Importance of assemblage-level thinning: A field experiment in an alpine meadow on the Tibet plateau

Importance of assemblage-level thinning: A field experiment in an alpine meadow on the Tibet plateau

Question: Which fraction of the decrease in species richness under fertilization can be explained by assemblage-level thinning? Location: An alpine meadow on the eastern Tibet plateau. Methods: 60-m2 plots were randomly assigned to a control or one of four levels of ammonium phosphate fertilizer. Tr...

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Veröffentlicht in:Journal of vegetation science 2006-09, Vol.17 (4), p.417-424
Hauptverfasser: Yanjiang, Luo, Guanglian, Qin, Guozhen, Du
Format: Artikel
Sprache:eng
Schlagworte:
alpine meadows
Biomass
correlation
Density
Diversity
Fertilization
fertilizer rates
Fertilizers
field experimentation
interspecific competition
Meadows
phosphorus fertilizers
Plant communities
Plant species richness
Plants
plateaus
Productivity
Rarefaction
Species
Species diversity
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creator Yanjiang, Luo
Guanglian, Qin
Guozhen, Du
description Question: Which fraction of the decrease in species richness under fertilization can be explained by assemblage-level thinning? Location: An alpine meadow on the eastern Tibet plateau. Methods: 60-m2 plots were randomly assigned to a control or one of four levels of ammonium phosphate fertilizer. Treatments were repeated for three years. The effect of assemblage-level thinning was decided based on similarity in quadrats within and between fertilizing levels, bootstrap simulation based on random thinning of the high density (low production, low fertility) quadrats and correlation of species' biomass in low fertility and high fertility. Results: Fertilization increased production, reduced species richness and reduced density of individuals. Heavily fertilized quadrats are more similar in species composition in 2000 but less similar in 2001 and 2002. Rarefaction showed that a decrease in density can account for 32.3–42.9% decrease of species richness, but the simulated species richness is always significantly higher than the observed one. When production and species richness are similar at two levels of fertilization, species biomass in the higher fertility treatment is positively correlated with biomass at lower fertility. When the two fertilizer levels differed in production and species richness, there was no evidence of correlation in species biomass, suggesting that assemblage level thinning cannot explain all the loss of species. Conclusion: Although a decrease in density could explain much of the decrease (up to 42.9%) in species richness when this alpine meadow was fertilized, other important mechanisms such as interspecific competition cannot be ignored. Future studies should investigate the effect of assemblage level thinning on species diversity, and search for mechanisms responsible for a decrease in diversity. Abbreviations: ALT = Assemblage level thinning; GLM = General linear model; ISC = Inter-specific competition. Nomenclature: Anon. (1998).
doi_str_mv 10.1658/1100-9233(2006)17[417:IOATAF]2.0.CO;2
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Location: An alpine meadow on the eastern Tibet plateau. Methods: 60-m2 plots were randomly assigned to a control or one of four levels of ammonium phosphate fertilizer. Treatments were repeated for three years. The effect of assemblage-level thinning was decided based on similarity in quadrats within and between fertilizing levels, bootstrap simulation based on random thinning of the high density (low production, low fertility) quadrats and correlation of species' biomass in low fertility and high fertility. Results: Fertilization increased production, reduced species richness and reduced density of individuals. Heavily fertilized quadrats are more similar in species composition in 2000 but less similar in 2001 and 2002. Rarefaction showed that a decrease in density can account for 32.3–42.9% decrease of species richness, but the simulated species richness is always significantly higher than the observed one. When production and species richness are similar at two levels of fertilization, species biomass in the higher fertility treatment is positively correlated with biomass at lower fertility. When the two fertilizer levels differed in production and species richness, there was no evidence of correlation in species biomass, suggesting that assemblage level thinning cannot explain all the loss of species. Conclusion: Although a decrease in density could explain much of the decrease (up to 42.9%) in species richness when this alpine meadow was fertilized, other important mechanisms such as interspecific competition cannot be ignored. Future studies should investigate the effect of assemblage level thinning on species diversity, and search for mechanisms responsible for a decrease in diversity. Abbreviations: ALT = Assemblage level thinning; GLM = General linear model; ISC = Inter-specific competition. Nomenclature: Anon. 