Abstract

Soil resources are determined with the use of spatial indicators of soil genetic differences. This approach is the universal basis for an accounting of soil resources on a global, regional, and local scale. The spatial indicators include the areas of functioning soils and their detailed characteristics: the contour size, the area in units of measurement, their number, the nature of border crossing, and the rotation frequency. The purpose of this work is to identify the potential of bioproduction processes in which the potential inherent in soil areas is marked by an unlimited increase in productivity within the existing soil dimensions and geometric outlines. The main difference is an increase in the phytomass and photosynthetic activity of plants on a naturally limited soil area with the inexhaustible resources of the cosmic energy of the sun and the processes taking place in the physical and geographical environment. Combinations of the complexes formed by soil properties and their use lead to the formation of categories of sources of resource renewal, which compensate for the lack of new areas allocated for development.

中文翻译：

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土壤覆盖物中生物生产资源的潜力：其使用和更新的来源

摘要

利用土壤遗传差异的空间指标确定土壤资源。这种方法是在全球，区域和地方范围内对土壤资源进行核算的通用基础。空间指标包括起作用的土壤的面积及其详细特征：轮廓尺寸，以度量单位表示的面积，其数量，边界的性质和旋转频率。这项工作的目的是确定生物生产过程的潜力，其中土壤区域内在的潜在潜力是在现有土壤尺寸和几何轮廓内无限增加生产力的特征。主要区别在于在自然有限的土壤区域中，植物的植物的光气与光合作用活性有所提高，而太阳宇宙能量的资源则用之不竭，并且其过程在自然和地理环境中发生。由土壤特性形成的复合物及其用途的组合导致形成资源更新来源的类别，从而弥补了分配给发展的新区域不足的问题。