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西南喀斯特地区灌丛林土壤CO_2、CH_4通量研究
CO_2 and CH_4 fluxes from soil of scrub forest in the karst area of southwest China

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文摘 灌丛林生态系统是西南喀斯特地区广泛分布的生态系统类型,在区域生态系统碳循环和碳平衡中有重要作用。为估算亚热带喀斯特地区CO_2和CH_4源汇现状,评价灌丛林生态系统对温室效应的影响,以贵阳市开阳县灌丛林为研究对象,采用静态箱-气相色谱法观测CO_2和CH_4通量的季节变化。对2010年12月到2012年1月的观测结果分析表明,灌丛林地土壤表现为CO_2的释放源和CH_4的吸收汇,CO_2通量的变化范围为33.20- 1106.75 mg/(m~2?h),年平均通量为342.98 mg/(m~2?h);CH_4通量的变化范围为-206.14~-59.85μg/(m~2?h),年平均通量为-103.22μg/(m~2?h).CO_2排放通量和CH_4吸收通量均表现出明显的季节变化规律,两者最高值均出现在夏季,不同的是CO_2排放通量最低值出现在12月,而CH_4吸收通量最高值则出现在11月。土壤温度和土壤湿度是影响灌丛林土壤CO_2通量的主要因子,双因素模型(F=αe~(βT) W~γ)较好拟合了土壤温度和土壤湿度对土壤呼吸的影响,两者共同解释了CO_2通量变化的81.4%。土壤CH_4吸收通量与温度存在显著正相关关系,其中5cm土壤温度同CH_4吸收通量相关性最好,但温度超过一定阈值时,两者相关性降低。土壤CH_4吸收通量与土壤湿度呈显著负相关关系表明,水分是土壤氧化CH_4的重要限制因子。
其他语种文摘 Shrub forest is an important, widely distributed ecosystem type in karst area of southwest China, playing an important role in the regional carbon cycle and balance. Our objectives were to evaluate the CO_2, CH_4 budgets of karst area of southwest China, and estimate the influence of shrub forest ecosystem on greenhouse effects. Taking shrub forest in Kaiyang country of Guizhou province as our study object, we used static enclosed chamber coupled with GC to observe the seasonal changes in soil CO_2, CH_4 fluxes. The results showed that the forest soil performed as a source for CO_2 and a sink for CH_4 to the atmosphere; annual CO_2 flux ranged from 33.20 to 1106.75 mg/(m~2?h) with an average of 342.98 mg/(m~2?h), and annual CH_4 flux ranged from-206.14 to-59.85 μg/(m~2?h) with an average of-103.22μg/(m~2?h). There are significant seasonal variations in both CO_2 emission flux and CH_4 absorption flux: their maximums both appeared in summer, while minimum CO_2 emission flux occurred in December and minimum CH_4 absorption flux in November. Soil temperatures and soil moistures were the two main factors regulating the soil CO_2 flux of shrub forest. The relationship of soil respiration rate (F) with soil temperature (T) and soil moisture (W) fit well with the equation F=αe~(βT) W~γ (α, β, γ were constants). The results showed that soil temperatures and soil moistures together accounted for 81.4% of the seasonal variations in soil respiration rate. Soil CH_4 absorption flux increased along with the temperature, and had the highest correlation with soil temperature at the depth of 5 cm. Besides, the correlation between soil CH_4 absorption flux and soil temperature decreased as temperature increased. Significant negative correlation between CH_4 absorption flux and soil moisture indicated that soil moisture was one important factor that limits soil CH_4 oxidation.
来源 地球化学 ,2013,42(3):221-228 【核心库】
关键词 土壤 ; CO_2通量 ; H_4通量 ; 温度 ; 湿度 ; 喀斯特地区
地址

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, 贵州, 贵阳, 550002

语种 中文
文献类型 研究性论文
ISSN 0379-1726
学科 地质学
基金 国家自然科学基金 ;  中国科学院战略性先导科技专项 ;  贵州省农业科技攻关项目
文献收藏号 CSCD:4864966

