Divergent Secondary Metabolites and Habitat Filtering Both Contribute to Tree Species Coexistence in the Peruvian Amazon
Little is known about the mechanisms promoting or limiting the coexistence of functionally divergent species in hyperdiverse tropical tree genera. Density-dependent enemy attacks have been proposed to be a major driver for the local coexistence of chemically divergent congeneric species. At the same...
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Published in | Frontiers in plant science Vol. 9; p. 836 |
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Main Authors | , , , , , , , , |
Format | Journal Article |
Language | English |
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Abstract | Little is known about the mechanisms promoting or limiting the coexistence of functionally divergent species in hyperdiverse tropical tree genera. Density-dependent enemy attacks have been proposed to be a major driver for the local coexistence of chemically divergent congeneric species. At the same time, we expect local soil conditions to favor the coexistence of species sharing similar functional traits related to resource use strategies, while environmental heterogeneity would promote the diversity of these traits at both local and large spatial scales. To test how these traits mediate species coexistence, we used functional trait data for 29 species from the tree genus
(Burseraceae), collected in 19 plots (2 ha each) in the Peruvian Amazon. We characterized the presence-absence of 189 plant secondary metabolites (SM) for 27 of these species, and 14 functional traits associated with resource use strategies (RUT) for 16 species. Based on these data, we found that SM were significantly more dissimilar than null expectations for species co-occurring within plots, whereas RUT were significantly more similar. These results were consistent with the hypothesis that density-dependent enemy attacks contribute to the local coexistence of congeneric species displaying divergent chemical defenses, whereas local habitat conditions filter species with similar RUT. Using measurements of nine soil properties in each plot, we also found a significant turnover of RUT traits with increasing dissimilarity of soil texture and nutrient availabilities, providing support for the hypothesis that soil heterogeneity maintains functional diversity at larger spatial scales (from 500 m up to ca. 200 km) in
communities. Our study provides new evidence suggesting that density-dependent enemy attacks and soil heterogeneity both contribute to maintaining high species richness in diverse tropical forests. |
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AbstractList | Little is known about the mechanisms promoting or limiting the coexistence of functionally divergent species in hyperdiverse tropical tree genera. Density-dependent enemy attacks have been proposed to be a major driver for the local coexistence of chemically divergent congeneric species. At the same time, we expect local soil conditions to favor the coexistence of species sharing similar functional traits related to resource use strategies, while environmental heterogeneity would promote the diversity of these traits at both local and large spatial scales. To test how these traits mediate species coexistence, we used functional trait data for 29 species from the tree genus Protium (Burseraceae), collected in 19 plots (2 ha each) in the Peruvian Amazon. We characterized the presence-absence of 189 plant secondary metabolites (SM) for 27 of these species, and 14 functional traits associated with resource use strategies (RUT) for 16 species. Based on these data, we found that SM were significantly more dissimilar than null expectations for species co-occurring within plots, whereas RUT were significantly more similar. These results were consistent with the hypothesis that density-dependent enemy attacks contribute to the local coexistence of congeneric species displaying divergent chemical defenses, whereas local habitat conditions filter species with similar RUT. Using measurements of nine soil properties in each plot, we also found a significant turnover of RUT traits with increasing dissimilarity of soil texture and nutrient availabilities, providing support for the hypothesis that soil heterogeneity maintains functional diversity at larger spatial scales (from 500 m up to ca. 200 km) in Protium communities. Our study provides new evidence suggesting that density-dependent enemy attacks and soil heterogeneity both contribute to maintaining high species richness in diverse tropical forests. Little is known about the mechanisms promoting or limiting the coexistence of functionally divergent species in hyperdiverse tropical tree genera. Density-dependent enemy attacks have been proposed to be a major driver for the local coexistence of chemically divergent congeneric species. At the same time, we expect local soil conditions to favor the coexistence of species sharing similar functional traits related to resource use strategies, while environmental heterogeneity would promote the diversity of these traits at both local and large spatial scales. To test how these traits mediate species coexistence, we used functional trait data for 29 species from the tree genus (Burseraceae), collected in 19 plots (2 ha each) in the Peruvian Amazon. We characterized the presence-absence of 189 plant secondary metabolites (SM) for 27 of these species, and 14 functional traits associated with resource use strategies (RUT) for 16 species. Based on these data, we found that SM were significantly more dissimilar than null expectations for species co-occurring within plots, whereas RUT were significantly more similar. These results were consistent with the hypothesis that density-dependent enemy attacks contribute to the local coexistence of congeneric species displaying divergent chemical defenses, whereas local habitat conditions filter species with similar RUT. Using measurements of nine soil properties in each plot, we also found a significant turnover of RUT traits with increasing dissimilarity of soil texture and nutrient availabilities, providing support for the hypothesis that soil heterogeneity maintains functional diversity at larger spatial scales (from 500 m up to ca. 200 km) in communities. Our study provides new evidence suggesting that density-dependent enemy attacks and soil heterogeneity both