食草动物的新陈代谢和化学计量学在生态系统中不同的组织尺度上各自限制着食草作用。

Herbivore metabolism and stoichiometry each constrain herbivory at different organizational scales across ecosystems.

作者信息

Hillebrand Helmut, Borer Elizabeth T, Bracken Matthew E S, Cardinale Bradley J, Cebrian Just, Cleland Elsa E, Elser James J, Gruner Daniel S, Harpole W Stanley, Ngai Jacqueline T, Sandin Stuart, Seabloom Eric W, Shurin Jonathan B, Smith Jennifer E, Smith Melinda D

机构信息

Institute for Chemistry and Biology of the Marine Environment, Carl-von-Ossietzky-University Oldenburg, Schleusenstrasse 1, D-26385 Wilhelmshaven, Germany.

出版信息

Ecol Lett. 2009 Jun;12(6):516-27. doi: 10.1111/j.1461-0248.2009.01304.x. Epub 2009 Apr 22.

DOI:10.1111/j.1461-0248.2009.01304.x

PMID:19392711

Abstract

Plant-herbivore interactions mediate the trophic structure of ecosystems. We use a comprehensive data set extracted from the literature to test the relative explanatory power of two contrasting bodies of ecological theory, the metabolic theory of ecology (MTE) and ecological stoichiometry (ES), for per-capita and population-level rates of herbivory across ecosystems. We found that ambient temperature and herbivore body size (MTE) as well as stoichiometric mismatch (ES) both constrained herbivory, but at different scales of biological organization. Herbivore body size, which varied over 11 orders of magnitude, was the primary factor explaining variation in per-capita rates of herbivory. Stoichiometric mismatch explained more variation in population-level herbivory rates and also in per-capita rates when we examined data from within functionally similar trophic groups (e.g. zooplankton). Thus, predictions from metabolic and stoichiometric theories offer complementary explanations for patterns of herbivory that operate at different scales of biological organization.

摘要

植物与食草动物的相互作用介导了生态系统的营养结构。我们使用从文献中提取的综合数据集，来检验两种截然不同的生态理论——生态学代谢理论（MTE）和生态化学计量学（ES）——对于跨生态系统的人均和种群水平食草率的相对解释力。我们发现，环境温度和食草动物体型（MTE）以及化学计量不匹配（ES）都对食草行为有所限制，但作用于不同的生物组织尺度。食草动物体型跨越11个数量级，是解释人均食草率变化的主要因素。当我们研究功能相似的营养组（如浮游动物）内部的数据时，化学计量不匹配对种群水平食草率以及人均食草率的变化解释得更多。因此，代谢理论和化学计量理论的预测为在不同生物组织尺度上运行的食草模式提供了互补的解释。

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食草动物的新陈代谢和化学计量学在生态系统中不同的组织尺度上各自限制着食草作用。

Herbivore metabolism and stoichiometry each constrain herbivory at different organizational scales across ecosystems.

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