without theory–theory without data |
Q28742888 | Biogeography and ecology: towards the integration of two disciplines |
Q28749936 | Biogeography, changing climates, and niche evolution: Biogeography, changing climates, and niche evolution |
Q92334667 | Biotic and anthropogenic forces rival climatic/abiotic factors in determining global plant population growth and fitness |
Q46258207 | Both life-history plasticity and local adaptation will shape range-wide responses to climate warming in the tundra plant Silene acaulis. |
Q41522217 | Can They Make It on Their Own? Hosts, Microbes, and the Holobiont Niche. |
Q35541881 | Climate niche differentiation between two passerines despite ongoing gene flow |
Q30837243 | Climate refugia: joint inference from fossil records, species distribution models and phylogeography |
Q33515542 | Climatic extremes improve predictions of spatial patterns of tree species |
Q55452680 | Climatic niche divergence drives patterns of diversification and richness among mammal families. |
Q57019833 | Climatic niche evolution and species diversification in the Cape flora, South Africa |
Q90591753 | Climatic-niche evolution follows similar rules in plants and animals |
Q51221801 | Combining climatic and soil properties better predicts covers of Brazilian biomes. |
Q57197579 | Commentary on Ditch, Stitch and Pitch: the niche is here to stay |
Q28731730 | Community assembly and diversification in Indo-Pacific coral reef fishes |
Q90458462 | Competition-driven evolution of organismal complexity |
Q57228722 | Conserving a geographically isolated Charaxes butterfly in response to habitat fragmentation and invasive alien plants |
Q46555612 | Context dependence in complex adaptive landscapes: frequency and trait-dependent selection surfaces within an adaptive radiation of Caribbean pupfishes |
Q51591002 | Coordinating theoretical and empirical efforts to understand the linkages between organisms and environments. |
Q31120152 | Cross-scale integration of knowledge for predicting species ranges: a metamodeling framework |
Q56579468 | Cryptic niche conservatism among evolutionary lineages of an invasive lizard |
Q58412619 | Cusk (Brosme brosme) and climate change: assessing the threat to a candidate marine fish species under the US Endangered Species Act |
Q36193897 | Demographic Costs Associated with Differences in Habitat Space Occupancy |
Q30992550 | Demographic compensation among populations: what is it, how does it arise and what are its implications? |
Q57060249 | Demography as the basis for understanding and predicting range dynamics |
Q38470597 | Density dependence: an ecological Tower of Babel |
Q56449033 | Differential invasion success of salmonids in southern Chile: patterns and hypotheses |
Q33964789 | Disentangling the importance of ecological niches from stochastic processes across scales |
Q96822623 | Diversification in evolutionary arenas-Assessment and synthesis |
Q56636377 | Diving seabirds share foraging space and time within and among species |
Q30657438 | Dynamic species distribution models from categorical survey data. |
Q33673320 | Earthquake-Related Changes in Species Spatial Niche Overlaps in Spring Communities |
Q104438678 | Eco-evolutionary responses of biodiversity to climate change |
Q56556002 | Ecohydrological niche of sagebrush ecosystems |
Q36066277 | Ecological and evolutionary dynamics of coexisting lineages during a long-term experiment with Escherichia coli |
Q28079562 | Ecological disequilibrium drives insect pest and pathogen accumulation in non-native trees |
Q42372679 | Ecological niche comparison and molecular phylogeny segregate the invasive moss species Campylopus introflexus (Leucobryaceae, Bryophyta) from its closest relatives |
Q64246699 | Ecological niche modeling the potential geographic distribution of four Culicoides species of veterinary significance in Florida, USA |
Q63071328 | Ecological niche modelling does not support climatically-driven dinosaur diversity decline before the Cretaceous/Paleogene mass extinction |
Q46433261 | Economic thermoregulatory response explains mismatch between thermal physiology and behaviour in newts |
Q56452057 | Effect of geographic background and equilibrium state on niche model transferability: predicting areas of invasion of Leptoglossus occidentalis |
