Driving factors of virtual water in international grain trade: A study for belt and road countries

Water scarcity is a significant risk for meeting increasing food demand around the world. The importance of identifying the driving forces behind water consumption in agriculture and relative virtual water (VW) flows has been widely reported in order to provide practical advice for sustainable agricultural water resource management. However, the regional differences in the driving forces behind either water consumption or VW flows were largely ignored. To fill the crucial gap, taking nine major crops grown in the Beijing-Tianjin-Hebei (BTH) region in China over 2000-2013 as the study case, we investigate the regional differences in socio-economic driving forces on both the estimated water footprint (WF) in crop production and relative inter-city VW flows for each crop per year. Results show that although there is little change in total WFs in crop production (~43.3 billion m3/y on annual average), the WF per unit mass of crop decreased and the crop structure in the total WFs changed greatly. The BTH region was a VW importer with net VW import of 11.7 billion m3/y by 2013. The per capita GDP was the main positive driver of both total WFs of crop production and relative VW flows. Whereas the economic productivity and consumption ability were inhibiting factors for the WFs and VW flows, respectively. The levels of total crop WFs in agricultural cities were more sensitive to the effects of the main driving factors. The intensity of driving factors behind the inter-regional crop-related VW flows was shown to be directly related to the regional role as an importer or exporter. The current analysis suggests to develop characteristic agriculture considering the local role and regional differences in terms of water consumption and relative inter-regional VW flows, aiming for a balance between water sustainability, food security and economic developments.

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Export and import of virtual water from different states of India through food grain trade

Hydrology Research ◽

10.2166/nh.2011.089 ◽

2011 ◽

Vol 42 (2-3) ◽

pp. 229-238 ◽

Cited By ~ 3

Author(s):

Vijay Kumar ◽

Sharad K. Jain

Keyword(s):

Geographical Area ◽

Agricultural Practices ◽

Virtual Water ◽

Land Productivity ◽

Goods And Services ◽

Food Grains ◽

Grain Trade ◽

Average Precipitation ◽

Food Grain ◽

Water Contents

The geographical area of India is 3.29 × 106 km2 and the annual average precipitation is about 4000 km3 (about 1215 mm depth over the country). Large variations in agricultural practices, climate and land productivity result in large variations in agricultural productivity between states. Virtual water refers to the water required in the production of goods or services; exchange of water through goods and services is virtual water trade. This paper quantifies virtual water export/import from/to various states of India to/from a central pool related to trade of two major food grains, wheat and rice, during the years 2003–04 to 2005–06. Virtual water contents of wheat and rice were estimated for different states using the data pertaining to that state. It was found to vary from 745 to 9405 m3/t for wheat and from 2502 to 9562 m3/t for rice. Punjab, Haryana, Chattisgarh and Uttarakhand are net exporters of virtual water to the central pool; all other states are net importers. Among the virtual water exporters, Punjab and Haryana are water-stressed areas and some virtual water importing states have adequate water resources. Analysis shows that besides water availability, other factors are also important in determining virtual water export from a region.

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Research on Global Grain Trade Network Pattern and Its Driving Factors

Sustainability ◽

10.3390/su14010245 ◽

2021 ◽

Vol 14 (1) ◽

pp. 245

Author(s):

Jian Duan ◽

Changle Nie ◽

Yingying Wang ◽

Dan Yan ◽

Weiwei Xiong

Keyword(s):

Positive Impact ◽

The United States ◽

Driving Factors ◽

Quadratic Assignment ◽

Trade Network ◽

Food Trade ◽

Resource Endowment ◽

Grain Trade ◽

Network Pattern ◽

Global Food

Trading systems are essential in promoting global food security. With the growing proportion of global food consumption obtained through international trade, the global food trade pattern has become increasingly complex over recent years. This study constructed a weighted global grain network using the trade data of 196 countries in 2000 and 2018 to explore the structure and evolution based on the complex network theory. We established that the global grain network was scale-free. There was significant heterogeneity among nodes, and the heterogeneity of the out-degree was greater than that of the in-degree. The global grain network has a significant core-periphery structure, with the United States, Japan, Mexico, Egypt, South Korea, and Colombia as the core countries. Thereafter, by applying the quadratic assignment procedure model to explore the driving factors of the global grain network, we established that geographical distance had a positive impact on the food trade patterns in 2000 and 2018. This differs from the classical gravity model theory. Furthermore, grain trade had significant “boundary effects”; economic gaps, resource endowment, and regional free trade agreements had a positive impact on the evolution of the grain trade network, whereas cultural similarity and political differences had a negative impact on the grain trade network pattern.

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