A regional-scale assessment of using metabolic scaling theory to predict ecosystem properties

James K. McCarthy, J. Dwyer, K. Mokany
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引用次数: 5

Abstract

Metabolic scaling theory (MST) is one of ecology's most high-profile general models and can be used to link size distributions and productivity in forest systems. Much of MST's foundation is based on size distributions following a power law function with a scaling exponent of −2, a property assumed to be consistent in steady-state ecosystems. We tested the theory's generality by comparing actual size distributions with those predicted using MST parameters assumed to be general. We then used environmental variables and functional traits to explain deviation from theoretical expectations. Finally, we compared values of relative productivity predicted using MST with a remote-sensed measure of productivity. We found that fire-prone heath communities deviated from MST-predicted size distributions, whereas fire-sensitive rainforests largely agreed with the theory. Scaling exponents ranged from −1.4 to −5.3. Deviation from the power law assumption was best explained by specific leaf area, which varies along fire frequency and moisture gradients. While MST may hold in low-disturbance systems, we show that it cannot be applied under many environmental contexts. The theory should remain general, but understanding the factors driving deviation from MST and subsequent refinements is required if it is to be applied robustly across larger scales.
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利用代谢标度理论预测生态系统特性的区域尺度评价
代谢尺度理论(MST)是生态学中最引人注目的通用模型之一,可用于森林系统尺度分布与生产力之间的联系。MST的大部分基础都是基于尺寸分布的幂律函数,其缩放指数为- 2,这一特性被认为在稳态生态系统中是一致的。我们通过比较实际尺寸分布与假设为一般的MST参数预测的尺寸分布来测试理论的普遍性。然后,我们使用环境变量和功能特征来解释偏离理论预期。最后,我们将MST预测的相对生产力值与遥感生产力测量值进行了比较。我们发现,火灾易发的健康群落偏离了mst预测的大小分布,而火灾敏感的雨林在很大程度上符合该理论。缩放指数范围为−1.4至−5.3。与幂律假设的偏差最好用比叶面积来解释,比叶面积随火灾频率和湿度梯度而变化。虽然MST可能适用于低干扰系统,但我们表明它不能应用于许多环境背景。该理论应保持一般性,但如果要在更大的尺度上稳健地应用该理论,就需要了解导致偏离MST的因素以及随后的改进。
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