模拟蒙古冻土层下森林的热量机制和地表能量平衡

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Journal of Geophysical Research: Earth Surface Pub Date : 2024-06-14 DOI:10.1029/2023JF007609
Robin B. Zweigel, Avirmed Dashtseren, Khurelbaatar Temuujin, Kristoffer Aalstad, Clare Webster, Simone M. Stuenzi, Kjetil S. Aas, Hanna Lee, Sebastian Westermann
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引用次数: 0

摘要

森林与北半球永久冻土区的大部分区域重叠,因此表现树冠过程对于模拟这些区域的热和水文条件至关重要。森林通过调节辐射通量、湍流通量交换、降水拦截和蒸腾调节对永久冻土产生影响。森林还具有独特的枯落物和有机质土层,这些土层对水的渗透和蒸发起着核心作用,同时还能为更深的地层提供隔热。在本研究中,我们介绍了 CryoGrid 群体模型中的一个新模块,用于模拟森林生态系统及其对地表水和能量平衡的影响。该模块包括一个大叶植被方案,并对冠层蓄热和蒸腾作用进行了调整。此外,我们还考虑了地表垃圾层对水分和能量传递的影响。我们的研究表明,该模型能够模拟蒙古中部肯特山北坡落叶针叶林下的辐射、积雪覆盖和地面温度。对地形面和生态系统配置的敏感性分析证实了枯落物层对地面能量和水分平衡的重要作用。此外,该分析还表明,冻土层的存在主要与地形坡度有关,而不是与该地是否有森林有关。所提出的模型方案可用于研究不同气候、生态系统和土地利用情况下森林地热机制的发展,包括永久冻土的状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Simulating the Thermal Regime and Surface Energy Balance of a Permafrost-Underlain Forest in Mongolia

Forests overlap with large parts of the northern hemisphere permafrost area, and representing canopy processes is therefore crucial for simulating thermal and hydrological conditions in these regions. Forests impact permafrost through the modulation of radiative fluxes and exchange of turbulent fluxes, precipitation interception and regulation of transpiration. Forests also feature distinct soil layers of litter and organic matter, which play central roles for the infiltration and evaporation of water, while also providing thermal insulation for deeper ground layers. In this study, we present a new module within the CryoGrid community model to simulate forest ecosystems and their impact on the surface water and energy balance. The module includes a big-leaf vegetation scheme with adaptations for canopy heat storage and transpiration. Furthermore, we account for the effect of surface litter layers on water and energy transfer. We show that the model is capable of simulating radiation, snow cover and ground temperatures below a deciduous needleleaf forest on a north-facing slope in the Khentii Mountains in Central Mongolia. A sensitivity analysis of topographic aspect and ecosystem configuration confirms the important role of the litter layers for the energy and water balance of the ground. Furthermore, it suggests that the presence of permafrost is primarily linked to topographic aspect rather than the presence of forest at this site. The presented model scheme can be used to study the development of the ground thermal regime in forests, including the state of permafrost, under different climate, ecosystem, and land use scenarios.

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来源期刊
Journal of Geophysical Research: Earth Surface
Journal of Geophysical Research: Earth Surface Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
6.30
自引率
10.30%
发文量
162
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