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Location: An alpine meadow on the eastern Tibet plateau. Methods: 60-m2 plots were randomly assigned to a control or one of four levels of ammonium phosphate fertilizer. Treatments were repeated for three years. The effect of assemblage-level thinning was decided based on similarity in quadrats within and between fertilizing levels, bootstrap simulation based on random thinning of the high density (low production, low fertility) quadrats and correlation of species' biomass in low fertility and high fertility. Results: Fertilization increased production, reduced species richness and reduced density of individuals. Heavily fertilized quadrats are more similar in species composition in 2000 but less similar in 2001 and 2002. Rarefaction showed that a decrease in density can account for 32.3–42.9% decrease of species richness, but the simulated species richness is always significantly higher than the observed one. When production and species richness are similar at two levels of fertilization, species biomass in the higher fertility treatment is positively correlated with biomass at lower fertility. When the two fertilizer levels differed in production and species richness, there was no evidence of correlation in species biomass, suggesting that assemblage level thinning cannot explain all the loss of species. Conclusion: Although a decrease in density could explain much of the decrease (up to 42.9%) in species richness when this alpine meadow was fertilized, other important mechanisms such as interspecific competition cannot be ignored. Future studies should investigate the effect of assemblage level thinning on species diversity, and search for mechanisms responsible for a decrease in diversity. Abbreviations: ALT = Assemblage level thinning; GLM = General linear model; ISC = Inter-specific competition. Nomenclature: Anon. 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Location: An alpine meadow on the eastern Tibet plateau. Methods: 60-m2 plots were randomly assigned to a control or one of four levels of ammonium phosphate fertilizer. Treatments were repeated for three years. The effect of assemblage-level thinning was decided based on similarity in quadrats within and between fertilizing levels, bootstrap simulation based on random thinning of the high density (low production, low fertility) quadrats and correlation of species' biomass in low fertility and high fertility. Results: Fertilization increased production, reduced species richness and reduced density of individuals. Heavily fertilized quadrats are more similar in species composition in 2000 but less similar in 2001 and 2002. Rarefaction showed that a decrease in density can account for 32.3–42.9% decrease of species richness, but the simulated species richness is always significantly higher than the observed one. When production and species richness are similar at two levels of fertilization, species biomass in the higher fertility treatment is positively correlated with biomass at lower fertility. When the two fertilizer levels differed in production and species richness, there was no evidence of correlation in species biomass, suggesting that assemblage level thinning cannot explain all the loss of species. Conclusion: Although a decrease in density could explain much of the decrease (up to 42.9%) in species richness when this alpine meadow was fertilized, other important mechanisms such as interspecific competition cannot be ignored. Future studies should investigate the effect of assemblage level thinning on species diversity, and search for mechanisms responsible for a decrease in diversity. Abbreviations: ALT = Assemblage level thinning; GLM = General linear model; ISC = Inter-specific competition. Nomenclature: Anon. (1998).</abstract><pub>Blackwell Publishing Ltd</pub><doi>10.1658/1100-9233(2006)17[417:IOATAF]2.0.CO;2</doi><tpages>8</tpages></addata></record>
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source Jstor Complete Legacy; Wiley Online Library Journals Frontfile Complete
subjects alpine meadows
Biomass
correlation
Density
Diversity
Fertilization
fertilizer rates
Fertilizers
field experimentation
interspecific competition
Meadows
phosphorus fertilizers
Plant communities
Plant species richness
Plants
plateaus
Productivity
Rarefaction
Species
Species diversity
title Importance of assemblage-level thinning: A field experiment in an alpine meadow on the Tibet plateau
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