ICING MAPPING IN THE CHIKOY RIVER TRANSBOUNDARY BASIN

V. N. Chernykh, A. Ayurzhanaev, M. A. Zharnikova, B. Sodnomov, A. Shikhov, B. Tsydypov, E. Garmaev, S. V. Piankov
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引用次数: 2

Abstract

The basin of the transboundary Chikoy River is the largest in terms of area among the catchment areas of the main tributaries of the Selenga River. The Selenga basin as a whole is characterized by a wide distribution of icing. The paper presents the results of mapping icings and their distribution according to various physical and geographical characteristics. Based on the Landsat-8 satellite imagery for 2019, a cartographic database of icings was compiled for the first time for this territory. The database includes 6,319 objects on a total area of 140 km2. The largest icing is 671.13 thousand m2 in area. The mean value, median, and mode are 22.16, 12.86, and 10.24 thousand m2, respectively. Most of the icings are located at altitudes of 900–1,200 m and on the slopes of the eastern exposure. Icings were not found in the western part of the Chikoy River basin and in the near-top belt of the ridges. Fissure rocks are predominant in the study area, which indicates the leading role of groundwater in the formation of icing. The greatest icing coverage is found in areas with annual precipitation in the range of 350–460 mm and with an average annual temperature of –2.5 ... –3℃. In the landscape structure, icing is common in low- and mid-mountain taiga larch-dark coniferous landscapes. About 80% of the icings are located on the complexes of soddy podburs, podburs, soddy podzols, and other associated soils. The level of icing coverage was found to be not proportional to the natural resources of groundwater, which can be caused by both the imperfection of the original groundwater map and the uncharacteristic manifestation of icing in 2019. The resulting database will become the basis for retrospective and predictive assessments of the icing dynamics in the Chikoy and Selenga River basins.
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chikoy河跨界流域结冰制图
在色楞格河主要支流的集水区中,跨界奇科伊河的流域面积最大。色楞嘎盆地整体上以冰的广泛分布为特征。本文介绍了根据不同的自然和地理特征进行制图的结果及其分布。根据2019年Landsat-8卫星图像,首次编制了该地区的冰川地图数据库。该数据库包括总面积为140平方公里的6319个物体。最大的冰面积为671.13万平方米。平均值为22.16万m2,中位数为12.86万m2,众数为10.24万m2。大多数冰点位于海拔900 - 1200米的东部斜坡上。契科依河流域西部和近顶带未见结冰。研究区以裂隙岩为主,表明地下水在冰的形成中起主导作用。年降水量在350 ~ 460毫米之间,年平均气温在-2.5℃的地区,冰雪覆盖面积最大。3℃。在景观结构中,低山和中山针叶林—落叶松—暗针叶林景观中结冰较为常见。大约80%的结冰位于豆荚、豆荚、豆荚和其他伴生土壤的复合体上。研究发现,冰覆盖水平与地下水自然资源不成正比,这可能是由于原地下水图的不完善和2019年冰的非特征性表现造成的。由此产生的数据库将成为奇科伊河和色楞格河流域结冰动态回顾性和预测性评估的基础。
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