Abstract
This study quantified the impacts of soil organic carbon (SOC) content on the grain yield of crops using a biogeochemical model (DNDC, denitrification-decomposition). Data on climate, soil properties, and farming management regimes of cropping systems were collected from six typical agricultural zones (northeast, north, northwest, mid-south, east and southwest regions of China, respectively) and integrated into a GIS database to support the model runs. According to the model, if the initial SOC content in the cropland was increased by 1 g C kg −1, the crop yield may be increased by 176 kg ha −1 for maize in the northeast region, 454 kg ha −1 for a maize-wheat rotation in the north region, 328 kg ha −1 for maize in the northwest region, 185 kg ha −1 for single-rice in the mid-south region, 266 kg ha −1 for double-rice in east region, and 229 kg ha −1 for rice and wheat rotation in southwest region. There is a great potential for enhancing the crop yield by improving the SOC content in each region of China.
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