Ecomorphology and functional diversity of generalist and specialist bird assemblages in Amazonian white-sand ecosystem habitat patches
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[1] Bette A. Loiselle,et al. Connecting Amazonian historical biogeography and local assemblages of understorey birds: Recurrent guild proportionality within areas of endemism , 2022, Journal of Biogeography.
[2] L. F. Silveira,et al. Annotated checklist of the birds of Brazil by the Brazilian Ornithological Records Committee—second edition , 2021, Ornithology Research.
[3] S. Borges,et al. Sister species, different histories: comparative phylogeography of two bird species associated with Amazonian open vegetation , 2020 .
[4] J. Bates,et al. Dispersal ability correlates with range size in Amazonian habitat-restricted birds , 2020, Proceedings of the Royal Society B.
[5] C. Sheard,et al. Macroevolutionary convergence connects morphological form to ecological function in birds , 2020, Nature Ecology & Evolution.
[6] A. Aleixo,et al. Diversity and evolution of Amazonian birds: implications for conservation and biogeography. , 2019, Anais da Academia Brasileira de Ciencias.
[7] John H. Wilshire,et al. Generalists are the most urban‐tolerant of birds: a phylogenetically controlled analysis of ecological and life history traits using a novel continuous measure of bird responses to urbanization , 2019, Oikos.
[8] M. Ribeiro,et al. Insights on the functional composition of specialist and generalist birds throughout continuous and fragmented forests , 2019, Ecology and evolution.
[9] C. Ricotta,et al. A Generalized Framework for Analyzing Taxonomic, Phylogenetic, and Functional Community Structure Based on Presence–Absence Data , 2018, Mathematics.
[10] S. Hackett,et al. Evaluating the contribution of dispersal to community structure in Neotropical passerine birds , 2018, Ecography.
[11] M. Cadotte,et al. Functional traits explain ecosystem function through opposing mechanisms. , 2017, Ecology letters.
[12] M. Cadotte,et al. Should Environmental Filtering be Abandoned? , 2017, Trends in ecology & evolution.
[13] J. Bates,et al. Isolation and characterization of polymorphic microsatellite DNA Markers from an Amazonian white-sand vegetation specialist bird, Xenopipo atronitens (Aves: Pipridae) , 2016, The Wilson Journal of Ornithology.
[14] W. Jetz,et al. Energetic Constraints on Species Coexistence in Birds , 2016, PLoS biology.
[15] P. Fine,et al. Habitat Endemism in White‐sand Forests: Insights into the Mechanisms of Lineage Diversification and Community Assembly of the Neotropical Flora , 2016 .
[16] Fernando M. d'Horta,et al. Comparative Phylogeography of Two Bird Species, Tachyphonus phoenicius (Thraupidae) and Polytmus theresiae (Trochilidae), Specialized in Amazonian White‐sand Vegetation , 2016 .
[17] N. Christensen,et al. White‐sand Ecosystems in Amazonia , 2016 .
[18] S. Borges,et al. Bird Communities in Amazonian White‐Sand Vegetation Patches: Effects of Landscape Configuration and Biogeographic Context , 2016 .
[19] S. Borges,et al. What is the avifauna of Amazonian white-sand vegetation? , 2015, Bird Conservation International.
[20] D. Edwards,et al. Impacts of selective logging on insectivorous birds in Borneo: The importance of trophic position, body size and foraging height , 2015 .
[21] E. Pianka,et al. Functional traits, convergent evolution, and periodic tables of niches , 2015, Ecology letters.
[22] J. Rhodes,et al. Birds in Anthropogenic Landscapes: The Responses of Ecological Groups to Forest Loss in the Brazilian Atlantic Forest , 2015, PloS one.
[23] W. Jetz,et al. EltonTraits 1.0: Species-level foraging attributes of the world's birds and mammals , 2014 .
[24] L. Duarte,et al. Habitat filtering influences the phylogenetic structure of avian communities across a coastal gradient in southern Brazil , 2014 .
[25] Jamie R. Oaks,et al. Evolutionary Processes of Diversification in a Model Island Archipelago , 2013 .
