Plant mass-density relationship along moisture gradient in north-west China

Jianming Deng; Genxuan Wang; Charles Morris; Xiaoping Wei; Dongxiu Li; Baoming Chen; Changming Zhao; Jing Liu; Yun Wang

Plant mass-density relationship along moisture gradient in north-west China

Jianming Deng, Genxuan Wang, Charles Morris, Xiaoping Wei, Dongxiu Li, Baoming Chen, Changming Zhao, Jing Liu, Yun Wang

Research output: Contribution to journal › Article

Abstract

1 Metabolic scaling theory predicts that the rate of resource use per unit area is independent of the average mass per individual and that the slope of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship should be ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 2 Data were obtained from plant communities along a natural gradient of moisture and latitude in north-west China to test the generality of this theory. 3 The allometric exponents (slopes of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship) for above-ground biomass decreased with natural moisture levels and plant cover, deviating from the predictions of the energy equivalence theory. Allometric exponents for below-ground and total biomass were similar among the three sites and were much closer to the predicted value of ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 4 Metabolic scaling theory may be applicable under many growth conditions, but not when restricted to above-ground biomass under drought stress. The rate of supply of the limiting resource per unit area determines which plant parts behave according to theory.

Original language	English
Journal	Journal of Ecology
Publication status	Published - 2006

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title = "Plant mass-density relationship along moisture gradient in north-west China",

abstract = "1 Metabolic scaling theory predicts that the rate of resource use per unit area is independent of the average mass per individual and that the slope of the log mass{\~A}ƒ{\^A}¢{\~A}¢{"}{\v s}{\^A}¬{\~A}¢{\^a}‚¬{\AA}“log density relationship should be {\~A}ƒ{\^A}¢{\~A}‹{"} {\~A}¢{\^a}‚¬{\^a}„¢4/3. 2 Data were obtained from plant communities along a natural gradient of moisture and latitude in north-west China to test the generality of this theory. 3 The allometric exponents (slopes of the log mass{\~A}ƒ{\^A}¢{\~A}¢{"}{\v s}{\^A}¬{\~A}¢{\^a}‚¬{\AA}“log density relationship) for above-ground biomass decreased with natural moisture levels and plant cover, deviating from the predictions of the energy equivalence theory. Allometric exponents for below-ground and total biomass were similar among the three sites and were much closer to the predicted value of {\~A}ƒ{\^A}¢{\~A}‹{"} {\~A}¢{\^a}‚¬{\^a}„¢4/3. 4 Metabolic scaling theory may be applicable under many growth conditions, but not when restricted to above-ground biomass under drought stress. The rate of supply of the limiting resource per unit area determines which plant parts behave according to theory.",

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author = "Jianming Deng and Genxuan Wang and Charles Morris and Xiaoping Wei and Dongxiu Li and Baoming Chen and Changming Zhao and Jing Liu and Yun Wang",

year = "2006",

language = "English",

journal = "Journal of Ecology",

issn = "0022-0477",

publisher = "Wiley-Blackwell Publishing Ltd",

}

TY - JOUR

T1 - Plant mass-density relationship along moisture gradient in north-west China

AU - Deng, Jianming

AU - Wang, Genxuan

AU - Morris, Charles

AU - Wei, Xiaoping

AU - Li, Dongxiu

AU - Chen, Baoming

AU - Zhao, Changming

AU - Liu, Jing

AU - Wang, Yun

PY - 2006

Y1 - 2006

N2 - 1 Metabolic scaling theory predicts that the rate of resource use per unit area is independent of the average mass per individual and that the slope of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship should be ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 2 Data were obtained from plant communities along a natural gradient of moisture and latitude in north-west China to test the generality of this theory. 3 The allometric exponents (slopes of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship) for above-ground biomass decreased with natural moisture levels and plant cover, deviating from the predictions of the energy equivalence theory. Allometric exponents for below-ground and total biomass were similar among the three sites and were much closer to the predicted value of ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 4 Metabolic scaling theory may be applicable under many growth conditions, but not when restricted to above-ground biomass under drought stress. The rate of supply of the limiting resource per unit area determines which plant parts behave according to theory.

AB - 1 Metabolic scaling theory predicts that the rate of resource use per unit area is independent of the average mass per individual and that the slope of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship should be ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 2 Data were obtained from plant communities along a natural gradient of moisture and latitude in north-west China to test the generality of this theory. 3 The allometric exponents (slopes of the log massÃƒÂ¢Ã¢"šÂ¬Ã¢â‚¬Å“log density relationship) for above-ground biomass decreased with natural moisture levels and plant cover, deviating from the predictions of the energy equivalence theory. Allometric exponents for below-ground and total biomass were similar among the three sites and were much closer to the predicted value of ÃƒÂ¢Ã‹" Ã¢â‚¬â„¢4/3. 4 Metabolic scaling theory may be applicable under many growth conditions, but not when restricted to above-ground biomass under drought stress. The rate of supply of the limiting resource per unit area determines which plant parts behave according to theory.

KW - #VALUE!

UR - http://handle.uws.edu.au:8081/1959.7/34763

M3 - Article

SN - 0022-0477

JO - Journal of Ecology

JF - Journal of Ecology

ER -

Plant mass-density relationship along moisture gradient in north-west China

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