North China Plain (NCP) is a main agricultural production region in China, dominated by a summer maize-winter wheat double cropping system. However, the grain yield highly depends on groundwater extraction to fulfil the irrigation demand. Additionally, the warming and drying tendency under climate change will further challenge water resource availability and agricultural productivity. This study applied modelled regional precipitation and temperature within the East Asia domain from the Coordinated Regional Climate Downscaling Experiment to derive climate change indicators and quantify future water resource utilisation. Results show a 30% increase in water irrigation demand (IWD) for growing maize in Jiangsu Province and a slight decrease i...
Global climate change may impact grain production as atmospheric conditions and water supply change,...
The serious water scarcity and groundwater over-exploitation problems of the North China Plain (NCP)...
Climate change has significantly affected agricultural production. As one of China's most important ...
The North China Plain (NCP) is one of the most important food production bases in China. However, it...
Water shortage is a limiting factor for agricultural production in China, and climate change will af...
The North China Plain (NCP) is one of the most important regions for food production in China, with ...
The North China Plain (NCP) is the largest agricultural production area in China. The extensive use ...
To understand the change in irrigation water requirement (IWR) in China under the changing climate c...
© 2019 Elsevier B.V. Climate change impacts on winter wheat yield and water-use were assessed with t...
peer reviewedClimate change will have important implications in the agriculture of water-short regio...
Limited precipitation restricts crop yield in the North China Plain, where high level of production ...
North China is the most important food basket of China, where the majority of wheat and corn are pro...
Water resources are indispensable for all social-economic activities and ecosystem functions. In add...
The annual double-cropping system of winter wheat and summer maize requires a large amount of irriga...
In the North China Plain (NCP), while irrigation using groundwater has maintained a high-level crop ...
Global climate change may impact grain production as atmospheric conditions and water supply change,...
The serious water scarcity and groundwater over-exploitation problems of the North China Plain (NCP)...
Climate change has significantly affected agricultural production. As one of China's most important ...
The North China Plain (NCP) is one of the most important food production bases in China. However, it...
Water shortage is a limiting factor for agricultural production in China, and climate change will af...
The North China Plain (NCP) is one of the most important regions for food production in China, with ...
The North China Plain (NCP) is the largest agricultural production area in China. The extensive use ...
To understand the change in irrigation water requirement (IWR) in China under the changing climate c...
© 2019 Elsevier B.V. Climate change impacts on winter wheat yield and water-use were assessed with t...
peer reviewedClimate change will have important implications in the agriculture of water-short regio...
Limited precipitation restricts crop yield in the North China Plain, where high level of production ...
North China is the most important food basket of China, where the majority of wheat and corn are pro...
Water resources are indispensable for all social-economic activities and ecosystem functions. In add...
The annual double-cropping system of winter wheat and summer maize requires a large amount of irriga...
In the North China Plain (NCP), while irrigation using groundwater has maintained a high-level crop ...
Global climate change may impact grain production as atmospheric conditions and water supply change,...
The serious water scarcity and groundwater over-exploitation problems of the North China Plain (NCP)...
Climate change has significantly affected agricultural production. As one of China's most important ...