Global virtual-land flow and saving through international cereal trade

Global virtual-land flow and saving through international cereal trade

With intense urbanization and sustained population growth, securing food produc- tion with limited land sources has increasingly become a pressing issue. Based on an analy- sis of international cereal (i.e., barley, buckwheat, maize, oats, rice, rye, sorghum, soybean, and wheat) trade and difference...

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Bibliographic Details
Published in:Journal of geographical sciences 2016-05, Vol.26 (5), p.619-639
Main Authors: Zhang, Jingqi, Zhao, Naizhuo, Liu, Xingjian, Liu, Ying
Format: Article
Language:eng
Subjects:
Agricultural land
Anthropogenic factors
Earth and Environmental Science
Food production
Geographical Information Systems/Cartography
Geography
Land resources
Nature Conservation
Physical Geography
Population growth
Remote Sensing/Photogrammetry
Sorghum
Soybeans
Urbanization
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Summary:With intense urbanization and sustained population growth, securing food produc- tion with limited land sources has increasingly become a pressing issue. Based on an analy- sis of international cereal (i.e., barley, buckwheat, maize, oats, rice, rye, sorghum, soybean, and wheat) trade and differences in yields of the cereal between export and import countries over the period of 2007 to 2011, we explore the great potential of land saving through the international cereal trade. By 'land saving', we refer to the reduced global total of lands re- quired to produce a necessary amount of cereal when cereal is exported from a country with relatively large yield of the cereal to a country with relatively small yield of the cereal. Our scenario analysis suggests that international cereal trade would help mitigate the shortage of domestic arable land for many island countries (e.g., Japan) and countries in the arid Middle East and North Africa (e.g., Syria and Morocco). Furthermore, international cereal trade has the potential to generate 'land saving' of 50,092,284 ha of land per year, which is roughly the size of Spain. Drawing upon the definition of a similar concept - virtual water (Hoekstra and Hung 2002), we define virtual land as the area of land resources used for the production of goods. Through introducing the concept of virtual land, we believe land resources that are traditionally considered as stationary resources can flow with anthropogenic socioeconomic activities. The largest virtual-land flows (〉 3,000,000 ha/year) exist between the United States (US) to China, Brazil to China, the US to Japan, the US to Mexico, and Argentina to China. However, not all virtual-land flows necessarily result in land saving. Thus, more endeavors are needed to plan the virtual-land flows for a larger land saving at the global scale.
ISSN:1009-637X
1861-9568