杨岩岩, 张国明, 庞营军. 库木库里沙漠边缘新月形沙丘动态研究[J]. 自然保护地,2024,4(0):1−16. DOI: 10.12335/2096-8981.2024013101
引用本文: 杨岩岩, 张国明, 庞营军. 库木库里沙漠边缘新月形沙丘动态研究[J]. 自然保护地,2024,4(0):1−16. DOI: 10.12335/2096-8981.2024013101
YANG Y Y, ZHANG G M, PANG Y J. Barchan dune dynamics in the edge of Kumkuli Desert[J]. Natural Protected Areas, 2024, 4(0): 1−16. DOI: 10.12335/2096-8981.2024013101
Citation: YANG Y Y, ZHANG G M, PANG Y J. Barchan dune dynamics in the edge of Kumkuli Desert[J]. Natural Protected Areas, 2024, 4(0): 1−16. DOI: 10.12335/2096-8981.2024013101

库木库里沙漠边缘新月形沙丘动态研究

Barchan dune dynamics in the edge of Kumkuli Desert

  • 摘要:
    目的 位于阿尔金山保护区的库木库里沙漠是世界上海拔最高的沙漠,但目前对其沙丘动态了解不多。利用多期高分辨率遥感影像对沙漠边缘的新月形沙丘动态进行监测,可为区域风沙活动强度和生态环境的研究提供依据。
    方法 在沙漠东西缘选择89个新月形沙丘,测量和计算了沙丘各参数、沙丘移动速率和方向,并结合气象和地形数据分析了导致沙丘动态变化的因素。
    结果 ①库木库里沙漠边缘新月形沙丘的移动速率介于0.57~4.38 m/a,平均值为2.22 m/a。沙丘移动速率与规模呈显著负相关,新月形沙丘越大,移动越慢。沙丘移动相对其他沙漠较慢,究其原因是区域风况、海拔高度、低温冻结、地形起伏共同作用的结果。②沙丘移动方向介于102°~152°,平均值为130°,整体呈NW-SE方向移动,沙丘移动方向明显偏离于合成输沙方向。沙丘移动方向和沙漠湖泊延伸方向一致,沙丘移动不会造成湖泊的沙埋。③沙丘移动过程中发生了明显形变,大部分沙丘规模呈现减小趋势,沙丘出现了沙物质的损失。④沙漠西缘和东缘新月形沙丘的规模、移动速度和形态变化差异明显。
    结论 高寒沙漠的风沙输移过程除受风况和地形的影响外,还受低温、低空气密度等因素的影响,在未来对风沙活动的研究和治理中,应增强冻结作用对沙丘动态的影响。

     

    Abstract:
    Objectives  The Kumkuli Desert, located in the Altun Mountains Nature Reserve, represents the highest-elevation desert in the world. However, there is currently a paucity of knowledge regarding the dynamics of its sand dunes. The monitoring of the dynamics of crescent-shaped sand dunes at the edge of deserts utilizing multi-period high-resolution remote sensing images.
    Methods A total of eighty-nine barchan sand dunes were selected for study on the eastern and western margins of the desert. A series of morphological parameters of the sand dunes were then measured and calculated for each of these sand dunes. The movement rate and direction of the sand dunes were quantified, and the factors responsible for the dynamic changes observed in the sand dunes were analyzed in combination with meteorological and topographic data.
    Results The results showed that: (1) The movement rate of barchan sand dunes on the edge of the Kumkuli Desert has been observed to range from 0.57 to 4.38 m/a, with an average value of 2.22 m/a. The rate of sand dune migration was significantly negatively correlated with its size, with larger crescent-shaped sand dunes moving slower. The movement rate of sand dunes of barchan sand dunes on the same scale was lower than that of other deserts, reflecting the lower activity of sand dunes in the Kumkuli Desert. The low movement rate of sand dunes was the result of a complex interplay between regional wind conditions, altitude, low-temperature freezing, and terrain undulations. (2) The direction of sand dune movement ranged from 102° to 152°, with an average of 130°. The overall movement direction was NW-SE, and the direction of sand dune migration is significantly deviated from the direction of resultant drift potential. The direction of sand dune movement was consistent with the extension direction of desert lakes, so sand burial will not occur in lakes due to sand dune movement. (3) Significant deformation occurred during the migration of sand dunes, and most of the sand dunes showed a decreasing trend in size, resulting in loss of sand material.. (4) There were significant differences in the scale, migration rate, and morphological variations of barchan dunes in the western and eastern edges of the Kumkuli Desert.
    Conclusions  The process of aeolian sand transport in alpine cold deserts was influenced by a multitude of factors, including wind regimes, terrain, low temperature, and low air density. Further research should prioritize investigating the impact of freezing on sand dune dynamics in future research.

     

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