农林业景观中土壤冻融动态

Q4 Agricultural and Biological Sciences Biulleten'' Pochvennogo instituta im VV Dokuchaeva Pub Date : 2022-11-25 DOI:10.19047/0136-1694-2022-112-160-180
A. Kulik, O. Gordienko, M. R. Shaifullin
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引用次数: 0

摘要

本文介绍了干旱草原区农林复合景观中土壤的冻融动态。在积雪不稳定的冬季,这些过程有其自身的特点。本研究旨在探讨冬季低降雪条件下农林复合景观土壤的冻融特性。观测于2020-2021年冬季在伏尔加格勒现有的径流侵蚀研究站进行。利用丹妮林冻融仪在四排林带的田间和中心进行了土壤冻融动态研究。同时,用测雪棒一式三份测量积雪高度。天气条件的特点是交替融化,促进积雪融化,霜冻增加土壤冻结深度。10-15厘米积雪的形成不会影响土壤的冻结。在短暂解冻的背景下没有雪的情况下,与林带相比,田地里冰冻层的下边界减少了11厘米,即使在无叶状态下,这也会影响太阳能的流入。冬季结束时,田地和林带的平均冰冻厚度分别为85厘米和67厘米。田地里的解冻速度更快。在最初的两周里,田地里的土壤融化速度平均为2.3厘米/天,林带里的土壤解冻速度平均为1.3厘米/天。之后,整个农林景观的冻结深度变得相等。在接下来的两周里,解冻速度翻了一番。在林带的田地里土壤完全融化后,冻土层的厚度平均为32厘米。
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Dynamics of soil freezing and thawing in the agroforestry landscape
The article presents the dynamics of soil freezing and thawing in the agroforestry landscape of the dry-steppe zone. These processes in winters with unstable snow cover have their own characteristics. The purpose of this study was to investigate the character of soil freezing and thawing in the agroforestry landscape under conditions of low snowfall winters. Observations were carried out in the winter period of 2020–2021 at the existing runoff-erosion research station in Volgograd. The dynamics of soil freezing and thawing was studied using Danilin freeze-thaw meters installed in the field and in the center of a four-row forest belt. Simultaneously, snow cover height was measured in triplicate with a snow measuring rod. The weather conditions were characterized by alternating thaws, which promoted snow cover melt, and frosts, which increased the depth of soil freezing. The formation of a 10-15 cm snow cover did not affect soil freezing. In the absence of snow on the background of a brief thaw, the lower boundary of the frozen layer in the field decreased by 11 cm compared to the forest belt, which even in the leafless state affected the inflow of solar thermal energy. Average freezing at the end of winter was 85 cm in the field and 67 cm in the forest belt. Thawing in the field was faster. During the first two weeks, the rate of soil thawing averaged 2.3 cm/day in the field and 1.3 cm/day in the forest belt. After that, the depth of freezing in the whole agroforestry landscape became equal. During the next two weeks, the thawing rate doubled. After complete soil thawing in the field in the forest belt, the thickness of the frozen layer averaged 32 cm.
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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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