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Publication DateEcology Letters, ISSN 1461-023X, 10/2011, Volume 14, Issue 10, pp. 1043 - 1051
Ecology Letters (2011) 14: 1043–1051 For many taxonomic groups, sparse information on the spatial distribution of biodiversity limits our capacity to answer a...
snail | diversity | richness | Alpha | macroecology | community | dissimilarity | beta | gamma | metacommunity | Gamma | Diversity | Macroecology | Richness | Snail | Dissimilarity | Metacommunity | Community | Beta | CLIMATE-CHANGE | PATTERNS | SPECIES DISTRIBUTION MODELS | COMMUNITY-LEVEL | GAMMA-DIVERSITY | AREA | ECOLOGY | IMPACTS | Snails - physiology | Ecology - methods | Animals | Biodiversity | Models, Biological
snail | diversity | richness | Alpha | macroecology | community | dissimilarity | beta | gamma | metacommunity | Gamma | Diversity | Macroecology | Richness | Snail | Dissimilarity | Metacommunity | Community | Beta | CLIMATE-CHANGE | PATTERNS | SPECIES DISTRIBUTION MODELS | COMMUNITY-LEVEL | GAMMA-DIVERSITY | AREA | ECOLOGY | IMPACTS | Snails - physiology | Ecology - methods | Animals | Biodiversity | Models, Biological
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Loading RightsGlobal Ecology and Biogeography, ISSN 1466-822X, 6/2013, Volume 22, Issue 5/6, pp. 671 - 681
Aim: One of the main gaps in the assessment of biodiversity is the lack of a unified framework for measuring its taxonomic and functional facets and for...
Biological taxonomies | Synecology | Animal ecology | Fauna | Biogeography | Fish | Freshwater ecology | Freshwater fishes | Species | Functional diversity | functional richness | functional diversity | overlap | Beta‐diversity | Europe | functional traits | freshwater fish | convex hull volume | Functional richness | Beta-diversity | Freshwater fish | Functional traits | Convex hull volume | Overlap
Biological taxonomies | Synecology | Animal ecology | Fauna | Biogeography | Fish | Freshwater ecology | Freshwater fishes | Species | Functional diversity | functional richness | functional diversity | overlap | Beta‐diversity | Europe | functional traits | freshwater fish | convex hull volume | Functional richness | Beta-diversity | Freshwater fish | Functional traits | Convex hull volume | Overlap
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Loading RightsEcology, ISSN 0012-9658, 7/2010, Volume 91, Issue 7, pp. 1962 - 1963
Species diversity | Sample size | Diversity indices | Forest stands | Entropy | Wetland ecology | Insect ecology | Species | FORUM: Partitioning diversity | Diversity partition | Alpha diversity | Gamma diversity | Simulation modeling | Numbers equivalents | Beta diversity | beta diversity | gamma diversity | simulation modeling | alpha diversity | numbers equivalents | ECOLOGY | species diversity | diversity partition | Environment | Models, Statistical | Biodiversity | Models, Biological | Computer Simulation | Population Dynamics
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Loading RightsEcological Monographs, ISSN 0012-9615, 05/2019, Volume 89, Issue 2, pp. e01343 - n/a
Based on the framework of attribute diversity (a generalization of Hill numbers of order q), we develop a class of functional diversity measures sensitive not...
diversity decomposition | functional diversity | species traits | attribute diversity | functional (dis)similarity | quadratic entropy | species diversity | trait diversity | Hill numbers | functional beta diversity | PHYLOGENETIC DIVERSITY | BIODIVERSITY | BIOLOGICAL DIVERSITY | EVENNESS | CONSENSUS | CONSERVATION | SPECIES RICHNESS | FRAMEWORK | ECOLOGY | DIFFERENTIATION MEASURES | SIMILARITY | Species diversity | Similarity | Partitioning | Equivalence | Biodiversity | Species | Functional groups
diversity decomposition | functional diversity | species traits | attribute diversity | functional (dis)similarity | quadratic entropy | species diversity | trait diversity | Hill numbers | functional beta diversity | PHYLOGENETIC DIVERSITY | BIODIVERSITY | BIOLOGICAL DIVERSITY | EVENNESS | CONSENSUS | CONSERVATION | SPECIES RICHNESS | FRAMEWORK | ECOLOGY | DIFFERENTIATION MEASURES | SIMILARITY | Species diversity | Similarity | Partitioning | Equivalence | Biodiversity | Species | Functional groups
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Loading RightsAnnual Review of Ecology, Evolution, and Systematics, ISSN 1543-592X, 11/2014, Volume 45, Issue 1, pp. 297 - 324
Hill numbers or the effective number of species are increasingly used to quantify species diversity of an assemblage. Hill numbers were recently extended to...