[26] J. Metzger,et al. Combining phylogeography and landscape genetics of Xenopipo atronitens (Aves: Pipridae), a white sand campina specialist, to understand Pleistocene landscape evolution in Amazonia , 2013 .
[27] M. Metz,et al. Habitat Specialization by Birds in Western Amazonian White‐sand Forests , 2013 .
[28] Anjali Goswami,et al. Phylogenetic Principal Components Analysis and Geometric Morphometrics , 2013 .
[29] W. Jetz,et al. Spatial Scaling of Functional Structure in Bird and Mammal Assemblages , 2013, The American Naturalist.
[30] C. Castilho,et al. Disentangling the role of edaphic variability, flooding regime and topography of Amazonian white‐sand vegetation , 2013 .
[31] D. Purves,et al. Ecological traits affect the response of tropical forest bird species to land-use intensity , 2013, Proceedings of the Royal Society B: Biological Sciences.
[32] W. Jetz,et al. The global diversity of birds in space and time , 2012, Nature.
[33] Vanderlei J. Debastiani,et al. Bioinformatics Applications Note Phylogenetics Syncsa—r Tool for Analysis of Metacommunities Based on Functional Traits and Phylogeny of the Community Components , 2022 .
[34] Ç. Şekercioğlu,et al. Global patterns of specialization and coexistence in bird assemblages , 2012 .
[35] R. Julliard,et al. Worldwide decline of specialist species: toward a global functional homogenization? , 2011 .
[36] Wilfried Thuiller,et al. Defining and measuring ecological specialization , 2010 .
[37] Liam J. Revell,et al. Size-Correction and Principal Components for Interspecific Comparative Studies , 2009, Evolution; international journal of organic evolution.
[38] M. V. Cianciaruso,et al. Diversidades filogenética e funcional: novas abordagens para a Ecologia de comunidades , 2009 .
[39] R. Ricklefs,et al. Adaptation and diversification on islands , 2009, Nature.
[40] J. Gomes,et al. Morphological divergence patterns among populations of Poecilia vivipara (Teleostei Poeciliidae) : test of an ecomorphological paradigm , 2008 .
[41] Campbell O. Webb,et al. Trait Evolution, Community Assembly, and the Phylogenetic Structure of Ecological Communities , 2007, The American Naturalist.
[42] Denis Couvet,et al. Spatial segregation of specialists and generalists in bird communities. , 2006, Ecology letters.
[43] Peter R. Grant,et al. Evolution of Character Displacement in Darwin's Finches , 2006, Science.
[44] S. Boback. Body Size Evolution in Snakes: Evidence from Island Populations , 2003, Copeia.
[45] Owen L. Petchey,et al. Extinction and the loss of functional diversity , 2002, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[46] P. Reich,et al. The Influence of Functional Diversity and Composition on Ecosystem Processes , 1997 .
[47] L. Vitt,et al. The role of habitat shift in the evolution of lizard morphology: evidence from tropical Tropidurus. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[48] G. Rosenberg. Habitat Specialization and Foraging Behavior by Birds of Amazonian River Islands in Northeastern Peru , 1990 .
[49] A. Anderson. White-Sand Vegetation of Brazilian Amazonia , 1981 .
[50] J. Gower. A General Coefficient of Similarity and Some of Its Properties , 1971 .
[51] D. H. Morse,et al. The Insectivorous Bird as an Adaptive Strategy , 1971 .
[52] P. Grant. Bill size, body size, and the ecological adaptations of bird species to competitive situations on islands. , 1968, Systematic zoology.
[53] F. Marangoni,et al. The isolated rocky outcrops of northeastern Argentina and their role on the herpetofauna conservation. , 2021, Anais da Academia Brasileira de Ciencias.
[54] P. Legendre,et al. A distance-based framework for measuring functional diversity from multiple traits. , 2010, Ecology.
[55] O. Petchey,et al. Including intraspecific variability in functional diversity. , 2009, Ecology.
[56] Mark V. Lomolino. A call for a new paradigm of island biogeography , 2000 .
[57] P. Stouffer,et al. A New Look at the "Species-Poor" Central Amazon: The Avifauna North of Manaus, Brazil , 1997 .