Contrasting Effects of Agricultural Management on Soil Organic Carbon Balance in Different Agricultural Regions of China
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Cited by (15)
Responses of crop productivity and reactive nitrogen losses to the application of animal manure to China's main crops: A meta-analysis
2022, Science of the Total EnvironmentCitation Excerpt :The MAT (−1.5–19.5 °C) and MAP (127–1975 mm) varied greatly across the sites studied. Therefore, the cropland in China was divided into three climatic regions with distinct climates and cropping systems: NTM (temperate monsoon climate with the double cropping of wheat–maize, wheat–rice, wheat–soybean, etc.,), NTC (temperate continental climate with mono-cropping in one year or three cropping in two years), and STM (subtropical monsoon climate with double-or three cropping of wheat-rape, rice-rape, rice-rice, etc.) (Wang et al., 2013). The N application rates were grouped into three levels: into three application levels: low (〈200), middle (200−300) and high (>300 kg N ha−1).
Spatial changes and driving variables of topsoil organic carbon stocks in Chinese croplands under different fertilization strategies
2021, Science of the Total EnvironmentCitation Excerpt :The NEC is generally characterized by high SOC content and fertility (Liu et al., 2003) but over recent decades has experienced soil erosion, intensive cultivation, low C return, and a significant warming and drying trend under climate change (Xie et al., 2011; Z. Zhang et al., 2016) which have resulted in an initial rapid SOC loss despite the inherently high content of SOC (Sun et al., 2010; Wang et al., 2010). Our observation of a decrease in SOC in the NEC when relying solely on the native soil fertility (CK treatment) or using only NPK is supported by others (Wang et al., 2013; X. Zhang et al., 2016). In addition, in NEC there was no significant difference in SOCr between the NPKM and M which could also be partly attributed to the relatively low average initial SOC content in M (Table 1).
Can the sequestered carbon in agricultural soil be maintained with changes in management, temperature and rainfall? A sensitivity assessment
2016, GeodermaCitation Excerpt :APSIM allows flexible specification of management options such as crop type, residue management, and fertilizer application. APSIM has been tested for its performance to simulate soil organic C dynamics against measurement data in a number of studies (Huth et al., 2010; Luo et al., 2011; Probert et al., 2005; Thorburn et al., 2001; Wang et al., 2013). Results generally showed that APSIM is able to predict soil organic C dynamics under different cropping and management systems at many locations and over long time periods.
Supported by the National Basic Research Program of China (No. 2010CB950604) and the National Natural Science Foundation of China (No. 41075108).