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食物网体型结构的系统变化与外部补贴有关。

Systematic variation in food web body-size structure linked to external subsidies.

机构信息

Department of Life Sciences, Whitelands College, University of Roehampton, London SW15 4JD, UK.

Cardiff Water Research Institute, Cardiff School of Biosciences, Cardiff University, PO Box 915, Cardiff CF10 3TL, UK.

出版信息

Biol Lett. 2021 Mar;17(3):20200798. doi: 10.1098/rsbl.2020.0798. Epub 2021 Mar 17.

Abstract

The relationship between body mass (M) and size class abundance (N) depicts patterns of community structure and energy flow through food webs. While the general assumption is that M and N scale linearly (on log-log axes), nonlinearity is regularly observed in natural systems, and is theorized to be driven by nonlinear scaling of trophic level (TL) with M resulting in the rapid transfer of energy to consumers in certain size classes. We tested this hypothesis with data from 31 stream food webs. We predicted that allochthonous subsidies higher in the web results in nonlinear M-TL relationships and systematic abundance peaks in macroinvertebrate and fish size classes (latter containing salmonids), that exploit terrestrial plant material and terrestrial invertebrates, respectively. Indeed, both M-N and M-TL significantly deviated from linear relationships and the observed curvature in M-TL scaling was inversely related to that observed in M-N relationships. Systemic peaks in M-N, and troughs in M-TL occurred in size classes dominated by generalist invertebrates, and brown trout. Our study reveals how allochthonous resources entering high in the web systematically shape community size structure and demonstrates the relevance of a generalized metabolic scaling model for understanding patterns of energy transfer in energetically 'open' food webs.

摘要

摘要:生物量(M)与类群丰度(N)之间的关系描绘了群落结构和通过食物网的能量流动模式。虽然普遍的假设是 M 和 N 呈线性(在对数-对数轴上)缩放,但在自然系统中经常观察到非线性,并且理论上认为这是由营养级(TL)与 M 的非线性缩放驱动的,这导致能量迅速转移到特定大小类别的消费者中。我们使用来自 31 个溪流食物网的数据来检验这个假设。我们预测,网络中更高的异养生物输入会导致 M-TL 关系呈非线性,并且在大型无脊椎动物和鱼类的大小类群(后者包含鲑鱼)中出现系统的丰度峰值,分别利用陆地植物材料和陆地无脊椎动物。事实上,M-N 和 M-TL 都显著偏离线性关系,并且观察到的 M-TL 缩放中的曲率与在 M-N 关系中观察到的曲率呈反比。在以兼性无脊椎动物和褐鳟为主的大小类群中,M-N 系统出现峰值,而 M-TL 出现低谷。我们的研究揭示了进入网络高位的异养资源如何系统地塑造群落大小结构,并证明了广义代谢缩放模型对于理解能量“开放”食物网中能量传递模式的相关性。

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