Many researches showed a comprehensive assessment of the cropping practice effect on greenhouse gas (GHG) emissions per unit yield (yield-scaled) rather than per the land area (area-scaled), and it was noteworth...Many researches showed a comprehensive assessment of the cropping practice effect on greenhouse gas (GHG) emissions per unit yield (yield-scaled) rather than per the land area (area-scaled), and it was noteworthy that cropping practices decided to increase or decrease grain yield, and reduce or promote greenhouse gas emissions. In this study, a meta-analysis was conducted to quantify the effects of rice basic seedlings (BS) on the global warming potential (GWP) of GHG emissions at the yield-scale in China. The results suggested that significant difference was observed in yield-scaled GWP of BS. The lowest yield-scaled GWP occurred at 80-100 BS (415.65 kg CO2 equiv/mg). The yield-scaled GHG emission from high to low was that of the hybrid rice varieties (1 028.86 kg CO2 equiv/mg), the conventional rice varieties (634.15 kg CO2 equiv/mg) and the super rice varieties (576.57 kg CO2 equiv/mg). Consequently, the model of conventional rice varieties and super rice varieties at 80-100 BS could be a scientifc method of matching inthe rice cropping system. A further assessment of rice density and variety impacts on GHG emissions at yield-scale was urgently needed to develop, so as to achieve win-win policies of rice production for higher yield with lower emissions.展开更多
文摘Many researches showed a comprehensive assessment of the cropping practice effect on greenhouse gas (GHG) emissions per unit yield (yield-scaled) rather than per the land area (area-scaled), and it was noteworthy that cropping practices decided to increase or decrease grain yield, and reduce or promote greenhouse gas emissions. In this study, a meta-analysis was conducted to quantify the effects of rice basic seedlings (BS) on the global warming potential (GWP) of GHG emissions at the yield-scale in China. The results suggested that significant difference was observed in yield-scaled GWP of BS. The lowest yield-scaled GWP occurred at 80-100 BS (415.65 kg CO2 equiv/mg). The yield-scaled GHG emission from high to low was that of the hybrid rice varieties (1 028.86 kg CO2 equiv/mg), the conventional rice varieties (634.15 kg CO2 equiv/mg) and the super rice varieties (576.57 kg CO2 equiv/mg). Consequently, the model of conventional rice varieties and super rice varieties at 80-100 BS could be a scientifc method of matching inthe rice cropping system. A further assessment of rice density and variety impacts on GHG emissions at yield-scale was urgently needed to develop, so as to achieve win-win policies of rice production for higher yield with lower emissions.