参考文献 共 36 共2页

1.  Forster P. Changes in atmospheric constituents and in radiative forcing. Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change,2007:131-234 被引 2    
2.  WMO. The state of greenhouse gases in the atmosphere based on global observations through 2010. WMO Greenhouse Gas Bulletin,2011,7:1-4 被引 1    
3.  叶笃正. 全球变化科学进展与未来趋势. 地球科学进展,2002,17(4):467-469 被引 63    
4.  Bond-Lamberty B. Temperature-associated increases in the global soil respiration record. Nature,2010,464(7288):579-582 被引 228    
5.  Le Mer J. Production, oxidation, emission and consumption of methane by soils: A review. Eur J Soil Biol,2001,37(1):25-50 被引 193    
6.  Dalal R C. Magnitude and biophysical regulators of methane emission and consumption in the Australian agricultural, forest, and submerged landscapes: A review. Plant Soil,2008,309(1):43-76 被引 27    
7.  Ojima D S. Effect of land use change on methane oxidation in temperate forest and grassland soils. Chemosphere,1993,26(1):675-685 被引 18    
8.  Post W M. Soil carbon pools and world life zones. Nature,1982,298(5870):156-159 被引 542    
9.  Castro M S. Factors controlling atmospheric methane consumption by temperate forest soils. Global Biogeochem Cy,1995,9:1-1 被引 73    
10.  孙向阳. 北京低山区森林土壤中CH_4排放通量的研究. 土壤与环境,2000,9(3):173-176 被引 40    
11.  杨金艳. 土壤水热条件对东北森林土壤表面CO2通量的影响. 植物生态学报,2006,30(2):286-294 被引 75    
12.  周存宇. 鼎湖山森林地表CO_2通量及其影响因子的研究. 中国科学(D辑),2004,34(11):175-182 被引 24    
13.  刘玲玲. 千烟洲红壤丘陵区人工针叶林土壤CH_4排放通量. 植物生态学报,2008,32(2):431-439 被引 23    
14.  王兵. 中国灌木林-经济林-竹林的生态系统服务功能评估. 生态学报,2011,31(7):1936-1945 被引 30    
15.  刘芳. 黔中非农业土壤CH_4的地-气交换及其影响因素. 地球与环境,2009(2):147-152 被引 3    
16.  刘丛强. 喀斯特生态系统生物地球化学过程与物质循环研究:重要性、现状与趋势. 地学前缘,2009,16(6):1-12 被引 63    
17.  贵州省林业厅林政处. 贵州省森林资源现状,2008 被引 1    
18.  Rustad L E. Controls on soil respiration: Implications for climate change. Biogeochemistry,2000,48(1):1-6 被引 76    
19.  鲁如坤. 土壤农业化学分析方法,2000:12-289 被引 260    
20.  Xu M. Soil-surface CO_2 efflux and its spatial and temporal variations in a young ponderosa pine plantation in northern California. Global Change Biol,2001,7(6):667-677 被引 206    
引证文献 6

1 孔范龙 土壤无机CO_2通量(R_(io))研究进展 生态科学,2017,36(3):186-192
被引 2

2 刘九缠 石漠化治理对土壤中CO_2、CH_4变化特征及碳汇效应的影响 中国岩溶,2018,37(5):733-741
被引 3

显示所有6篇文献

论文科学数据集

1. 黑河生态水文遥感试验:黑河流域中游箱式法土壤呼吸观测数据集(2012)

2. 黑河生态水文遥感试验:黑河流域中游土壤呼吸观测数据集

3. 土壤生物化学过程二氧化碳同位素综合观测系统研制:多通道双循环土壤呼吸δ13C观测系统数据集(2019-2020)

数据来源:
国家青藏高原科学数据中心
PlumX Metrics
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