Abstract
In this study, China’s virtual water trade was measured on the basis of multi-region input/output tables, and its influencing factors of change were decomposed. The results revealed that virtual water export and import increased from 161.5 billion tons and 114.07 billion tons in 2007 to 193.31 billion tons and 157.1 billion tons in 2014, respectively. Eight economies accounted for more than 50% of China’s total virtual water export and import, whereby the total of the United States, Japan, and Europe reached 44% (export) and 31.3% (import). The export scale, export of intermediate products, export industry structure, domestic water consumption coefficient, and domestic intermediate input structure were the main factors of the change in virtual water export. The growth of export scale was the primary reason for the growth of virtual water export. A decline in the domestic water consumption coefficient was the primary reason for the restrained growth of virtual water export. The import scale, import of intermediate products, import industry structure, water consumption coefficient of foreign countries, and the correlation among domestic industries were the main factors affecting the change in virtual water import. The growth of import scale was the primary reason for the growth of virtual water import in most sectors. A decline in the water consumption coefficient abroad was the primary reason for the restrained growth of virtual water import.
Highlights
Since Tony Allan put forward the concept of “virtual water” (VW) at a SOAS (School of Oriental and African Studies) seminar in the 1990s, research on virtual water issues, including virtual water calculations, has received increasing attention from scholars and governments, leading to the development of a reasonable virtual water strategy
The results show that the total virtual water export volume during this period showed an increasing trend
The value-added decomposition analysis method was applied to the study of virtual water trade
Summary
Since Tony Allan put forward the concept of “virtual water” (VW) at a SOAS (School of Oriental and African Studies) seminar in the 1990s, research on virtual water issues, including virtual water calculations, has received increasing attention from scholars and governments, leading to the development of a reasonable virtual water strategy. This strategy can effectively improve the allocation and utilization of water resources, promote the balance of cross-border water use, and alleviate the difficulties in areas facing water shortage [1]. We elucidate the calculation of trade volume, the calculation of trade hidden content, and the decomposition of influencing factors
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