Resource addition drives taxonomic divergence and phylogenetic convergence of plant communities

1. Anthropogenic environmental changes are known to affect the Earth's ecosystems. However, how these changes influence assembly trajectories of the impacted communities remains a largely open question. 2. In this study, we investigated the effect of elevated nitrogen (N) deposition and increas...

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Veröffentlicht in:	The Journal of ecology 2019-09, Vol.107 (5), p.2121-2132
Hauptverfasser:	Yang, Xian, Li, Guoyong, Li, Shaopeng, Xu, Qianna, Wang, Pandeng, Song, Huanhuan, Sun, Danyu, Zhong, Mingxing, Zhou, Zhenxing, Song, Jian, Ru, Jingyi, Wan, Shiqiang, Jiang, Lin
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Schlagworte:	Anthropogenic factors Aridity Assembly Biodiversity Colonization community assembly Community structure Convergence Divergence Earth Ecosystems Environmental changes Foreign languages global change ecology Human influences Nitrogen nitrogen fertilization phylogenetic β‐diversity Phylogenetics Phylogeny Plant communities precipitation change semi‐arid steppe Special Feature: Research Articles Species composition Species diversity Steppes Stochastic processes taxonomic β‐diversity Taxonomy Trajectories Water
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container_title	The Journal of ecology
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creator	Yang, Xian Li, Guoyong Li, Shaopeng Xu, Qianna Wang, Pandeng Song, Huanhuan Sun, Danyu Zhong, Mingxing Zhou, Zhenxing Song, Jian Ru, Jingyi Wan, Shiqiang Jiang, Lin
description	1. Anthropogenic environmental changes are known to affect the Earth's ecosystems. However, how these changes influence assembly trajectories of the impacted communities remains a largely open question. 2. In this study, we investigated the effect of elevated nitrogen (N) deposition and increased precipitation on plant taxonomic and phylogenetic β-diversity in a 9-year field experiment in the temperate semi-arid steppe of Inner Mongolia, China. 3. We found that both N and water addition significantly increased taxonomic β-diversity, whereas N, not water, addition significantly increased phylogenetic β-diversity. After the differences in local species diversity were controlled using null models, the standard effect size of taxonomic β-diversity still increased with both N and water addition, whereas water, not N, addition, significantly reduced the standard effect size of phylogenetic β-diversity. The increased phylogenetic convergence observed in the water addition treatment was associated with colonizing species in each water addition plot being more closely related to species in other replicate plots of the same treatment. Species colonization in this treatment was found to be trait-based, with leaf nitrogen concentration being the key functional trait. 4. Synthesis. Our analyses demonstrate that anthropogenic environmental changes may affect the assembly trajectories of plant communities at both taxonomic and phylogenetic scales. Our results also suggest that while stochastic processes may cause communities to diverge in species composition, deterministic process could still drive communities to converge in phylogenetic community structure.
doi_str_mv	10.1111/1365-2745.13253
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Anthropogenic environmental changes are known to affect the Earth's ecosystems. However, how these changes influence assembly trajectories of the impacted communities remains a largely open question. 2. In this study, we investigated the effect of elevated nitrogen (N) deposition and increased precipitation on plant taxonomic and phylogenetic β-diversity in a 9-year field experiment in the temperate semi-arid steppe of Inner Mongolia, China. 3. We found that both N and water addition significantly increased taxonomic β-diversity, whereas N, not water, addition significantly increased phylogenetic β-diversity. After the differences in local species diversity were controlled using null models, the standard effect size of taxonomic β-diversity still increased with both N and water addition, whereas water, not N, addition, significantly reduced the standard effect size of phylogenetic β-diversity. The increased phylogenetic convergence observed in the water addition treatment was associated with colonizing species in each water addition plot being more closely related to species in other replicate plots of the same treatment. Species colonization in this treatment was found to be trait-based, with leaf nitrogen concentration being the key functional trait. 4. Synthesis. Our analyses demonstrate that anthropogenic environmental changes may affect the assembly trajectories of plant communities at both taxonomic and phylogenetic scales. Our results also suggest that while stochastic processes may cause communities to diverge in species composition, deterministic process could still drive communities to converge in phylogenetic community structure.