influence of productivity on the species richness of plants: a critical assessment

Despite much scrutiny the relationship between productivity and species richness remains controversial, and there is little agreement about causal processes. We present the results of a survey of 159 productivity-plant species richness (P-PSR) relationships from 131 published studies. We critically...

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Veröffentlicht in:	Ecology (Durham) 2006-05, Vol.87 (5), p.1234-1243
Hauptverfasser:	Gillman, Len N., Wright, Shane D.
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Sprache:	eng
Schlagworte:	Animal and plant ecology Animal, plant and microbial ecology Biodiversity Biological and medical sciences Biological Evolution Biomass Biomass production Climate competition diversity Ecological genetics Ecology Ecosystem energy Evolution experimental design Flowers & plants Fundamental and applied biological sciences. Psychology General aspects literature reviews Molecular evolution plant competition Plant Development Plants Plants - classification Population Dynamics Population ecology precipitation primary productivity Productivity scale Species Species diversity species pool species richness Species Specificity Statistical Reports Theory Vegetation
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container_title	Ecology (Durham)
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creator	Gillman, Len N. Wright, Shane D.
description	Despite much scrutiny the relationship between productivity and species richness remains controversial, and there is little agreement about causal processes. We present the results of a survey of 159 productivity-plant species richness (P-PSR) relationships from 131 published studies. We critically assessed each study with respect to experimental design and for the appropriateness of the surrogates used for productivity. We were able to accept only 60 of the reported relationships as robust tests of the P-PSR relationship and a further 18 as robust tests of the biomass-species richness relationship. Previous analyses have found that unimodal P-PSR relationships predominate. In contrast, we found that, in studies that used data of continental to global extent, all P-PSR relationships were positive regardless of grain, that almost all were also positive in data sets of regional extent, and that unimodal relationships were not dominant even in studies of fine grain or small spatial extent. Our results differ substantially from previous meta-analyses because previous studies have included a large number of studies that do not meet basic experimental design criteria for objectively testing P-PSR relationships. These results have important implications for theory that attempts to explain species richness patterns. We critically review four dominant theories in light of our results and develop new falsifiable predictions of relationship from these theories at both small and large spatial scales.
doi_str_mv	10.1890/0012-9658(2006)87[1234:TIOPOT]2.0.CO;2
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We present the results of a survey of 159 productivity-plant species richness (P-PSR) relationships from 131 published studies. We critically assessed each study with respect to experimental design and for the appropriateness of the surrogates used for productivity. We were able to accept only 60 of the reported relationships as robust tests of the P-PSR relationship and a further 18 as robust tests of the biomass-species richness relationship. Previous analyses have found that unimodal P-PSR relationships predominate. In contrast, we found that, in studies that used data of continental to global extent, all P-PSR relationships were positive regardless of grain, that almost all were also positive in data sets of regional extent, and that unimodal relationships were not dominant even in studies of fine grain or small spatial extent. Our results differ substantially from previous meta-analyses because previous studies have included a large number of studies that do not meet basic experimental design criteria for objectively testing P-PSR relationships. These results have important implications for theory that attempts to explain species richness patterns. 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subjects	Animal and plant ecology Animal, plant and microbial ecology Biodiversity Biological and medical sciences Biological Evolution Biomass Biomass production Climate competition diversity Ecological genetics Ecology Ecosystem energy Evolution experimental design Flowers & plants Fundamental and applied biological sciences. Psychology General aspects literature reviews Molecular evolution plant competition Plant Development Plants Plants - classification Population Dynamics Population ecology precipitation primary productivity Productivity scale Species Species diversity species pool species richness Species Specificity Statistical Reports Theory Vegetation
title	influence of productivity on the species richness of plants: a critical assessment
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