高压输电线敷设后的土壤覆盖物改造

Q4 Agricultural and Biological Sciences Biulleten'' Pochvennogo instituta im VV Dokuchaeva Pub Date : 2023-09-25 DOI:10.19047/0136-1694-2023-116-26-42
M. K. Zakharova, Yu. R. Morgach, E. Yu. Sukhacheva
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引用次数: 0

摘要

今天,人为改变土壤覆盖的速度大大超过了其自然恢复的速度。根据列宁格勒地区1:20万比例尺的现代数字土壤地图,人为修改的自然土壤亚型占主导地位,这些土壤类型是人类经济活动的结果。本文考虑了高压输电线路境内土壤和土壤覆盖的人为变化。研究区域为100×500米,位于Kalivets和Novaya Ust-Kapsha定居点之间的Tikhvinsky区。境内景观属湖冰平原,成土岩为湖冰砂和砂壤土。不受技术工程影响的天然土壤只能在森林中找到,在电力线建设期间铺设的空地之外。它们分别是白垩灰,纯灰,纯灰,纯灰,纯灰和纯灰。研究区原始天然土壤的层位被部分或完全切断、扰动、压实,形成了人为转化的过压实、磨碎、浑浊和层状等亚型。有时土壤物质暴露在地表并在研究区域移动数十米。高压线建设后,在土壤覆盖层中出现了新的地层,如灰化土、隐埋土和几种非土壤地层。结果表明,每一项技术作业(采伐、安装输电线路支架、技术作业场所的组织和临时道路的修建)都有其特殊的土壤覆盖扰动特征。因此,在输电线路建设后,覆盖层中没有具有未受扰动结构的天然土壤。除了场地土壤覆盖发生根本性变化外,自然植被减少,中地形被部分破坏,微地形几乎完全改变。所有这些人为变化都会影响土壤覆盖的生态功能质量。在输电线路的进一步运行过程中,如清理断路空地、更新防火矿化带、维护电网等,会周期性地重复对土壤覆盖层的扰动,使生态系统无法恢复到原来的状态。
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Soil cover transformation after the laying of a high-voltage power line
Today the rate of anthropogenic transformations of the soil cover significantly exceeds the rate of its natural restoration. According to a modern digital soil map at a scale of 1 : 200,000 in the Leningrad Region anthropogenically modified subtypes of natural soils, which were formed as a result of human economic activity, predominate. The article considers anthropogenic changes in soils and soil cover of the territory of the high-voltage power line. The study area of 100×500 meters is located in the Tikhvinsky district between the settlements of Kalivets and Novaya Ust-Kapsha. The landscape of the territory belongs to the lake-glacial plain, the soil-forming rocks are lake-glacial sands and sandy loam. Natural soils that are not affected by technological works are found only in the forest, outside the clearing laid during the construction of the power line. These are Albic Podzol, Entic Podzol, Histic Albic Podzol, Histic Entic Podzol and Histic Gleysol. It was revealed that in the study area, the horizons of the original natural soils are partially or completely cut off, turbated, compacted, which led to the formation of their anthropogenically transformed subtypes: over-compacted, abraded, turbid and stratified. Sometimes soil material is exposed to the surface and moved over the study area by tens of meters. After the construction of the high-voltage line, new formations appeared in the soil cover, such as Podzol Nudispodic, buried soils and several types of non-soil formations. It is revealed that each technological operation (logging, installation of power transmission line supports, organization of places for technological operations and the creation of temporary roads) is characterized by its own special disturbances in the soil cover. Thus, after the construction of the power line, there were no natural soils with an undisturbed structure in the soil cover. In addition to the fundamental transformation of the soil cover at the site, natural vegetation was reduced, the mesorelief was partially disrupted and the microrelief was almost completely changed. All these anthropogenic transformations will affect the quality of the ecological functions of the soil cover. During the further operation of power transmission lines, such as clearing a cut-out clearing, updating fire-prevention mineralized strips, maintaining the power grid, disturbances of the soil cover will be periodically repeated, preventing the ecosystem from returning to its original state.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
15
审稿时长
8 weeks
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