Section I Carbon and Nitrogen
Chapter 1 Liming and straw retention interact to increase nitrogen uptake and grain yield in a double rice cropping system
Chapter 2 Liming reduces nitrogen uptake from fertilizer but increases that from straw in a double rice cropping system
Chapter 3 Lime application lowers the global warming potential of a double rice cropping system
Chapter 4 Interaction of lime application and straw retention on ammonia emissions from a double rice cropping system
Chapter 5 Liming increases biological nitrogen fixation rate in an acidic paddy soil
Section II Phosphorus and Potassium
Chapter 6 Liming reduces soil phosphorus availability but promotes yield and P uptake in a double rice cropping system
Chapter 7 Interactive effects of liming and straw retention on apparent soil potassium balance in a double rice cropping system
Section III Cadmium
Chapter 8 Liming increases yield and reduces grain cadmium concentration in rice paddies: a meta-analysis
Chapter 9 Interactive effects of water management and liming on CH4 emissions and rice cadmium uptake in an acid paddy soil
Acknowledgements
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