中文摘要：

为了减少稻田温室气体排放通量,本研究对稻田土壤进行炉渣和生物炭单一施加和混合施加处理,并测定了早、晚稻拔节期和乳熟期CO2、CH4和N2O排放通量及相关微生物（细菌、真菌、硝化细菌、反硝化细菌）的数量.结果表明,稻田施加废弃物可以减少温室气体的排放通量.在早、晚稻的拔节期,施加生物炭显著降低了CO2和N2O的排放通量（p〈0.05）,混合施加显著降低了CO2和CH4的排放通量（p〈0.05）,施加炉渣条件下3种温室气体的排放通量与对照组相比没有差异.施加炉渣或生物炭都显著降低硝化细菌的数量（p〈0.05）,混施处理显著降低细菌、硝化细菌、反硝化细菌数量（p〈0.05）,但显著提高了稻田土壤真菌/细菌比值（p〈0.05）.在早、晚稻的乳熟期,炉渣、生物炭、混施处理能显著降低CH4排放通量（p〈0.05）,而生物炭处理显著降低N2O排放通量（p〈0.05）.炉渣处理显著降低细菌、硝化细菌、反硝化细菌数量（p〈0.05）,生物炭处理显著降低细菌、反硝化细菌数量（p〈0.05）,混施处理显著降低细菌、硝化细菌数量,并显著提高真菌/细菌比值（p〈0.05）.温室气体排放与微生物数量之间的相关性分析结果表明,CO2、CH4排放通量与细菌数量呈显著正相关,与真菌/细菌比值呈显著负相关;而N2O排放通量则与硝化细菌、反硝化细菌数量呈显著正相关.

英文摘要：

In order to reduce greenhouse gases emissions in paddy fields,the effect of single and mixed amendment of slag and biochar on CO2,CH4 and N2O emissions and related microorganisms（ bacteria,fungal,nitrobacteria and denitrobacteria） were determined in elongation and ripen stage both early and late paddy fields. The results showed that greenhouse gases emissions were reduced after waste amendment. In the elongation stage of both early and late paddy fields,CO2 and N2O emissions significantly decreased after biochar amendment（ P〈0.05）,and CO2 and CH4emissions significantly decreased after mixed amendment（ P〈0.05）. The three greenhouse gas emissions were however not significantly different after slag amendment comparison with the control. The populations of nitrobacteria significantly decreased after slag or biochar amendment（ P〈0.05）. After mixed amendment,the populations of bacteria,nitrobacteria and denitrobacteria significantly decreased（ P〈0. 05）,while the fungal： bacteria ratio significantly increased（ P〈0. 05）. In theripen stage of both early and late paddy fields,CH4 emissions significantly decreased by the slag,biochar and the mixed amendment（ P〈0.05）,while N2 O emissions significantly decreased after biochar amendment（ P〈0. 05）. The populations of bacteria,nitrobacteria and denitrobacteria significantly decreased after slag amendment（ P〈0.05）,and the populations of bacteria and denitrobacteria significantly decreased after biochar amendment（ P〈0.05）.The populations of bacteria and nitrobacteria significantly decreased（ P〈0. 05）,but the fungal： bacteria ratio significantly increased after mixed amendment（ P〈0.05）. Correlation analysis among greenhouse gases emissions and populations of soil microorganisms showed that the populations of bacteria was significantly positively correlated with CO2 and CH4flux. The fungal： bacteria ratio was significantly negatively correlated with CO2 and CH4flux. The populations of nitrobacteria were sign