Your search keyword '"agrovoc:c_abb380d7"' showing total 2 results

1. The role of environment, dispersal and competition in explaining reduced co-occurrence among related species

Author

Juan L. Parra, Catherine H. Graham, and Ben G. Weinstein

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:Medicine, agrovoc:c_abb380d7, 01 natural sciences, Filogenética, Environmental Geography, lcsh:Science, Phylogeny, media_common, Data Management, Conservation Science, Multidisciplinary, Phylogenetic tree, Geography, Ecology, Physics, Biodiversity, Phylogenetics, Phylogeography, Sister group, Biogeography, Community Ecology, Phylogenetic Pattern, Physical Sciences, Biogeografía, Ecological Niches, Research Article, Computer and Information Sciences, Biophysical Simulations, media_common.quotation_subject, Biophysics, Biology, 010603 evolutionary biology, Competition (biology), Birds, 03 medical and health sciences, Species Specificity, biology.animal, Genetics, agrovoc:c_915, Animals, Evolutionary Systematics, Community Structure, Taxonomy, Ecological niche, Evolutionary Biology, Population Biology, lcsh:R, Ecology and Environmental Sciences, Co-occurrence, Biology and Life Sciences, Computational Biology, 15. Life on land, Models, Theoretical, 030104 developmental biology, Earth Sciences, Biological dispersal, lcsh:Q, Hummingbird, Population Genetics

Abstract

The composition of ecological assemblages depends on a variety of factors including environmental filtering, biotic interactions and dispersal limitation. By evaluating the phylogenetic pattern of assemblages, we gain insight into the relative contribution of these mechanisms to generating observed assemblages. We address some limitations in the field of community phylogenetics by using simulations, biologically relevant null models, and cost distance analysis to evaluate simultaneous mechanisms leading to observed patterns of cooccurrence. Building from past studies of phylogenetic community structure, we applied our approach to hummingbird assemblages in the Northern Andes. We compared the relationship between relatedness and co-occurrence among predicted assemblages, based on estimates of suitable habitat and dispersal limitation, and observed assemblages. Hummingbird co-occurrence peaked at intermediate relatedness and decreased when a closely-related species was present. This result was most similar to simulations that included simultaneous effects of phylogenetic conservatism and repulsion. In addition, we found older sister taxa were only weakly more separated by geographic barriers, suggesting that time since dispersal is unlikely to be the sole factor influencing co-occurrence of closely related species. Our analysis highlights the role of multiple mechanisms acting simultaneously, and provides a hypothesis for the potential importance of competition at regional scales. COL0147267

Published

2017

2. Sensitivity of Metrics of Phylogenetic Structure to Scale, Source of Data and Species Pool of Hummingbird Assemblages along Elevational Gradients

Author

Jimmy A. McGuire, Sebastián González-Caro, Carlos Daniel Cadena, Catherine H. Graham, and Juan L. Parra

Subjects

0106 biological sciences, Range (biology), agrovoc:c_abb380d7, Animal Phylogenetics, 01 natural sciences, Colibríes, Filogenética, Ornithology, agrovoc:c_33949, Community Assembly, Macroecology, Phylogeny, 0303 health sciences, Multidisciplinary, Phylogenetic analysis, biology, Phylogenetic tree, Ecology, Altitude, Museums, agrovoc:c_1cf8cf0c, Biodiversity, Phylogenetics, Phylogeography, Community Ecology, Biogeography, Species evenness, Medicine, Research Article, Ecological Metrics, Análisis filogenético, Science, Colombia, 010603 evolutionary biology, Biodiversidad, Birds, 03 medical and health sciences, Species Specificity, biology.animal, Animals, Evolutionary Systematics, Biology, Community Structure, Ecosystem, 030304 developmental biology, Demography, Evolutionary Biology, Analysis of Variance, Trochilidae, Models, Genetic, Species diversity, Computational Biology, Species Diversity, Bayes Theorem, 15. Life on land, Evolutionary Ecology, Hummingbird, Species richness, Species Richness, Zoology

Abstract

Patterns of phylogenetic structure of assemblages are increasingly used to gain insight into the ecological and evolutionary processes involved in the assembly of co-occurring species. Metrics of phylogenetic structure can be sensitive to scaling issues and data availability. Here we empirically assess the sensitivity of four metrics of phylogenetic structure of assemblages to changes in (i) the source of data, (ii) the spatial grain at which assemblages are defined, and (iii) the definition of species pools using hummingbird (Trochilidae) assemblages along an elevational gradient in Colombia. We also discuss some of the implications in terms of the potential mechanisms driving these patterns. To explore how source of data influence phylogenetic structure we defined assemblages using three sources of data: field inventories, museum specimens, and range maps. Assemblages were defined at two spatial grains: coarse-grained (elevational bands of 800-m width) and fine-grained (1-km2 plots). We used three different species pools: all species contained in assemblages, all species within half-degree quadrats, and all species either above or below 2000 m elevation. Metrics considering phylogenetic relationships among all species within assemblages showed phylogenetic clustering at high elevations and phylogenetic evenness in the lowlands, whereas those metrics considering only the closest co-occurring relatives showed the opposite trend. This result suggests that using multiple metrics of phylogenetic structure should provide greater insight into the mechanisms shaping assemblage structure. The source and spatial grain of data had important influences on estimates of both richness and phylogenetic structure. Metrics considering the co-occurrence of close relatives were particularly sensitive to changes in the spatial grain. Assemblages based on range maps included more species and showed less phylogenetic structure than assemblages based on museum or field inventories. Coarse-grained assemblages included more distantly related species and thus showed a more even phylogenetic structure than fine-grained assemblages. Our results emphasize the importance of carefully selecting the scale, source of data and metric used in analysis of the phylogenetic structure of assemblages. COL0147267

Published

2012