Q46260110 | Effects of spatial structure of population size on the population dynamics of barnacles across their elevational range. |
Q35994157 | Ellenberg's water table experiment put to the test: species optima along a hydrological gradient |
Q39126454 | Enhancing species distribution modeling by characterizing predator-prey interactions |
Q58651664 | Environmental drivers of demographic variation across the global geographical range of 26 plant species |
Q35727749 | Estimating the variation, autocorrelation, and environmental sensitivity of phenotypic selection. |
Q33933561 | Evidence of local adaptation in the demographic response of American ginseng to interannual temperature variation. |
Q28653250 | Evolution of climatic niche specialization: a phylogenetic analysis in amphibians |
Q39292244 | Evolution of phenotypic plasticity in extreme environments. |
Q54498401 | Evolutionary constraints and the maintenance of individual specialization throughout succession. |
Q28748839 | Evolutionary diversification, coevolution between populations and their antagonists, and the filling of niche space |
Q33564771 | Evolutionary dynamics of tree invasions: complementing the unified framework for biological invasions |
Q41957363 | Expanding the understanding of local community assembly in adaptive radiations |
Q34343433 | Experimental test for adaptive differentiation of ginseng populations reveals complex response to temperature. |
Q30932137 | Expertly validated models and phylogenetically-controlled analysis suggests responses to climate change are related to species traits in the order lagomorpha |
Q46917649 | Fire, humans, and climate: modeling distribution dynamics of boreal forest waterbirds |
Q28603545 | Forecasting Chikungunya spread in the Americas via data-driven empirical approaches |
Q57069909 | Functional relationships beyond species richness patterns: trait matching in plant-bird mutualisms across scales |
Q28601193 | Functional traits, convergent evolution, and periodic tables of niches |
Q92538225 | Gene Transmission in the One Health Microbiosphere and the Channels of Antimicrobial Resistance |
Q56334590 | Global test of Eltonian niche conservatism of nonnative freshwater fish species between their native and introduced ranges |
Q90459083 | Glucocorticoid-environment relationships align with responses to environmental change in two co-occurring congeners |
Q34165418 | Harnessing the world's biodiversity data: promise and peril in ecological niche modeling of species distributions |
Q28679464 | How can model comparison help improving species distribution models? |
Q57060285 | How to understand species’ niches and range dynamics: a demographic research agenda for biogeography |
Q33508744 | Hutchinson's duality: the once and future niche |
Q97642097 | Hygric Niches for Tropical Endotherms |
Q51535027 | Improving our understanding of environmental controls on the distribution of C3 and C4 grasses. |
Q51564603 | In defense of 'niche modeling'. |
Q90828636 | Incorporating local adaptation into forecasts of species' distribution and abundance under climate change |
Q46834719 | Infusing considerations of trophic dependencies into species distribution modelling |
Q36364937 | Integrating Biogeography with Contemporary Niche Theory |
Q89495343 | Integrating Computational Methods to Investigate the Macroecology of Microbiomes |
Q56525135 | Integrating trait- and niche-based approaches to assess contemporary evolution in alien plant species |
Q57030835 | Interspecific interactions and range limits: contrasts among interaction types |
Q55098091 | Is local trait variation related to total range size of tropical trees? |
Q35632809 | Isotopic evidence for dietary niche overlap between barking deer and four-horned antelope in Nepal. |
Q35606894 | Isotopic niche variation in a higher trophic level ectotherm: highlighting the role of succulent plants in desert food webs |
Q57247621 | Landscape structure and genetic architecture jointly impact rates of niche evolution |
Q42351359 | Less favourable climates constrain demographic strategies in plants |
Q36375569 | Life history trade-off moderates model predictions of diversity loss from climate change |