beta diversity | diversity decomposition | diversity measures | replication principle | trait diversity | doubling property | ENVIRONMENTAL GRADIENTS | BIODIVERSITY | EVOLUTIONARY | ECOSYSTEM-FUNCTION | PARTITIONING DIVERSITY | PATTERNS | DISSIMILARITY COEFFICIENTS | EVOLUTIONARY BIOLOGY | FRAMEWORK | ECOLOGY | Genetic research | Phylogeny | Research | Biological diversity
beta diversity | diversity decomposition | diversity measures | replication principle | trait diversity | doubling property | ENVIRONMENTAL GRADIENTS | BIODIVERSITY | EVOLUTIONARY | ECOSYSTEM-FUNCTION | PARTITIONING DIVERSITY | PATTERNS | DISSIMILARITY COEFFICIENTS | EVOLUTIONARY BIOLOGY | FRAMEWORK | ECOLOGY | Genetic research | Phylogeny | Research | Biological diversity
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Loading RightsGlobal Ecology and Biogeography, ISSN 1466-822X, 11/2011, Volume 20, Issue 6, pp. 893 - 903
Aim: To test how far can macroecological hypotheses relating diversity to environmental factors be extrapolated to functional and phylogenetic diversities, i....
Species diversity | Biological taxonomies | Conservation biology | Landscapes | Synecology | Animal ecology | Phylogenetics | Biogeography | Functional diversity | Environmental conservation | beta diversity | gamma diversity | Alpha diversity | Rao | bird communities | metacommunities | environmental filtering | dispersal | spatial autocorrelation | France | Gamma diversity | Metacommunities | Environmental filtering | Dispersal | Beta diversity | Bird communities | Spatial autocorrelation | BIODIVERSITY | RICHNESS | PARTITIONING DIVERSITY | POTENTIAL LOSS | COMMUNITIES | REDUNDANCY | GEOGRAPHY, PHYSICAL | ECOLOGY
Species diversity | Biological taxonomies | Conservation biology | Landscapes | Synecology | Animal ecology | Phylogenetics | Biogeography | Functional diversity | Environmental conservation | beta diversity | gamma diversity | Alpha diversity | Rao | bird communities | metacommunities | environmental filtering | dispersal | spatial autocorrelation | France | Gamma diversity | Metacommunities | Environmental filtering | Dispersal | Beta diversity | Bird communities | Spatial autocorrelation | BIODIVERSITY | RICHNESS | PARTITIONING DIVERSITY | POTENTIAL LOSS | COMMUNITIES | REDUNDANCY | GEOGRAPHY, PHYSICAL | ECOLOGY
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Loading RightsJournal of Biogeography, ISSN 0305-0270, 12/2013, Volume 40, Issue 12, pp. 2299 - 2309
Aim The relationship between species richness (α-diversity) and area is well studied; however, the way in which compositional dissimilarity between pairs of...
Aggregation | Trees | Simulations | Species diversity | Biogeography | Tropical forests | Biodiversity | Species | Modeling | Spatial models | Ecoregions | beta diversity | compositional dissimilarity | Alpha diversity | richness | Panama | simulation | prediction | community | rain forest | Compositional dissimilarity | Simulation | Rain forest | Prediction | Richness | Beta diversity | Community | TURNOVER | PATTERNS | DEPENDENCE | DISTRIBUTIONS | GEOGRAPHY, PHYSICAL | BIOLOGY | TREE | ECOLOGY | SPECIES-AREA | CLIMATE | INDEXES
Aggregation | Trees | Simulations | Species diversity | Biogeography | Tropical forests | Biodiversity | Species | Modeling | Spatial models | Ecoregions | beta diversity | compositional dissimilarity | Alpha diversity | richness | Panama | simulation | prediction | community | rain forest | Compositional dissimilarity | Simulation | Rain forest | Prediction | Richness | Beta diversity | Community | TURNOVER | PATTERNS | DEPENDENCE | DISTRIBUTIONS | GEOGRAPHY, PHYSICAL | BIOLOGY | TREE | ECOLOGY | SPECIES-AREA | CLIMATE | INDEXES
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Loading RightsTrends in Ecology & Evolution, ISSN 0169-5347, 01/2016, Volume 31, Issue 1, pp. 67 - 80
To design robust protected area networks, accurately measure species losses, or understand the processes that maintain species diversity, conservation science...
