利用栅格气候数据预测一个小型未测量流域的平均径流量

Q4 Social Sciences

Glasnik - Srpskog Geografskog Drustva Pub Date : 2020-01-01 DOI:10.2298/gsgd2002045b

J. Blagojević, B. Blagojević, V. Mihailović, D. Radivojevic

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引用次数: 1

摘要

对南莫拉瓦河流域图洛夫斯卡河的一个小的未测量集水区进行了年平均径流分析。Langbein吗?你有什么方法吗，土耳其人?采用S法和区域回归模型计算平均径流量。长期平均温度、年降水量和流域平均海拔作为输入数据。利用不同来源的气候输入数据进行估算，然后对结果进行比较。降水和温度数据以10公里× 10公里分辨率的栅格数据格式从CarpatClim项目的数字数据存储库中导出。塞尔维亚共和国水文气象局的温度和降水点测量数据也被用作输入数据，并与栅格数据进行比较。栅格和点气象数据之间的差异归因于地形高程空间变异性的影响，而栅格数据没有捕捉到这一点。分析表明，根据所选择的方法和输入的数据，预测的平均径流量可能相差高达50%。

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Prediction of mean runoff in a small ungauged basin using raster climatological data

An analysis of mean annual runoff was conducted for a small ungauged catchment of the Tulovska River in the South Morava River Basin. Langbein?s method, Turk?s method and regional regression models were applied for obtaining the mean runoff. Long-term mean temperature, annual precipitation and the mean catchment elevation are used as input data. The estimations were conducted using various sources of climatological input data and the results were then compared. Precipitation and temperature data were derived, in a 10 km x 10 km resolution raster data format, from the digital data repository of the CarpatClim project. Point measurements of temperature and precipitation by the Republic Hydrometeorological Service of Serbia were also used as input data and compared with the raster data. The difference between the raster and point meteorological data were attributed to the effects of terrain elevation spatial variability, not captured in the raster data. The analyses showed that the predicted mean runoff can differ up to 50%, depending on the chosen method and the input data.

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来源期刊

Glasnik - Srpskog Geografskog Drustva Social Sciences-Education

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

18 weeks