Q46251583 | Likelihood of changes in forest species suitability, distribution, and diversity under future climate: The case of Southern Europe. |
Q90317263 | Locally-adapted reproductive photoperiodism determines population vulnerability to climate change in burying beetles |
Q38622817 | Manipulation of habitat isolation and area implicates deterministic factors and limited neutrality in community assembly. |
Q58686949 | Mapping the Fundamental Niches of Two Freshwater Microalgae,Chlorella vulgaris(Trebouxiophyceae) andPeridinium cinctum(Dinophyceae), in 5-Dimensional Ion Space |
Q100307022 | Mapping the bacterial metabolic niche space |
Q56418679 | Measuring the realized niches of animals using stable isotopes: from rats to bears |
Q89581915 | Mismatches between demographic niches and geographic distributions are strongest in poorly dispersed and highly persistent plant species |
Q96817080 | Modelling sexually deceptive orchid species distributions under future climates: the importance of plant-pollinator interactions |
Q34312884 | Modelling the ecological niche from functional traits |
Q28817759 | Multidimensional metrics of niche space for use with diverse analytical techniques |
Q39173988 | Niche Contractions in Declining Species: Mechanisms and Consequences. |
Q56491339 | Niche conservatism and the potential for the crayfishProcambarus clarkiito invade South America |
Q102072321 | Niche differentiation between deeply divergent phylogenetic lineages of an endemic newt: implications for Species Distribution Models |
Q58790954 | Niche dissociated assembly drives insular lizard community organization |
Q37812024 | Niche explosion |
Q36709166 | Niche partitioning between close relatives suggests trade-offs between adaptation to local environments and competition |
Q56427924 | Niche plasticity in invasive fishes in the Great Lakes |
Q96231542 | Niche switching and leapfrog foraging: movement ecology of sympatric petrels during the early breeding season |
Q30648507 | Niche syndromes, species extinction risks, and management under climate change |
Q56936122 | NicheA: creating virtual species and ecological niches in multivariate environmental scenarios |
Q38645348 | Novel Methods in Disease Biogeography: A Case Study with Heterosporosis. |
Q56934133 | Observing changing ecological diversity in the Anthropocene |
Q28681790 | On the measurement of ecological novelty: scale-eating pupfish are separated by 168 my from other scale-eating fishes |
Q56937437 | On using integral projection models to generate demographically driven predictions of species' distributions: development and validation using sparse data |
Q38715521 | Out of the dark: 350 million years of conservatism and evolution in diel activity patterns in vertebrates |
Q36139207 | Patchiness of forest landscape can predict species distribution better than abundance: the case of a forest-dwelling passerine, the short-toed treecreeper, in central Italy |
Q56876415 | Pattern-recognition ecological niche models fit to presence-only and presence-absence data |
Q92906969 | Patterns, Mechanisms and Genetics of Speciation in Reptiles and Amphibians |
Q34301468 | Phenology and productivity of C3 and C4 grasslands in Hawaii |
Q36512966 | Phenotypic plasticity in evolutionary rescue experiments |
Q28652942 | Phylogeny and niche conservatism in North and Central American triatomine bugs (Hemiptera: Reduviidae: Triatominae), vectors of Chagas' disease |
Q97067749 | Plant Functional Niches in Forests Across Four Climatic Zones: Exploring the Periodic Table of Niches Based on Plant Functional Traits |
Q35986865 | Plant diversity increases spatio-temporal niche complementarity in plant-pollinator interactions |
Q89422972 | Population genomics of bacterial host adaptation |
Q39770630 | Potential distribution of the viral haemorrhagic septicaemia virus in the Great Lakes region |
Q57236948 | Potential effects of climate change on the distribution of the common frogRana temporariaat its northern range margin |
Q52607531 | Potential niche expansion of the American mink invading a remote island free of native-predatory mammals. |
Q31158575 | Predictability in community dynamics |
Q30885573 | Predicting changes in the distribution and abundance of species under environmental change |