contribute to maintaining high species richness in diverse tropical forests. Little is known about the mechanisms promoting or limiting the coexistence of functionally divergent species in hyperdiverse tropical tree genera. Density-dependent enemy attacks have been proposed to be a major driver for the local coexistence of chemically divergent congeneric species. At the same time, we expect local soil conditions to favor the coexistence of species sharing similar functional traits related to resource use strategies, while environmental heterogeneity would promote the diversity of these traits at both local and large spatial scales. To test how these traits mediate species coexistence, we used functional trait data for 29 species from the tree genus Protium (Burseraceae), collected in 19 plots (2 ha each) in the Peruvian Amazon. We characterized the presence-absence of 189 plant secondary metabolites (SM) for 27 of these species, and 14 functional traits associated with resource use strategies (RUT) for 16 species. Based on these data, we found that SM were significantly more dissimilar than null expectations for species co-occurring within plots, whereas RUT were significantly more similar. These results were consistent with the hypothesis that density-dependent enemy attacks contribute to the local coexistence of congeneric species displaying divergent chemical defenses, whereas local habitat conditions filter species with similar RUT. Using measurements of nine soil properties in each plot, we also found a significant turnover of RUT traits with increasing dissimilarity of soil texture and nutrient availabilities, providing support for the hypothesis that soil heterogeneity maintains functional diversity at larger spatial scales (from 500 m up to ca. 200 km) in Protium communities. Our study provides new evidence suggesting that density-dependent enemy attacks and soil heterogeneity both contribute to maintaining high species richness in diverse tropical forests. |
Author | Lokvam, John Baraloto, Christopher Vleminckx, Jason Dávila, Nállarett Salazar, Diego Fortunel, Claire Mesones, Italo Beckley, Krista Fine, Paul V A |
AuthorAffiliation | 4 AMAP (botAnique et Modélisation de l’Architecture des Plantes et des Végétations), IRD, CIRAD, CNRS, INRA, Université de Montpellier , Montpellier , France 1 Department of Integrative Biology, University of California, Berkeley , Berkeley, CA , United States 3 Department of Ecology and Evolutionary Biology, University of California, Los Angeles , Los Angeles, CA , United States 2 Department of Biological Sciences, Florida International University , Miami, FL , United States |
AuthorAffiliation_xml | – name: 1 Department of Integrative Biology, University of California, Berkeley , Berkeley, CA , United States – name: 2 Department of Biological Sciences, Florida International University , Miami, FL , United States – name: 4 AMAP (botAnique et Modélisation de l’Architecture des Plantes et des Végétations), IRD, CIRAD, CNRS, INRA, Université de Montpellier , Montpellier , France – name: 3 Department of Ecology and Evolutionary Biology, University of California, Los Angeles , Los Angeles, CA , United States |
Author_xml | – sequence: 1 givenname: Jason surname: Vleminckx fullname: Vleminckx, Jason organization: Department of Biological Sciences, Florida International University, Miami, FL, United States – sequence: 2 givenname: Diego surname: Salazar fullname: Salazar, Diego organization: Department of Biological Sciences, Florida International University, Miami, FL, United States – sequence: 3 givenname: Claire surname: Fortunel fullname: Fortunel, Claire organization: AMAP (botAnique et Modélisation de l'Architecture des Plantes et des Végétations), IRD, CIRAD, CNRS, INRA, Université de Montpellier, Montpellier, France – sequence: 4 givenname: Italo surname: Mesones fullname: Mesones, Italo organization: Department of Integrative Biology, University of California, Berkeley, Berkeley, CA, United States – sequence: 5 givenname: Nállarett surname: Dávila fullname: Dávila, Nállarett organization: Department of Integrative Biology, University of California, Berkeley, Berkeley, CA, United States – sequence: 6 givenname: John surname: Lokvam fullname: Lokvam, John organization: Department of Integrative Biology, University of California, Berkeley, Berkeley, CA, United States – sequence: 7 givenname: Krista surname: Beckley fullname: Beckley, Krista organization: Department of Integrative Biology, University of California, Berkeley, Berkeley, CA, United States – sequence: 8 givenname: Christopher surname: Baraloto fullname: Baraloto, Christopher organization: Department of Biological Sciences, Florida International University, Miami, FL, United States – sequence: 9 givenname: Paul V A surname: Fine fullname: Fine, Paul V A organization: Department of Integrative Biology, University of California, Berkeley, Berkeley, CA, United States |
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Copyright | Attribution Copyright © 2018 Vleminckx, Salazar, Fortunel, Mesones, Dávila, Lokvam, Beckley, Baraloto and Fine. 2018 Vleminckx, Salazar, Fortunel, Mesones, Dávila, Lokvam, Beckley, Baraloto and Fine |
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Keywords | competitive exclusion natural enemies resource use traits secondary metabolites plant community assembly Protium (Burseraceae) tropical forest diversity |
Language | English |
License | Attribution: http://creativecommons.org/licenses/by This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by: Massuo Jorge Kato, Universidade de São Paulo, Brazil This article was submitted to Plant Metabolism and Chemodiversity, a section of the journal Frontiers in Plant Science Reviewed by: Felipe Christoff Wouters, Universidade Federal de São Carlos, Brazil; Deane Bowers, University of Colorado Boulder, United States |
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SubjectTerms | Biodiversity and Ecology Botanics competitive exclusion Ecology, environment Ecosystems Environmental Sciences Life Sciences natural enemies plant community assembly Plant Science Protium (Burseraceae) resource use traits secondary metabolites Vegetal Biology |
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Title | Divergent Secondary Metabolites and Habitat Filtering Both Contribute to Tree Species Coexistence in the Peruvian Amazon |
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