贵州山区土壤微生物生物量的碳同位素组成与有机碳同位素效应
Carbon isotope composition in soil microbial biomass and organic carbon isotope effect
查看参考文献26篇
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文摘
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选择贵州岩溶区3个不同海拔高度上的旱地作为实验点,进行了绿肥(紫花光叶苕,C_3豆科植物)的输入实验,目的是了解通过输入绿肥之后土壤微生物生物量碳(SMBC)的响应,以及微生物生物量中碳同位素比值的变化,来判断植物分解作用期间有机碳的同位素效应,即微生物分解对~(13)C的分馏作用和微生物对有机质的选择性利用。实验结果表明,在实验地里加入绿肥之后,年平均气温较高的实验地的SMBC应较快,并且其值高于其余两个年平均所温较低的实验地,说明SMBC主要来源于植物残留物,其值的大小受控于气温。在加入绿肥之后,并未在各自的实验地和对照地之间出现δ~(13)C值的差异,而是在植物残留物的分解达到一定程度后实验地的δ~(13)C值才高于对照地, 但在年平均气温较低的实验点上始终未出现这种差异,说明植物残留物的分解程度和质量将影响SMBC的δ~(13)C值,这种现象也进一步说明土壤有机碳的同位素效应的微生物对~(13)C的分馏和对有机质的选择性利用并存在过程。3个实验点上的土壤有机碳的δ~(13)C值大小的顺序与SMBC的δ~(13)C值大小的顺序相一致,表明SMBC的δ~(13)C值能够反映相应样品中的土壤有机质δ~(13)C值的总的变化趋势,并可能是控制土壤有机质的δ~(13)C值大小的主要的影响因素。 |
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其他语种文摘
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We tested whether the shift in isotopic composition of plant litter during microbial decomposi-tion can be induced by isotope effect: raicrobial against ~(13)C-discrimination or selective utilization of organic compounds. The decomposition experiment with green manure was conducted in three soils, located different elevation in southwest China, which lasted from 5 January in 2001 to 25 February, 2002. The concentrations and δ~(13)C values of soil microbial biomass carbon (SMBC) were measured in both control and treatment plots with green manure ( Vicia villosa var. ) . The objective of this study was to investigate the factors affecting on the shift of carbon isotope composition in microbial biomass during decomposition. The manure-induced increase in SMBC was higher and emerged ear-lier in the low elevation with high average annual temperature than that in high elevation, indicating that SMBC came mainly from plant litter and controlled by air temperature during decomposition. Because the δ~(13)C value of green-manure and that of crop and weeds were similar at each experiment site, the difference between treatment and control plots was only quantity and quality of plant litter incorporated into soils. By mass balance, if the shift of carbon isotope composition in microbial bio-mass only induced by microbial C-discrimination, or only by selective utilization of organic com-pounds, the δ~(13)C values of SMBC in the treated and control plots at each experiment site would be equal. The experimental results showed that there were no differences ofδ~(13)C values of SMBC bet-ween treated and control plots when corresponding increasing of carbon concentrations in microbial biomass. However, those differences occurred following sampling date at both Xiaohai and Bakai sites with relatively higher annual average temperature, and theδ~(13)C value of SMBC in treated plot was higher than that in control plot, indicating that the degree of microbial decomposition and quali-ty of plant litter will effect on the shift ofδ~(13) C value of SMBC, and that isotope effect of microbial decomposition was complex, selective utilization of organic compounds was accompanied by micro-bial ~(13)C-discrimination. The sequence of magnitude ofδ~(13)C value of SMBC was consistent with that of soil organic carbon (SOC) among three experiment sites, indicating that theδ~(13)C value of SMBC reflects gross changes in theδ~(13)C value of SOC in the corresponding samples, and may be the main factor to control magnitude of theδ~(13) C values of SOC. |
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来源
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第四纪研究
,2003,23(5):546-556 【核心库】
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关键词
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土壤微生物生物量碳
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土壤有机碳
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碳同位素效应
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分馏作用
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有机质的选择性利用
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地址
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1.
中国科学院地球化学研究所, 环境地球化学国家重点实验室, 贵阳, 550002
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贵州茂兰国家级喀斯特森林保护区管理处, 荔波, 558400
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语种
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中文 |
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文献类型
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研究性论文 |
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ISSN
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1001-7410 |
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学科
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地质学 |
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基金
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国家自然科学基金
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中国科学院知识创新工程项目
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文献收藏号
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CSCD:1173131
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