摘要
依托FACE(free air carbon dioxide enrichment)技术平台,利用阻断根法,采用H6400红外气体分析仪(IRGA)-田间原位测定的方法,研究了大气CO2浓度升高和不同氮肥水平对水稻/小麦轮作制中冬小麦旺盛生长期间根际呼吸的影响。结果表明,在整个测定期间,大气CO2浓度升高增强了根际呼吸速率,提高了根际呼吸排放量。在高N和低N处理中,高CO2浓度下的根际呼吸总排放量分别比Ambient极显著增加117.0%和90.8%。根际呼吸速率在孕穗初期达到最大值;使根际呼吸在土壤呼吸中的比重由24.5%(LN)~26.7(HN)提高到39.8%(LN)~47.1%(HN)。CO2浓度升高与氮肥用量对根际呼吸产生交互效应。表明大气CO2浓度升高将加快土壤向大气的CO2排放,结果将有助于评价未来高CO2浓度背景下农田生态系统土壤碳的固定潜力。
A Free-Air Carbon Dioxide Enrichment (FACE) system and root-isolation methods were used to study the effects of elevated atmospheric pCO2 and nitrogen fertilisation on rhizospheric and soil respiration, determined by in situ IRGA (LI6400) measurements, during the growth of wheat (Triticurn aestivurn L. cv Yangmai 14) between 106 and 183 days after germination in a wheat/rice rotation system. The results showed that elevated atmospheric pCO2 increased rhizospheric respiration rate and cumulative CO2 emissions during the experimental period. Under high nitrogen fertilisation (HN) and low nitrogen fertilisation (LN) treatments, elevated atmospheric pCO2 increased cumulative rhizospheric respiration by 117.0% and 90.8%, respectively. The proportion of cumulative rhizospheric respiration to cumulative soil respiration increased from 24.5% to 39.8% (LN) and 26.7% to 47.1% (HN). While nitrogen fertilisation did not significantly influence rhizospheric respiration, the interaction of elevated atmospheric pCO2 and nitrogen fertilisation significantly increased rhizospheric respiration.The increase in rhizospheric and soil respiration under conditions of elevated atmospheric pCO2 indicates that, higher CO2 scenarios, C exchange between the atmosphere and soil will increase in arable ecosytems.
出处
《生态学报》
CAS
CSCD
北大核心
2007年第4期1420-1427,共8页
Acta Ecologica Sinica
基金
国家"973"资助项目(CCDMCTE-2002CB412502)
中国科学院知识创新重要方向资助项目(KZCX3-SW-440)
国家自然科学基金资助项目(40231003
40110817
40571157
30470334)~~
关键词
CO2浓度升高
冬小麦
根际呼吸
生育阶段
elevated atmospheric pCO2
winter wheat
rhizospheric respiration
growth stage
