Assimilation of airborne gamma observations provides utility for snow estimation in forested environments

IF 5.7 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Eunsang Cho, Yonghwan Kwon, Sujay V. Kumar, Carrie M. Vuyovich
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引用次数: 1

Abstract

Abstract. An airborne gamma-ray remote-sensing technique provides a strong potential to estimate a reliable snow water equivalent (SWE) in forested environments where typical remote-sensing techniques have large uncertainties. This study explores the utility of assimilating the temporally (up to four measurements during a winter period) and spatially sparse airborne gamma SWE observations into a land surface model (LSM) to improve SWE estimates in forested areas in the northeastern US. Here, we demonstrate that the airborne gamma SWE observations add value to the SWE estimates from the Noah LSM with multiple parameterization options (Noah-MP) via assimilation despite the limited number of measurements. Improvements are witnessed during the snow accumulation period, while reduced skills are seen during the snowmelt period. The efficacy of the gamma data is greater for areas with lower vegetation cover fraction and topographic heterogeneity ranges, and it is still effective at reducing the SWE estimation errors for areas with higher topographic heterogeneity. The gamma SWE data assimilation (DA) also shows a potential to extend the impact of flight-line-based measurements to adjacent areas without observations by employing a localization approach. The localized DA reduces the modeled SWE estimation errors for adjacent grid cells up to 32 km distance from the flight lines. The enhanced performance of the gamma SWE DA is evident when the results are compared to those from assimilating the existing satellite-based SWE retrievals from the Advanced Microwave Scanning Radiometer 2 (AMSR2) for the same locations and time periods. Although there is still room for improvement, particularly for the melting period, this study shows that the gamma SWE DA is a promising method to improve the SWE estimates in forested areas.
机载伽玛观测的同化为森林环境中的积雪估计提供了实用工具
摘要在典型遥感技术具有很大不确定性的森林环境中,机载伽玛射线遥感技术为估计可靠的雪水当量(SWE)提供了强大的潜力。本研究探讨了将时间上(冬季期间多达四次测量)和空间上稀疏的机载伽玛SWE观测数据同化到陆地表面模式(LSM)中的效用,以改进美国东北部森林地区的SWE估计。在这里,我们证明了尽管测量数量有限,但航空伽马SWE观测值通过同化增加了Noah LSM具有多个参数化选项(Noah- mp)的SWE估计值。在积雪积累期,技能有所提高,而在融雪期,技能有所降低。伽玛数据在植被覆盖度和地形异质性较低的地区效率更高,在地形异质性较高的地区仍能有效降低SWE估计误差。伽马SWE数据同化(DA)也显示出通过采用定位方法将基于飞行线的测量的影响扩展到相邻区域而没有观测的潜力。局域化数据减少了距离航线32 km的相邻网格单元的SWE估计误差。与同化先进微波扫描辐射计2 (AMSR2)在相同位置和时间段的现有卫星SWE检索结果相比,伽玛SWE数据的性能得到了明显提高。尽管仍有改进的空间,特别是在融化期,但本研究表明,伽马SWE DA是一种有希望改善森林地区SWE估计的方法。
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来源期刊
Hydrology and Earth System Sciences
Hydrology and Earth System Sciences 地学-地球科学综合
CiteScore
10.10
自引率
7.90%
发文量
273
审稿时长
15 months
期刊介绍: Hydrology and Earth System Sciences (HESS) is a not-for-profit international two-stage open-access journal for the publication of original research in hydrology. HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries.
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