Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.

Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.

The redundancy hypothesis predicts that the species redundancy in a plant community enhances community stability. However, numerous studies in recent years questioned the positive correlation between redundancy and stability.We explored the relationship between the species redundancy, functional red...

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Main Authors: Saruul Kang, Wenjing Ma, Frank Yonghong Li, Qing Zhang, Jianming Niu, Yong Ding, Fang Han, Xiaoli Sun
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4689422?pdf=render
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spelling doaj-92eddd3073474a1a86b52f87faa395b72020-11-24T21:27:10ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-011012e014560510.1371/journal.pone.0145605Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.Saruul KangWenjing MaFrank Yonghong LiQing ZhangJianming NiuYong DingFang HanXiaoli SunThe redundancy hypothesis predicts that the species redundancy in a plant community enhances community stability. However, numerous studies in recent years questioned the positive correlation between redundancy and stability.We explored the relationship between the species redundancy, functional redundancy and community stability in typical steppe grassland in Northern China by sampling grassland vegetation along a gradient of resource availability caused by micro-topography. We aimed to test whether community redundancy enhanced community stability, and to quantify the relative importance of species redundancy and functional redundancy in maintaining community stability.Our results showed that the spatial stability of plant community production increases with increased supply of soil resources, and the functional redundancy instead of species diversity or species redundancy is correlated with the community stability. Our results supported the redundancy hypothesis and have implications for sustainable grassland management.http://europepmc.org/articles/PMC4689422?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Saruul Kang
Wenjing Ma
Frank Yonghong Li
Qing Zhang
Jianming Niu
Yong Ding
Fang Han
Xiaoli Sun
spellingShingle Saruul Kang
Wenjing Ma
Frank Yonghong Li
Qing Zhang
Jianming Niu
Yong Ding
Fang Han
Xiaoli Sun
Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
PLoS ONE
author_facet Saruul Kang
Wenjing Ma
Frank Yonghong Li
Qing Zhang
Jianming Niu
Yong Ding
Fang Han
Xiaoli Sun
author_sort Saruul Kang
title Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
title_short Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
title_full Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
title_fullStr Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
title_full_unstemmed Functional Redundancy Instead of Species Redundancy Determines Community Stability in a Typical Steppe of Inner Mongolia.
title_sort functional redundancy instead of species redundancy determines community stability in a typical steppe of inner mongolia.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description The redundancy hypothesis predicts that the species redundancy in a plant community enhances community stability. However, numerous studies in recent years questioned the positive correlation between redundancy and stability.We explored the relationship between the species redundancy, functional redundancy and community stability in typical steppe grassland in Northern China by sampling grassland vegetation along a gradient of resource availability caused by micro-topography. We aimed to test whether community redundancy enhanced community stability, and to quantify the relative importance of species redundancy and functional redundancy in maintaining community stability.Our results showed that the spatial stability of plant community production increases with increased supply of soil resources, and the functional redundancy instead of species diversity or species redundancy is correlated with the community stability. Our results supported the redundancy hypothesis and have implications for sustainable grassland management.
url http://europepmc.org/articles/PMC4689422?pdf=render
work_keys_str_mv AT saruulkang functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT wenjingma functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT frankyonghongli functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT qingzhang functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT jianmingniu functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT yongding functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT fanghan functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
AT xiaolisun functionalredundancyinsteadofspeciesredundancydeterminescommunitystabilityinatypicalsteppeofinnermongolia
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