[Trophic chains in soil].

Pub Date : 2013-11-01
A A Goncharov, A V Tiunov
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引用次数: 0

Abstract

Trophic links of soil animals are extensively diverse but also flexible. Moreover, feeding activity of large soil saprotrophs often cascades into a range of ecosystem-level consequences via the ecological engineering. Better knowledge on the main sources of energy utilized by soil animals is needed for understanding functional structure of soil animal communities and their participation in the global carbon cycling. Using published and original data, we consider the relative importance of dead organic matter and saprotrophic microorganisms as a basal energy source in the detritus-based food chains, the feeding of endogeic macrofauna on the stabilized soil organic matter, and the role of recent photosynthate in the energy budget of soil communities. Soil food webs are spatially and functionally compartmentalized, though the separation of food chains into bacteria- and fungi-based channels seems to be an over-simplification. The regulation of the litter decomposition rates via top-down trophic interactions across more than one trophic level is only partly supported by experimental data, but mobile litter-dwelling predators play a crucial role in integrating local food webs within and across neighboring ecosystems.

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[土壤中的营养链]。
土壤动物的营养联系广泛多样,但也很灵活。此外,大型土壤腐养菌的取食活动往往通过生态工程引发一系列生态系统水平的后果。为了更好地理解土壤动物群落的功能结构及其对全球碳循环的参与,需要更好地了解土壤动物利用的主要能源。利用已发表的和原始的数据,我们考虑了死亡有机质和腐养微生物作为碎屑基食物链中基础能量来源的相对重要性,内源性大型动物对稳定土壤有机质的摄食,以及近期光合作用在土壤群落能量收支中的作用。土壤食物网在空间和功能上是分开的,尽管将食物链分为细菌和真菌的渠道似乎过于简单化。通过自上而下的营养相互作用对凋落物分解率的调节在一个以上的营养水平上仅得到实验数据的部分支持,但移动的凋落物捕食者在整合邻近生态系统内部和之间的当地食物网方面发挥了至关重要的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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