Q28608204 | Predicting the outcome of competition when fitness inequality is variable |
Q58388650 | Predictive approaches to forest site productivity: recent trends, challenges and future perspectives |
Q90288085 | Prisoners of war - host adaptation and its constraints on virus evolution |
Q58412606 | Projected ocean warming creates a conservation challenge for river herring populations |
Q35623748 | Range bagging: a new method for ecological niche modelling from presence-only data |
Q51048042 | Rates of change in climatic niches in plant and animal populations are much slower than projected climate change. |
Q46753877 | Rates of climatic niche evolution are correlated with species richness in a large and ecologically diverse radiation of songbirds. |
Q26315289 | Realized niche shift associated with the Eurasian charophyte Nitellopsis obtusa becoming invasive in North America |
Q89636585 | Recent responses to climate change reveal the drivers of species extinction and survival |
Q96578778 | Relationships between survival and habitat suitability of semi-aquatic mammals |
Q64108199 | Sex and occupation time influence niche space of a recovering keystone predator |
Q36419207 | Shape and evolution of the fundamental niche in marine Vibrio |
Q28649396 | Spatial niche partitioning in sub-tropical solitary ungulates: four-horned antelope and barking deer in Nepal |
Q31000152 | Spatial predictions at the community level: from current approaches to future frameworks |
Q33363766 | Stability and complexity in model meta-ecosystems |
Q54558023 | Summary results of the 2014-2015 DARPA Chikungunya challenge. |
Q90291298 | Table for five, please: Dietary partitioning in boreal bats |
Q36245214 | Testing for local adaptation and evolutionary potential along altitudinal gradients in rainforest Drosophila: beyond laboratory estimates. |
Q64289929 | The Fe(II)-oxidizing Zetaproteobacteria: historical, ecological and genomic perspectives |
Q61449523 | The Microbiome Stress Project: Toward a Global Meta-Analysis of Environmental Stressors and Their Effects on Microbial Communities |
Q38781104 | The Multidimensional Nutritional Niche. |
Q98513227 | The Net Effect of Functional Traits on Fitness |
Q92551950 | The bioelements, the elementome, and the biogeochemical niche |
Q37901670 | The ecological causes of evolution. |
Q31110188 | The environment ontology: contextualising biological and biomedical entities |
Q30997401 | The evolution of thermal performance can constrain dispersal during range shifting. |
Q28649510 | The influence of interspecific interactions on species range expansion rates |
Q28742890 | The niche, biogeography and species interactions |
Q51752926 | The ontogeny of tolerance curves: habitat quality vs. acclimation in a stressful environment. |
Q28831080 | Theoretical perspectives on the statics and dynamics of species' borders in patchy environments |
Q63257714 | Three-dimensional partitioning of resources by congeneric forest predators with recent sympatry |
Q92212663 | Towards Integrating Evolution, Metabolism, and Climate Change Studies of Marine Ecosystems |
Q56817107 | Towards novel approaches to modelling biotic interactions in multispecies assemblages at large spatial extents |
Q57018610 | Trait-dependent occupancy dynamics of birds in temperate forest landscapes: fine-scale observations in a hierarchical multi-species framework |
Q57235588 | Trophic ecology of groundwater species reveals specialization in a low-productivity environment |
Q58228938 | Using audio playback to expand the geographic breeding range of an endangered species |
Q49907031 | Using niche breadth theory to explain generalization in mutualisms. |
Q37037427 | Vacated niches, competitive release and the community ecology of pathogen eradication |
Q30700841 | Vulnerability of dynamic genetic conservation units of forest trees in Europe to climate change. |
Q31002016 | What do metabolic rates tell us about thermal niches? Mechanisms driving crayfish distributions along an altitudinal gradient |
Q57013904 | What do we gain from simplicity versus complexity in species distribution models? |
Q28601774 | What is conservation physiology? Perspectives on an increasingly integrated and essential science(†) |
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