</description><identifier>ISSN: 0022-0477</identifier><identifier>EISSN: 1365-2745</identifier><identifier>DOI: 10.1111/1365-2745.13253</identifier><language>eng</language><publisher>Oxford: John Wiley & Sons Ltd</publisher><subject>Anthropogenic factors ; Aridity ; Assembly ; Biodiversity ; Colonization ; community assembly ; Community structure ; Convergence ; Divergence ; Earth ; Ecosystems ; Environmental changes ; Foreign languages ; global change ecology ; Human influences ; Nitrogen ; nitrogen fertilization ; phylogenetic β‐diversity ; Phylogenetics ; Phylogeny ; Plant communities ; precipitation change ; semi‐arid steppe ; Special Feature: Research Articles ; Species composition ; Species diversity ; Steppes ; Stochastic processes ; taxonomic β‐diversity ; Taxonomy ; Trajectories ; Water</subject><ispartof>The Journal of ecology, 2019-09, Vol.107 (5), p.2121-2132</ispartof><rights>2019 British Ecological Society</rights><rights>2019 The Authors. 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Anthropogenic environmental changes are known to affect the Earth's ecosystems. However, how these changes influence assembly trajectories of the impacted communities remains a largely open question. 2. In this study, we investigated the effect of elevated nitrogen (N) deposition and increased precipitation on plant taxonomic and phylogenetic β-diversity in a 9-year field experiment in the temperate semi-arid steppe of Inner Mongolia, China. 3. We found that both N and water addition significantly increased taxonomic β-diversity, whereas N, not water, addition significantly increased phylogenetic β-diversity. After the differences in local species diversity were controlled using null models, the standard effect size of taxonomic β-diversity still increased with both N and water addition, whereas water, not N, addition, significantly reduced the standard effect size of phylogenetic β-diversity. 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Anthropogenic environmental changes are known to affect the Earth's ecosystems. However, how these changes influence assembly trajectories of the impacted communities remains a largely open question. 2. In this study, we investigated the effect of elevated nitrogen (N) deposition and increased precipitation on plant taxonomic and phylogenetic β-diversity in a 9-year field experiment in the temperate semi-arid steppe of Inner Mongolia, China. 3. We found that both N and water addition significantly increased taxonomic β-diversity, whereas N, not water, addition significantly increased phylogenetic β-diversity. After the differences in local species diversity were controlled using null models, the standard effect size of taxonomic β-diversity still increased with both N and water addition, whereas water, not N, addition, significantly reduced the standard effect size of phylogenetic β-diversity. The increased phylogenetic convergence observed in the water addition treatment was associated with colonizing species in each water addition plot being more closely related to species in other replicate plots of the same treatment. Species colonization in this treatment was found to be trait-based, with leaf nitrogen concentration being the key functional trait. 4. Synthesis. Our analyses demonstrate that anthropogenic environmental changes may affect the assembly trajectories of plant communities at both taxonomic and phylogenetic scales. Our results also suggest that while stochastic processes may cause communities to diverge in species composition, deterministic process could still drive communities to converge in phylogenetic community structure.</abstract><cop>Oxford</cop><pub>John Wiley & Sons Ltd</pub><doi>10.1111/1365-2745.13253</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-9957-6533</orcidid><orcidid>https://orcid.org/0000-0002-1527-7673</orcidid><orcidid>https://orcid.org/0000-0003-0397-3863</orcidid><orcidid>https://orcid.org/0000-0003-0932-4063</orcidid><orcidid>https://orcid.org/0000-0002-7114-0794</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Anthropogenic factors Aridity Assembly Biodiversity Colonization community assembly Community structure Convergence Divergence Earth Ecosystems Environmental changes Foreign languages global change ecology Human influences Nitrogen nitrogen fertilization phylogenetic β‐diversity Phylogenetics Phylogeny Plant communities precipitation change semi‐arid steppe Special Feature: Research Articles Species composition Species diversity Steppes Stochastic processes taxonomic β‐diversity Taxonomy Trajectories Water
title	Resource addition drives taxonomic divergence and phylogenetic convergence of plant communities
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