Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China

LIU Xiaohui; LU Xianguo; JIANG Ming; WANG Xigang

doi:10.1007/s11769-009-0055-7

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LIU Xiaohui, LU Xianguo, JIANG Ming, WANG Xigang. Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China[J]. Chinese Geographical Science, 2009, 19(1): 55-61. doi: 10.1007/s11769-009-0055-7

Citation:

LIU Xiaohui, LU Xianguo, JIANG Ming, WANG Xigang. Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China[J]. Chinese Geographical Science, 2009, 19(1): 55-61. doi: 10.1007/s11769-009-0055-7

Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China

doi: 10.1007/s11769-009-0055-7

1.
Key Laboratory of Wetland Ecology and Environment, Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130012, China;
2.
Graduate University of the Chinese Academy of Sciences, Beijing 100049, China;
3.
Hella Automotive Lighting Limited Company, Changchun 130033, China

Funds: Under the auspices of National Natural Science Foundation of China (No. 40830535);Frontier of Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences (No. KZCX3-SW-NA3-01)

Received Date: 2008-08-22
Rev Recd Date: 2008-11-10
Publish Date: 2009-03-20

Abstract

The objective of this study is to quantify the values of greenhouse gases(GHGs) exchange in carbon equivalents of marshes and paddy fields in the Sanjiang Plain,Heilongjiang Province,China. We obtained the GHGs exchange values based on comparable price by calculating the carbon sequestration values and the GHGs emission values of marshes and paddy fields respectively in four periods of 1982,1995,2000 and 2005. It is noted that the GHGs emission values are always negative. In this study,the marshes areas decreased from 1438977.0 to 775,132.2ha and the paddy fields areas increased from 417195.8 to 934205.0ha. The values of GHGs exchange of marshes varied from 135877.156×10⁶ to 136882.534×10⁶ yuan(RMB) and those of paddy fields varied from 1006.256×10⁶ to 2767.645×10⁶ yuan. The GHGs exchange values of marshes decreased from 1982 to 2005 on the whole,reversely,those of paddy fields increased,but those in 2005 were lower than those in 2000. In different periods,the GHGs exchange values were always higher in marshes than in paddy fields. The contribution rate of GHGs exchange values per unit area of marshes was also very high in different periods,and the maximum was up to 98.35% in 2005. As far as the whole wetland ecosystem(including marshes and paddy fields),assuming a linear change in GHGs exchange values,it represented a cumulative increase of 20926.757×10⁶ yuan from 1982 to 2005. By adding GHGs exchange values increased during those four periods,we obtained a cumulative net increase values of GHGs exchange of wetland ecosystem of 18200.860×10⁶ yuan. The results will be useful for understanding the indirect services provided by marshes and paddy fields.
- carbon equivalents,
- GHGs exchange values,
- contribution rate,
- cumulative value,
- Sanjiang Plain

