格鲁吉亚共和国区域降水机制以及根据卫星降水估算对国家降水数据集进行评估

Nika Tsitelashvili, Trent Biggs, Ye Mu, V. Trapaidze
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引用次数: 0

摘要

由于 1989 年后关闭了水文气象站,在水文气象站很少的地区(如后苏联国家)分析水资源十分困难。在高加索地区,评估通常依赖于附近河流的过时数据。我们评估了一个国家级降水数据集--格鲁吉亚水量平衡(WBG),以及 1981 年至 2021 年的两个卫星降水产品,包括气候灾害组红外降水与站点数据(CHIRPS),以及 CHIRPS 与密集雨量计网络(geoCHIRPS)的混合。我们将 geoCHIRPS 的年平均降水量模拟为海岸距离和海拔高度的函数。CHIRPS 低估了冷季和雨季的降水量(R2 = 0.74,r = 0.86),高估了旱季的降水量,而 geoCHIRPS 在所有季节都表现良好(R2 = 0.86,r = 0.92)。在佐治亚州西部,与海拔相比,距离海岸的距离对降水量的预测更为重要,而在东部,降水量与海拔呈正相关。在四个水力发电厂中,性能不足占发电量的百分比(∼37%)与降水量产品差异的百分比差异(∼38%)相对应,这表明基于世行地理设计的发电厂可能系统性地设计过度,但还需要进一步的工作来确定发电厂性能不足的原因和频率。我们的结论是:1)现有的 WBG 无法准确反映海岸附近的海拔-降水关系;2)为了准确分析降水的时空变异性及其对水力发电、环境和可持续水资源管理的影响,必须利用额外的雨量计数据对基于卫星的降水估算进行校准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regional precipitation regimes and evaluation of national precipitation datasets against satellite-based precipitation estimates, Republic of Georgia
Analyzing water resources in areas with few hydrometeorological stations, such as those in post-Soviet countries, is difficult due to station closures after 1989. In Caucasus, evaluations often rely on outdated data from nearby rivers. We evaluated one national-level precipitation dataset, the Water Balance of Georgia (WBG) with two satellite-based precipitation products from 1981 to 2021, including the Climate Hazards Group Infrared Precipitation with station data (CHIRPS), and CHIRPS blended with a dense rain gauge network (geoCHIRPS). We modelled mean annual precipitation from geoCHIRPS as a function of coastal distance and elevation. CHIRPS underestimated precipitation in the cold and wet seasons (R2 = 0.74, r = 0.86), and overestimated dry season precipitation, while geoCHIRPS performed well in all seasons (R2 = 0.86, r = 0.92). Distance from the coast was a more important predictor of precipitation than elevation in Western Georgia, while precipitation correlated positively with elevation in the East. At four hydroelectric plants, the underperformance as a percentage of capacity (∼37%) corresponds with the percentage difference between difference in precipitation products (∼38%), suggesting that plants designed based on WBG may be systematically over-designed, but further work is needed to determine the reasons for the underperformance of the plants and frequency. We conclude that 1) existing WBG does not accurately reflect elevation-precipitation relationships near the coast and 2) for accurate analysis of spatiotemporal precipitation variability and its impacts on hydropower generation, environmental and sustainable water resource management, it is essential to calibrate satellite-based precipitation estimates with additional rain gauge data.
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