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- Xie, J.; Peng, B.; Wang, R.; Batbayar, J.; Hoogmoed, M.; Yang, Y.; Zhang, S.; Yang, X.; Sun, B.
- European journal of soil science 2018 v.69 no.3 pp. 555-567
- Anthrosols; Triticum aestivum; Zea mays; arable soils; carbon sequestration; climate change; corn; correlation; crop yield; cropping systems; dairy manure; field experimentation; manure spreading; mineral fertilizers; models; nitrogen; particulate organic carbon; phosphorus; soil organic carbon; soil productivity; soil quality; soil sampling; wheat; China
- ... Soil organic carbon (SOC) sequestration in the soil of arable land has been recommended as a ‘win–win strategy’ for improving soil quality and crop productivity, and for mitigating the effects of climate change. With data from a 35‐year field experiment, we investigated the effects of organic manure and synthetic fertilizers on the mechanisms of organic carbon (OC) protection in macroaggregates an ...
- Dou, X.; Li, F.; Cheng, X.; Zhu, P.
- European journal of soil science 2018 v.69 no.3 pp. 535-544
- Glycine max; Zea mays; beans; carbon nitrogen ratio; carbon sequestration; corn; fractionation; manure spreading; nitrogen; nitrogen content; soil; soil organic carbon; soil organic nitrogen; soil quality; soil sampling; stable isotopes
- ... Agricultural measures that alter soil carbon (C) and nitrogen (N) dynamics might affect biogeochemical cycling. We combined soil chemical fractionation with isotope analyses to investigate C and N dynamics of soil organic matter pools (SOMP) after 25 years of cropping with the application of manure. Soil samples (0–20‐ and 20–40‐cm depths) were taken from the control (CK, i.e. the initial soil con ...