Species richness vs evenness: independent relationship and different responses to edaphic factors

The main components of species diversity are richness and evenness. Species richness has been the subject of biodiversity studies more often than species evenness. Some simulated models suggest that the relationship between these two components is equal and predictable in a stable environment. This...

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Published in	Oikos Vol. 111; no. 1; pp. 192 - 198
Main Author	Ma, Maohua
Format	Journal Article
Language	English
Published	Copenhagen Munksgaard International Publishers 01.10.2005 Blackwell Publishers Blackwell Blackwell Publishing Ltd
Subjects	Animal and plant ecology Animal, plant and microbial ecology Biodiversity Biological and medical sciences Boundaries Correlation analysis Ecosystems Edaphic factors Fundamental and applied biological sciences. Psychology General aspects Heterogeneity Nitrogen Ordination Organic carbon Organic phosphorus Plant ecology Plant species Plants Population ecology Simulation Soil ecology Species Species diversity Species richness Synecology Vegetation Edaphic factor Environmental factor Species evenness Species richness
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Abstract	The main components of species diversity are richness and evenness. Species richness has been the subject of biodiversity studies more often than species evenness. Some simulated models suggest that the relationship between these two components is equal and predictable in a stable environment. This study was conducted in a human-shaped and unstable environment in arable field boundaries. A total of 30 sampling plots were laid out at random in the boundaries. Vegetation at the sites was of meadow type. The relationship between species richness and evenness, and their responses to edaphic nutrient factors in the field boundaries, were examined by correlation analysis and an ordination method. Correlation analyses demonstrated that no consistent pattern was present in the relationship between species evenness and species richness in this human-shaped ecosystem. Species richness and evenness also had different responses to edaphic factors, with species richness being negatively correlated with phosphorus, and species evenness negatively correlated with the ratio of organic carbon to total nitrogen in soil. The results indicate that different and independent ecological processes determine species richness and evenness. The relationship between these two components may be site-specific, reflecting variation in resource utilization by plant species. The pattern thus reflects the spatial heterogeneity of disturbances or 'patchiness' of resources between sites in a semi-natural ecosystem.
AbstractList	The main components of species diversity are richness and evenness. Species richness has been the subject of biodiversity studies more often than species evenness. Some simulated models suggest that the relationship between these two components is equal and predictable in a stable environment. This study was conducted in a human‐shaped and unstable environment in arable field boundaries. A total of 30 sampling plots were laid out at random in the boundaries. Vegetation at the sites was of meadow type. The relationship between species richness and evenness, and their responses to edaphic nutrient factors in the field boundaries, were examined by correlation analysis and an ordination method. Correlation analyses demonstrated that no consistent pattern was present in the relationship between species evenness and species richness in this human‐shaped ecosystem. Species richness and evenness also had different responses to edaphic factors, with species richness being negatively correlated with phosphorus, and species evenness negatively correlated with the ratio of organic carbon to total nitrogen in soil. The results indicate that different and independent ecological processes determine species richness and evenness. The relationship between these two components may be site‐specific, reflecting variation in resource utilization by plant species. The pattern thus reflects the spatial heterogeneity of disturbances or ‘patchiness’ of resources between sites in a semi‐natural ecosystem. The main components of species diversity are richness and evenness. Species richness has been the subject of biodiversity studies more often than species evenness. Some simulated models suggest that the relationship between these two components is equal and predictable in a stable environment. This study was conducted in a human-shaped and unstable environment in arable field boundaries. A total of 30 sampling plots were laid out at random in the boundaries. Vegetation at the sites was of meadow type. The relationship between species richness and evenness, and their responses to edaphic nutrient factors in the field boundaries, were examined by correlation analysis and an ordination method. Correlation analyses demonstrated that no consistent pattern was present in the relationship between species evenness and species richness in this human-shaped ecosystem. Species richness and evenness also had different responses to edaphic factors, with species richness being negatively correlated with phosphorus, and species evenness negatively correlated with the ratio of organic carbon to total nitrogen in soil. The results indicate that different and independent ecological processes determine species richness and evenness. The relationship between these two components may be site-specific, reflecting variation in resource utilization by plant species. The pattern thus reflects the spatial heterogeneity of disturbances or 'patchiness' of resources between sites in a semi-natural ecosystem. [PUBLICATION ABSTRACT]
Author	Ma, Maohua
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Snippet	The main components of species diversity are richness and evenness. Species richness has been the subject of biodiversity studies more often than species...
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SubjectTerms	Animal and plant ecology Animal, plant and microbial ecology Biodiversity Biological and medical sciences Boundaries Correlation analysis Ecosystems Edaphic factors Fundamental and applied biological sciences. Psychology General aspects Heterogeneity Nitrogen Ordination Organic carbon Organic phosphorus Plant ecology Plant species Plants Population ecology Simulation Soil ecology Species Species diversity Species richness Synecology Vegetation
Title	Species richness vs evenness: independent relationship and different responses to edaphic factors
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