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施用生物质炭后稻田土壤性质、水稻产量和 痕量温室气体排放的变化
引用本文:张斌,刘晓雨,潘根兴,郑聚锋,池忠志,李恋卿,张旭辉,郑金伟.施用生物质炭后稻田土壤性质、水稻产量和 痕量温室气体排放的变化[J].中国农业科学,2012,45(23):4844-4853.
作者姓名:张斌  刘晓雨  潘根兴  郑聚锋  池忠志  李恋卿  张旭辉  郑金伟
作者单位:1. 南京农业大学农业资源与生态环境研究所,南京,210095
2. 四川省农业科学院,成都,610066
基金项目:国家科技支撑计划项目(2008BAD95B13-1);国家自然科学基金重点项目(40830528)
摘    要:目的]研究生物质炭对连续两年稻田土壤性质、水稻产量和痕量温室气体排放的影响,为合理施用生物质炭而促进水稻生产可持续的低碳发展提供科学依据.方法]选择成都平原稻田,2010年布设了施氮与否(0与240 kg N·hm-2)下生物质炭土壤施用(0、2 0、40 t hm-2)试验,连续两年观测土壤性质、水稻产量、土壤CH4和N2O排放的变化.结果]施氮肥条件下,生物质炭连续两年对主要土壤肥力性质表现出改善效应,提高了土壤有机碳、全氮含量和pH,同时降低土壤容重,但对水稻产量影响不显著.生物质炭对CH4排放的影响依氮肥施用而异.不施氮肥下,施用生物质炭提高当季土壤CH4排放(20 t·hm-2用量时),但次年无影响.施用氮肥下,不同用量生物质炭对土壤CH4排放无显著影响,仅40t·hm-2用量时次年CH4排放有所增加;生物质炭对不施氮肥土壤当季N2O排放无显著影响,并降低次年的排放.然而,施氮肥下,生物质炭连续两年显著降低了土壤N2O的排放,其降幅高达66%.施氮肥条件下,连续两年生物质炭处理降低稻田痕量温室气体的综合温室效应及其水稻生产的碳强度,特别是40 t·hm-2的高用量下.结论]在连续两年内,稻田采用生物质炭配施氮肥的管理措施对改善土壤性质和稳定水稻产量具有持续效应,高用量生物质炭(40 t·hm-2)显著降低稻田CH4和N2O痕量温室气体排放的综合温室效应和水稻生产的碳强度,且在连续两年内具有稳定的持续性.因此,在当前稻田管理措施下,生物质炭施用量为40 t·hm-2可实现稻田稳产和固碳减排的目标.

关 键 词:生物质炭    温室气体    综合温室效应    碳强度    稻田    田间试验
收稿时间:2012-03-09

Changes in Soil Properties, Yield and Trace Gas Emission from a Paddy After Biochar Amendment in Two Consecutive Rice Growing Cycles
ZHANG Bin,LIU Xiao-yu,PAN Gen-xing,ZHENG Ju-feng,CHI Zhong-zhi,LI Lian-qing,ZHANG Xu-hui,ZHENG Jin-wei.Changes in Soil Properties, Yield and Trace Gas Emission from a Paddy After Biochar Amendment in Two Consecutive Rice Growing Cycles[J].Scientia Agricultura Sinica,2012,45(23):4844-4853.
Authors:ZHANG Bin  LIU Xiao-yu  PAN Gen-xing  ZHENG Ju-feng  CHI Zhong-zhi  LI Lian-qing  ZHANG Xu-hui  ZHENG Jin-wei
Institution:1.Institute of Resource, Ecosystem and Environment of Agriculture, Nanjing Agricultural University, Nanjing 210095; 2.Sichuan Academy of Agricultural Science, Chengdu 610066
Abstract:【Objective】The effect of biochar on soil quality, rice yield and trace gas emissions in 2 consecutive rice growing cycles were investigated for providing a scientific basis for sustainable low carbon development of rice agriculture. 【Method】 A field experiment was initiated in a rice farm from Chengdu Plain with 0, 20 and 40 t?hm-2of biochar soil amendment with (240 kg N?hm-2) and without (0 kg N?hm-2) N fertilizer in 2010. Changes in soil fertility properties, rice yield and non-CO2 greenhouse gases emission in a whole rice growing cycle with biochar amendment were monitored throughout 2010-2011.【Result】Biochar amendments significantly increased soil organic carbon, total nitrogen, pH value and decreased bulk density of soil in both rice-growing cycles, when N fertilizer was applied, but it had no changes in rice yield. Biochar effect on CH4 emission varied with N status. Increase of CH4 emission was observed only under low rate of 20 t?hm-2 in the first cycle. However, no increase in CH4 emission was found with N fertilization in the first cycle and even a decrease in the second cycle. With N fertilization, great decrease in N2O emission (by as high as 66% under 40 t?hm-2 of biochar amendment) was evidenced throughout the two cycles. Overall, biochar soil amendment tended to decrease the global warming potential and rice production carbon intensity from the two non-CO2 trace gases in the consecutive two rice cycles, under 40 t?hm-2 in particular. 【Conclusion】Biochar soil amendment at 40 t?hm-2 could be a technical option to reach low carbon intensity and stable rice productivity in rice paddy agriculture.
Keywords:biochar  greenhouse gas  global warming potential  carbon intensity  rice paddy  field experiment
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