species–area relationships | spatial scaling | alpha-diversity | beta-diversity | diversity partitioning | gamma-diversity | biodiversity conservation | biotic homogenization | pairwise dissimilarities | Diversity partitioning | Spatial scaling | Biodiversity conservation | Species-area relationships | Beta-diversity | Alpha-diversity | Biotic homogenization | Pairwise dissimilarities | Gamma-diversity | TURNOVER | SPATIAL SCALES | CLIMATE-CHANGE | ALPHA | URBANIZATION | FOREST | BIOTIC HOMOGENIZATION | EVOLUTIONARY BIOLOGY | PLANT-COMMUNITIES | EXTINCTION RISK | HABITAT | GENETICS & HEREDITY | ECOLOGY | Spatial Analysis | Climate Change | Forestry - methods | Urbanization | Conservation of Natural Resources | Introduced Species | Agriculture - methods | Biodiversity | Climatic changes | Wildlife conservation | Evolutionary biology | Biological diversity conservation
species–area relationships | spatial scaling | alpha-diversity | beta-diversity | diversity partitioning | gamma-diversity | biodiversity conservation | biotic homogenization | pairwise dissimilarities | Diversity partitioning | Spatial scaling | Biodiversity conservation | Species-area relationships | Beta-diversity | Alpha-diversity | Biotic homogenization | Pairwise dissimilarities | Gamma-diversity | TURNOVER | SPATIAL SCALES | CLIMATE-CHANGE | ALPHA | URBANIZATION | FOREST | BIOTIC HOMOGENIZATION | EVOLUTIONARY BIOLOGY | PLANT-COMMUNITIES | EXTINCTION RISK | HABITAT | GENETICS & HEREDITY | ECOLOGY | Spatial Analysis | Climate Change | Forestry - methods | Urbanization | Conservation of Natural Resources | Introduced Species | Agriculture - methods | Biodiversity | Climatic changes | Wildlife conservation | Evolutionary biology | Biological diversity conservation
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Loading RightsEcology, ISSN 0012-9658, 10/2007, Volume 88, Issue 10, pp. 2427 - 2439
Existing general definitions of beta diversity often produce a beta with a hidden dependence on alpha. Such a beta cannot be used to compare regions that...
Species diversity | Conservation biology | Synecology | Diversity indices | Communities | Shannon entropy | Entropy | Biodiversity | Species | Information theory | Concepts & Synthesis: Emphasizing New Ideas to Stimulate Research in Ecology | beta diversity | gamma diversity | alpha diversity | Morisita-Horn index | Horn index | Shannon diversity measures | partitioning diversity | Alpha diversity | Gamma diversity | Partitioning diversity | Beta diversity | Morisita-horn index | SPECIES-DIVERSITY | STATISTICS | EVENNESS | SIMPSON DIVERSITY | ECOLOGY | INDEX | SIMILARITY | Animals | Ecosystem | Population Density | Environment | Models, Statistical | Population Dynamics | Resource partitioning (Ecology) | Research | Biological diversity
Species diversity | Conservation biology | Synecology | Diversity indices | Communities | Shannon entropy | Entropy | Biodiversity | Species | Information theory | Concepts & Synthesis: Emphasizing New Ideas to Stimulate Research in Ecology | beta diversity | gamma diversity | alpha diversity | Morisita-Horn index | Horn index | Shannon diversity measures | partitioning diversity | Alpha diversity | Gamma diversity | Partitioning diversity | Beta diversity | Morisita-horn index | SPECIES-DIVERSITY | STATISTICS | EVENNESS | SIMPSON DIVERSITY | ECOLOGY | INDEX | SIMILARITY | Animals | Ecosystem | Population Density | Environment | Models, Statistical | Population Dynamics | Resource partitioning (Ecology) | Research | Biological diversity
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Loading RightsMethods in Ecology and Evolution, ISSN 2041-210X, 08/2018, Volume 9, Issue 8, pp. 1787 - 1798
Biodiversity includes multiscalar and multitemporal structures and processes, with different levels of functional organization, from genetic to ecosystemic...
Kohonen self‐organizing feature maps | Rao's Q diversity index | satellite imagery | sparse generalized dissimilarity model | β‐diversity | remote sensing | spectral species concept | Kohonen self-organizing feature maps | β-diversity | LANDSCAPE | beta-diversity | DISSIMILARITY | COMMUNITY COMPOSITION | ORDINATION | SPACE | AIRBORNE IMAGING SPECTROSCOPY | TROPICAL FORESTS | NEURAL-NETWORK | ECOLOGY | CANOPY DIVERSITY | CONTINUOUS FLORISTIC GRADIENTS | Feature maps | Statistical analysis | Estimation | Environmental changes | Statistical methods | Regression analysis | Biodiversity | Imagery | Airborne sensing | Remote sensing | Biological diversity | Species diversity | Satellites | Multivariate statistical analysis | Functional morphology | Relative abundance | Gene mapping | Detection | Remote monitoring | Species richness
Kohonen self‐organizing feature maps | Rao's Q diversity index | satellite imagery | sparse generalized dissimilarity model | β‐diversity | remote sensing | spectral species concept | Kohonen self-organizing feature maps | β-diversity | LANDSCAPE | beta-diversity | DISSIMILARITY | COMMUNITY COMPOSITION | ORDINATION | SPACE | AIRBORNE IMAGING SPECTROSCOPY | TROPICAL FORESTS | NEURAL-NETWORK | ECOLOGY | CANOPY DIVERSITY | CONTINUOUS FLORISTIC GRADIENTS | Feature maps | Statistical analysis | Estimation | Environmental changes | Statistical methods | Regression analysis | Biodiversity | Imagery | Airborne sensing | Remote sensing | Biological diversity | Species diversity | Satellites | Multivariate statistical analysis | Functional morphology | Relative abundance | Gene mapping | Detection | Remote monitoring | Species richness
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