期刊名称:International Journal of Spatial Data Infrastructures Research
印刷版ISSN:1725-0463
出版年度:2012
卷号:7
页码:464-487
DOI:10.2902/ijsdir.v7i0.271
语种:English
出版社:European Commission Joint Research Centre
摘要:Real-time information on the development of the drought conditions is one of the fundamental requisites for reinforcing the drought mitigation and preparedness. The EuroGEOSS interoperability approach promotes the development of monitoring and early warning systems based on real-time information. Different climatic databases, which are based on publicly available meteorological information, are available on real time by climatic research institutions. Commonly, publicly available information has much lower spatial resolution than the existing available national datasets. The capability of low resolution climatic datasets to quantify drought severity and drought impacts is limited and has therefore been analysed in the framework of the EuroGEOSS project. Initial operating capacity, which was built during the project, provided the framework for the analysis. The Standardized Precipitation Index, obtained from the low-resolution precipitation datasets, has been compared to the national high-resolution datasets in Slovenia. The areas of low spatial agreement between different drought datasets were determined. In addition, various statistical measures were used to compare the drought characteristics, originating from different drought datasets. Furthermore, the capabilities of these datasets to identify the drought impacts in different drought prone systems were analyzed. Even though, low resolution datasets failed to realistically detect the spatial patterns of specific drought episodes, they were able to reproduce the general drought temporal variability, especially at the short time scales. The low resolution dataset also provided reliable outputs in terms of knowing the impacts of drought on agriculture.
其他摘要:Real-time information on the development of the drought conditions is one of the fundamental requisites for reinforcing the drought mitigation and preparedness. The EuroGEOSS interoperability approach promotes the development of monitoring and early warning systems based on real-time information. Different climatic databases, which are based on publicly available meteorological information, are available on real time by climatic research institutions. Commonly, publicly available information has much lower spatial resolution than the existing available national datasets. The capability of low resolution climatic datasets to quantify drought severity and drought impacts is limited and has therefore been analysed in the framework of the EuroGEOSS project. Initial operating capacity, which was built during the project, provided the framework for the analysis. The Standardized Precipitation Index, obtained from the low-resolution precipitation datasets, has been compared to the national high-resolution datasets in Slovenia. The areas of low spatial agreement between different drought datasets were determined. In addition, various statistical measures were used to compare the drought characteristics, originating from different drought datasets. Furthermore, the capabilities of these datasets to identify the drought impacts in different drought prone systems were analyzed. Even though, low resolution datasets failed to realistically detect the spatial patterns of specific drought episodes, they were able to reproduce the general drought temporal variability, especially at the short time scales. The low resolution dataset also provided reliable outputs in terms of knowing the impacts of drought on agriculture.
关键词:interoperability; EuroGEOSS; DMCSEE; European Drought Portal; drought monitoring; Standardized Precipitation Index; agricultural drought; maize yield; water balance
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