[Zoological diagnostics of soils: imperatives, purposes, and place within soil zoology and pedology].

Pub Date : 2013-11-01
V G Mordokovich
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Abstract

Zoological diagnostics of soils was conceived by M.S. Ghilarov as a part of soil zoology and intended to be closely related to pedology. He considered zoo-agents as an ecological factor, one among many others, of soil formation. Contemporary soil diagnostics pursues mostly utilitarian goals and is based on conservative properties of the stable part of soil substrate. However, it is admitted that these properties are generated by specific combinations of biological, chemical, and physical phenomena that are called "elementary soil processes" (ESP) and occur nowhere but in soils. Certain ESPs are associated with distinctive combinations of biota, including invertebrates. Pedobionts act as producers of detritus and contribute to humus formation, which is necessary for any ESP starting, thus being its active party. That is why animals, being the most complex and active part of the ESP system, may be treated not only as its indicators but also as its navigators. Monitoring and studying of ESPs in soil is complicated because of inevitable disturbance of soil profile natural composition. Zoo-agents, at the same time, can be registered without habitats changing. Taking into account ecological potency of soil invertebrates that participate in an ESP, spectra of their eco-groups, life forms, and results of their activity, it is possible to diagnose a soil state at different stages of certain ESPs development, with their different combinations, and in different regions or parts of natural environmental gradients.

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[土壤的动物学诊断:在土壤动物学和土壤学中的必要性、目的和地位]。
土壤动物学诊断是由ms Ghilarov作为土壤动物学的一部分构思的,并打算与土壤学密切相关。他认为动物园制剂是土壤形成的生态因素之一。当代土壤诊断主要追求功利目标,并基于土壤基质稳定部分的保守性。然而,人们承认,这些特性是由生物、化学和物理现象的特定组合产生的,这些现象被称为“基本土壤过程”(ESP),只发生在土壤中。某些esp与生物群的独特组合有关,包括无脊椎动物。腐殖生物作为碎屑的生产者,并有助于腐殖质的形成,这是任何ESP启动所必需的,因此是其活跃方。这就是为什么动物作为ESP系统中最复杂和最活跃的部分,不仅可以被视为它的指示器,而且可以被视为它的导航员。由于土壤剖面自然成分不可避免地受到干扰,土壤中esp的监测与研究十分复杂。与此同时,动物园代理人可以在不改变栖息地的情况下注册。考虑到参与ESP的土壤无脊椎动物的生态效力、生态类群谱、生命形式及其活动结果,可以诊断特定ESP发展的不同阶段、不同组合以及不同区域或部分自然环境梯度的土壤状态。
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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