Snow Depth Estimation and Spatial and Temporal Variation Analysis in Tuha Region Based on Multi-Source Data

Sustainability Pub Date : 2024-07-12 DOI:10.3390/su16145980
Wen Yang, Baozhong He, Xuefeng Luo, Shilong Ma, Xing Jiang, Yaning Song, Danying Du
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Abstract

In the modelling of hydrological processes on a regional scale, remote-sensing snow depth products with a high spatial and temporal resolution are essential for climate change studies and for scientific decision-making by management. The existing snow depth products have low spatial resolution and are mostly applicable to large-scale studies; however, they are insufficiently accurate for the estimation of snow depth on a regional scale, especially in shallow snow areas and mountainous regions. In this study, we coupled SSM/I, SSMIS, and AMSR2 passive microwave brightness temperature data and MODIS, TM, and Landsat 8 OLI fractional snow cover area (fSCA) data, based on Python, with 30 m spatially resolved fractional snow cover area (fSCA) data obtained by the spatio-temporal dynamic warping algorithm to invert the low-resolution passive microwave snow depths, and we developed a spatially downscaled snow depth inversion method suitable for the Turpan–Hami region. However, due to the long data-processing time and the insufficient arithmetical power of the hardware, this study had to set the spatial resolution of the result output to 250 m. As a result, a day-by-day 250 m spatial resolution snow depth dataset for 20 hydrological years (1 August 2000–31 July 2020) was generated, and the accuracy was evaluated using the measured snow depth data from the meteorological stations, with the results of r = 0.836 (p ≤ 0.01), MAE = 1.496 cm, and RMSE = 2.597 cm, which are relatively reliable and more applicable to the Turpan–Hami area. Based on the spatially downscaled snow depth data produced, this study found that the snow in the Turpan–Hami area is mainly distributed in the northern part of Turpan (Bogda Mountain), the northwestern part of Hami (Barkun Autonomous Prefecture), and the central part of the area (North Tianshan Mountain, Barkun Mountain, and Harlik Mountain). The average annual snow depth in the Turpan–Hami area is only 0.89 cm, and the average annual snow depth increases with elevation, in line with the obvious law of vertical progression. The annual mean snow depth in the Turpan–Hami area showed a “fluctuating decreasing” trend with a rate of 0.01 cm·a−1 over the 20 hydrological years in the Turpan–Hami area. Overall, the spatially downscaled snow depth inversion algorithm developed in this study not only solves the problem of coarse spatial resolution of microwave brightness temperature data and the difficulty of obtaining accurate shallow snow depth but also solves the problem of estimating the shallow snow depth on a regional scale, which is of great significance for gaining a further understanding of the snow accumulation information in the Tuha region and for promoting the investigation and management of water resources in arid zones.
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基于多源数据的图哈地区积雪深度估算及时空变化分析
在区域尺度的水文过程建模中,高空间和时间分辨率的遥感雪深产品对于气候变化研究和管理部门的科学决策至关重要。现有的雪深产品空间分辨率较低,大多适用于大尺度研究,但对于区域尺度的雪深估算,尤其是浅雪区和山区的雪深估算,精度不够。在本研究中,我们基于 Python 将 SSM/I、SSMIS 和 AMSR2 被动微波亮度温度数据与 MODIS、TM 和 Landsat 8 OLI 分数雪覆盖面积(fSCA)数据耦合,利用时空动态扭曲算法获得 30 m 空间分辨率的分数雪覆盖面积(fSCA)数据,对低分辨率的被动微波雪深进行反演,建立了适合吐鲁番-哈密地区的空间降尺度雪深反演方法。然而,由于数据处理时间较长,硬件运算能力不足,本研究不得不将结果输出的空间分辨率设定为 250 米。因此,生成了 20 个水文年(2000 年 8 月 1 日至 2020 年 7 月 31 日)的逐日 250 米空间分辨率雪深数据集,并利用气象站实测雪深数据进行了精度评估,结果为 r = 0.836(p ≤ 0.01),MAE = 1.496 厘米,RMSE = 2.597 厘米,相对可靠,更适用于吐鲁番-哈密地区。根据制作的空间降尺度雪深数据,本研究发现吐鲁番-哈密地区的积雪主要分布在吐鲁番北部(博格达山)、哈密西北部(巴里坤自治州)和中部(北天山、巴里坤山、哈力克山)。吐鲁番-哈密地区的年平均积雪深度仅为 0.89 厘米,年平均积雪深度随海拔升高而增加,符合明显的垂直递增规律。在吐鲁番-哈密地区的 20 个水文年中,吐鲁番-哈密地区的年平均积雪深度呈 "波动递减 "趋势,速率为 0.01 cm-a-1。总之,本研究开发的空间降尺度雪深反演算法不仅解决了微波亮度温度数据空间分辨率较低、难以获得准确浅层雪深的问题,而且解决了区域尺度浅层雪深的估算问题,对进一步了解吐哈地区积雪信息、促进干旱区水资源调查与管理具有重要意义。
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