同化卫星反照率以改进冰川水文模拟

IF 3.2 3区 地球科学 Q1 Environmental Science Hydrological Processes Pub Date : 2024-11-10 DOI:10.1002/hyp.15329
André Bertoncini, John W. Pomeroy
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引用次数: 0

摘要

由于气候变化,野火和热浪最近以前所未有的方式影响着水文系统。在寒冷地区,由于烟尘沉积和反季节融化,这些极端天气导致冰雪反照率迅速降低。冰雪反照率动态控制着净短波辐射以及可用于融化和产生径流的能量。水文模型中的许多反照率算法无法准确模拟反照率动态,因为它们是根据历史观测数据开发或设置参数的。遥感反照率数据同化(DA)可根据观测结果更新反照率模型,从而改善模型性能。本研究旨在诊断遥感冰雪反照率数据同化对预测野火和热浪期间冰川化盆地流的影响。在加拿大落基山脉的两个冰川化盆地(阿萨巴斯卡冰川研究盆地(AGRB)和佩托冰川研究盆地(PGRB)),将哨兵-2 20 米反照率估计值同化到利用寒区水文建模平台(CRHM)创建的冰川水文模型中。研究分别于 2018 年(野火)、2019 年(煤烟/藻类)、2020 年(正常)和 2021 年(热浪)进行。利用反照率 DA 将反照率同化到 CRHM 中以模拟溪流,并与使用现成反照率参数的对照运行(CTRL)进行比较。反照率 DA 有利于两个流域野火期间的流量预测,AGRB 和 PGRB 的 KGE 系数分别提高了 0.18 和 0.20。在 PGRB,四年 DA 流量预测优于 CTRL,但在 AGRB,DA 略好于 CTRL。在热浪期间,DA 对流量预测无益。DA通过减少正偏差改善了流场预测,这表明反照率DA可以揭示模型模拟较差的偏远冰川地带未知的反照率和积雪动态。这些发现证实了观测工具将近实时信息纳入水文模型的能力,从而使水资源管理者更好地了解溪流对野火和热浪的响应。
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Assimilation of Satellite Albedo to Improve Simulations of Glacier Hydrology

Wildfires and heatwaves have recently affected the hydrological system in unprecedented ways due to climate change. In cold regions, these extremes cause rapid reductions in snow and ice albedo due to soot deposition and unseasonal melt. Snow and ice albedo dynamics control net shortwave radiation and the available energy for melt and runoff generation. Many albedo algorithms in hydrological models cannot accurately simulate albedo dynamics because they were developed or parameterised based on historical observations. Remotely sensed albedo data assimilation (DA) can potentially improve model performance by updating modelled albedo with observations. This study seeks to diagnose the effects of remotely sensed snow and ice albedo DA on the prediction of streamflow from glacierized basins during wildfires and heatwaves. Sentinel-2 20-m albedo estimates were assimilated into a glacio-hydrological model created using the Cold Regions Hydrological Modelling Platform (CRHM) in two Canadian Rockies glacierized basins, Athabasca Glacier Research Basin (AGRB) and Peyto Glacier Research Basin (PGRB). The study was conducted in 2018 (wildfires), 2019 (soot/algae), 2020 (normal) and 2021 (heatwaves). DA was employed to assimilate albedo into CRHM to simulate streamflow and was compared to a control run (CTRL) using off-the-shelf albedo parameters. Albedo DA benefited streamflow predictions during wildfires for both basins, with a KGE coefficient improvement of 0.18 and 0.20 in AGRB and PGRB, respectively. Four-year DA streamflow predictions were superior to CTRL in PGRB, but DA was slightly better in AGRB. DA was not beneficial to streamflow predictions during heatwaves. DA improved streamflow predictions by decreasing positive bias, showing that albedo DA can reveal unknown albedo and snowpack dynamics in remote glacier zones that are poorly simulated in models. These findings corroborate the power of observational tools to incorporate near real-time information into hydrological models to better inform water managers of the streamflow response to wildfires and heatwaves.

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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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