Landsat-Based Monitoring of Landscape Dynamics in Arctic Permafrost Region

遥感学报 Pub Date : 2022-04-29 DOI:10.34133/2022/9765087
Yating Chen, Aobo Liu, Xiao Cheng
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引用次数: 7

Abstract

Ice-rich permafrost thaws as a result of Arctic warming, and the land surface collapses to form characteristic thermokarst landscapes. Thermokarst landscapes can bring instability to the permafrost layer, affecting regional geomorphology, hydrology, and ecology and may further lead to permafrost degradation and greenhouse gas emissions. Field observations in permafrost regions are often limited, while satellite imagery provides a valuable record of land surface dynamics. Currently, continuous monitoring of regional-scale thermokarst landscape dynamics and disturbances remains a challenging task. In this study, we combined the Theil–Sen estimator with the LandTrendr algorithm to create a process flow for monitoring thermokarst landscape dynamics in Arctic permafrost region on the Google Earth Engine platform. A robust linear trend analysis of the Landsat Tasseled Cap index time series based on the Theil–Sen estimator and Mann–Kendall test showed the overall trends in greenness, wetness, and brightness in northern Alaska over the past 20 years. Six types of disturbances that occur in thermokarst landscape were demonstrated and highlighted, including long-term processes (thermokarst lake expansion, shoreline retreat, and river erosion) and short-term events (thermokarst lake drainage, wildfires, and abrupt vegetation change). These disturbances are widespread throughout the Arctic permafrost region and represent hotspots of abrupt permafrost thaw in a warming context, which would destabilize fragile thermokarst landscapes rich in soil organic carbon and affect the ecological carbon balance. The cases we present provide a basis for understanding and quantifying specific disturbance analyses that will facilitate the integration of thermokarst processes into climate models.
基于landsat的北极多年冻土区景观动态监测
由于北极变暖,富含冰的永久冻土融化,地表塌陷,形成了特色的热岩溶景观。热岩溶景观会给永久冻土层带来不稳定,影响区域地貌、水文和生态,并可能进一步导致永久冻土退化和温室气体排放。多年冻土区的实地观测往往有限,而卫星图像提供了陆地表面动力学的宝贵记录。目前,持续监测区域尺度的热岩溶景观动力学和扰动仍然是一项具有挑战性的任务。在这项研究中,我们将泰尔-森估计量与LandTrendr算法相结合,在谷歌地球引擎平台上创建了一个监测北极永久冻土区热岩溶景观动态的过程流程。基于Theil–Sen估计量和Mann–Kendall检验的Landsat Tasseled Cap指数时间序列的稳健线性趋势分析显示了过去20年阿拉斯加北部绿色、湿度和亮度的总体趋势。论证并强调了热岩溶景观中发生的六种扰动类型,包括长期过程(热岩溶湖泊扩张、海岸线退缩和河流侵蚀)和短期事件(热岩溶湖排水、野火和植被突变)。这些扰动广泛分布在整个北极永久冻土区,代表了在变暖背景下永久冻土突然融化的热点,这将破坏富含土壤有机碳的脆弱热岩溶景观的稳定,并影响生态碳平衡。我们提出的案例为理解和量化具体的扰动分析提供了基础,这将有助于将热岩溶过程整合到气候模型中。
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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来源期刊
遥感学报
遥感学报 Social Sciences-Geography, Planning and Development
CiteScore
3.60
自引率
0.00%
发文量
3200
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