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Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
general
Plant-Based Assessment of Inherent Soil Productivity and Contributions to China's Cereal Crop Yield Increase since 1980
PLoS ONE, Volume 8, No. 9, Article e74617, Year 2013
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Description
Objective:China's food production has increased 6-fold during the past half-century, thanks to increased yields resulting from the management intensification, accomplished through greater inputs of fertilizer, water, new crop strains, and other Green Revolution's technologies. Yet, changes in underlying quality of soils and their effects on yield increase remain to be determined. Here, we provide a first attempt to quantify historical changes in inherent soil productivity and their contributions to the increase in yield.Methods:The assessment was conducted based on data-set derived from 7410 on-farm trials, 8 long-term experiments and an inventory of soil organic matter concentrations of arable land.Results:Results show that even without organic and inorganic fertilizer addition crop yield from on-farm trials conducted in the 2000s was significantly higher compared with those in the 1980s - the increase ranged from 0.73 to 1.76 Mg/ha for China's major irrigated cereal-based cropping systems. The increase in on-farm yield in control plot since 1980s was due primarily to the enhancement of soil-related factors, and reflected inherent soil productivity improvement. The latter led to higher and stable yield with adoption of improved management practices, and contributed 43% to the increase in yield for wheat and 22% for maize in the north China, and, 31%, 35% and 22% for early and late rice in south China and for single rice crop in the Yangtze River Basin since 1980.Conclusions:Thus, without an improvement in inherent soil productivity, the 'Agricultural Miracle in China' would not have happened. A comprehensive strategy of inherent soil productivity improvement in China, accomplished through combining engineering-based measures with biological-approaches, may be an important lesson for the developing world. We propose that advancing food security in 21st century for both China and other parts of world will depend on continuously improving inherent soil productivity. © 2013 Fan et al.
Available Materials
https://efashare.b-cdn.net/share/pmc/articles/PMC3776784/bin/pone.0074617.s001.doc
https://efashare.b-cdn.net/share/pmc/articles/PMC3776784/bin/pone.0074617.s002.tif
https://efashare.b-cdn.net/share/pmc/articles/PMC3776784/bin/pone.0074617.s003.tif
https://efashare.b-cdn.net/share/pmc/articles/PMC3776784/bin/pone.0074617.s004.tif
Authors & Co-Authors
Fan, Mingsheng
China, Beijing
China Agricultural University
Lal, Rattan A.
United States, Columbus
The Ohio State University
Qiao, Lei
China, Beijing
China Agricultural University
Zhang, Fusuo
China, Beijing
China Agricultural University
Statistics
Citations: 66
Authors: 4
Affiliations: 2
Identifiers
Doi:
10.1371/journal.pone.0074617
ISSN:
19326203
Research Areas
Environmental
Food Security