上科雷马高原(亚洲东北部)小山集水区的地质气候条件

O. Makarieva, A. Zemlianskova, Dmitriy Abramov, N. Nesterova, A. Ostashov
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摘要

本研究介绍了 2021-2023 年期间对上科雷马高原(亚洲东北部)安曼金达河一个小型山区永久冻土集水区的综合环境评估。该研究揭示了这一狭小区域内气候、地球气候学和水文地质条件的显著多样性,强调了在数据可用性有限的广袤永久冻土地区进行广泛实地数据收集和监测的必要性。主要发现包括不同海拔高度和地貌类型的地温变化、最大季节解冻深度以及地温零年振幅深度。受结冰过程的影响,春季奥菲斯盆地内的地下水和地表水流动态呈现出复杂的地质风化机制。泉水盆地的存在及其对当地水文的影响凸显了这一现象的生态意义。未来的研究应侧重于冻土动态的长期趋势及其与气候变化的关系,以及冻土形成对当地生态系统的生态影响。这项研究强调了采用多层面方法进行环境评估的重要性,即结合各种环境参数和过程,全面了解冰冻圈内错综复杂的相互作用及其对不断变化的气候条件的反应。这些知识对于解决与西伯利亚东北部气候变化、生态系统恢复能力和可持续资源管理有关的更广泛问题至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Geocryological Conditions of Small Mountain Catchment in the Upper Kolyma Highland (Northeastern Asia)
This research presents a comprehensive environmental assessment of a small mountain permafrost catchment of the Anmangynda River in the Upper Kolyma Highland (Northeastern Asia) over the period of 2021–2023. The study reveals significant diversity in climatic, geocryological, and hydrogeological conditions within this confined area, emphasizing the need for extensive field data collection and monitoring in vast permafrost regions with limited data availability. Key findings include variations in ground temperature, maximum seasonal thaw depth, and depths of zero annual amplitudes of ground temperature at different elevations and landscape types. Groundwater and surface flow dynamics within spring aufeis basins exhibit complex geocryological regimes influenced by icing processes. The presence of aufeis and its impact on local hydrology highlight the ecological significance of this phenomenon. Future research should focus on long-term trends in permafrost dynamics and their relationship with climate change, as well as the ecological effects of aufeis formation on local ecosystems. The study underscores the importance of a multi-faceted approach to environmental assessment, incorporating various environmental parameters and processes, to gain a comprehensive understanding of the intricate interactions within the cryosphere and their responses to changing climate conditions. Such knowledge is essential for addressing broader questions related to climate change, ecosystem resilience, and sustainable resource management in Northeastern Siberia.
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