References

[1]	Allard V,Soussana J F,Falcimagne R et al.,2007.The role of grazing management for the net biome productivity and greenhouse gas budget (CO2,N2O and CH4) of semi-natural grassland.Agriculture,Ecosystems and Environment,121(1-2):47-58.DOI: 10.1016/j.agee.2006.12.004
[2]	Ando A W,Getzner M,2006.The roles of ownership,ecology,and economics in public wetland-conservation decisions.Ecological Economics,58(2):287-303.DOI: 10.1016/j.ecolecon.2005.07.013
[3]	Báez-Cazull S,Meguire J T,Cozzarelli I M et al.,2007.Centimeter-scale characterization of biogeochemicai gradients at a wetland-aquifer interface using capillary electrophoresis.Applied Geochemistry,22(12):2664-2683.DOI: 10.1016/j.apgeochem.2007.06.003
[4]	Bonneville M C,Strachan I B,Humphrey E R et al.,2008.Net ecosystem CO2 exchange in a temperate cattail marsh in relation to biophysical properties.Agricultural and Forest Meteorology,148(1):69-81.DOI: 10.1016/j.agrformet.2007.09.004
[5]	Brix H,Sorrell B K,Lorenzen B,2001.Are phragmites dominated wetlands a net source or net sink of greenhouse gases? Aquatic Botany,69(2-4):313-324,DOI:10.1016/S0304-3770 (01)00145-0
[6]	Chen Guanxiong,Huang Guohong,Huang Bin et al.,1995.CH4 and N2O emission from a rice field and effect of Azolla and fertilization on them.Chinese Journal of Applied Ecology,6(4):378-382.(in Chinese)
[7]	Chen Lingling,Lin Zhenshan,2008.The effect of habitat destruction on metapopulations with the Allee-like effect:a study case of Yancheng in Jiangsu Province,China.Ecological Modelling,213(3-4):356-364.DOI: 10.1016/j.ecolmodel.2007.12.016
[8]	Chen Yuanquan,Gao Wangsheng,2007.Green accounting for agriculture production based on the value of agroecosystem services:a case study of Ansai County.Acta Ecologica Sinica,27(1):250-259.(in Chinese)
[9]	Christensen T R,Jonasson S,Callaghan T Vet al.,1999.On the potential CO2 release from tundra soils in a changing climate.Applied Soil Ecology,11(2-3):127-134.DOI: 10.1016/S09291393(98)00146-2
[10]	Costanza R,d'Arge R,de Groot R et al.,1997.The value of the world's ecosystem services and natural capital.Nature,387:253-260.
[11]	Cui Lijuan,2004.Evaluation on functions of Poyang Lake ecosystem.Chinese Journal of Ecology,23(4):47-51.(in Chinese)
[12]	Ehrenfeld J G,2000.Evaluating wetlands within an urban context.Ecological Engineering,15(3-4):253-265.DOI: 0.1016/S09258574(00)00080-X
[13]	Garm T G T,Childers D L,Rondeau D N et al.,2005.Ecosystem structure,nutrient dynamics,and hydrologic relationships in tree islands of the southern everglades,Florida,USA.Forest Ecology and Management,214(1-3):11-27.DOI: 10.1016/j.foreco.2005.03.065
[14]	Ghosh S,Deepanjan M,Jain M C,2003.Methane and nitrous oxide emissions from an irrigated rice of North India.Chemosphere,51(3):181-195.DOI:10.1016/S0045-6535(02) 00822-6
[15]	Hao Qingju,Wang Yuesi,Song Changchun et al.,2007.Effects of marsh reclamation on methane and nitrous oxide emissions.Acta Ecologica Snica,27(8):3417-3426.(in Chinese)
[16]	Hou Yuanzhao,Zhang Peichang,Wang Qi et al.,1995.Accounting of Forest Resources of China.Beijing:China Forestry Publishing House.(in Chinese)
[17]	Houghton J T,Meria F L G,Callander B A et al.,1996.Climate Change 1995:The Science of Climate Change.Cambridge:Cambridge University Press.
[18]	Ji Yuhe,2004.The change characteristics of species diversity of typical wetland plant community in Sanjiang Plain.Changchun:Northeast Institute of Geography and Agroecology,Chinese Academy of Sciences.(in Chinese)
[19]	Kang Guoding,Cai Zucong,Zhang Ziheng et al.,2004.Estimate of methane emissions from rice fields in China by climate-based net primary productivity.Chinese Geographical Science,14(4):326-331.DOI: 10.1067/s11769-004-0036-9
[20]	Khalil M A K,Rasmussen R A,Wang M X et al.,1990.Emissions of trace gases from Chinese rice fields and biogas generators:CH4,N2O,CO,CO2,chlorocarbons,and hydrocarbons.Chemosphere,20(1-2):207-226.DOI: 10.1016/0045-6535(90)90097-D
[21]	Lal R,2000.Soil carbon sequestration to mitigate climate change.Geoderma,123(1-2):1-22.DOI: 10.1016/j.geoderma.2004.01.032
[22]	Liou Reymay,Huang Shanney,Lin Chinwei,2003.Methane emission from fields with differences in nitrogen fertilizers and rice varieties in Taiwan paddy soils.Chemosphere,50(2):237-246.DOI: 10.1016/S0005-6535(02)00158-3
[23]	Liu Jingshuang,2005.Wetland biogeochemistry research.Wetland Science,3(4):302-309.(in Chinese)
[24]	Liu Jingshnang,Yang Jisong,Yu Junbao et al.,2003.Study on vertical distribution of soil organic carbon in wetlands of Sanjiang Plain.Journal of Soil and Water Conservation,17(3):5-8.(in Chinese)
[25]	Liu Xiaohui,Lu Xianguo,2008.Assessment of service value of wetland ecosystem carbon sequestration in the Sanjiang Plain excluded Muling-Xingkai Plain on south of Wands Mountain.Wetland Science,6(2):212-217.(in Chinese).
[26]	Lloyd C R,2006.Annual carbon balance of a managed wetland meadow in the Somerset levels,UK.Agricultural and Forest Meteorology,138(1-4):168-179.DOI: 10.1016/j.agrformet.2006.04.005
[27]	Ma Xuehui,Lu Xianguo,Yang Qing et al.,1996.Carbon cycle of a marsh in Sanjiang Plain.Scientia Geographica Sinica,16(4):323-330.(in Chinese)
[28]	Mander L,Lohmus K,Teiter S et al.,2008.Gaseous fluxes in the nitrogen and carbon budgets of subsurface flow constructed wetlands.Science of the Total Environment,404(2-3):343-353.DOI: 10.1016/j.scitotenv.2008.03.014
[29]	Neufeldt H,Schafer M,2008.Mitigation strategies for greenhouse gas emissions from agriculture using a regional economic-ecosystem model.Agriculture,Ecosystems and Environment,123(4):305-316.DOI: 10.1016/j.agee.2007.07.008
[30]	Oechel W C,Vourlitis G L,Hastings S J et al.,2000.Acclimation of ecosystem CO2 exchange in the Alaskan Arctic in response to decadai climate warming.Nature,406:978-981.
[31]	Pan Genxing,Li Lianqing,Wu Laosheng et al.,2000.Storage and sequestration potential of topsoil organic carbon in China's paddy soils.Global Change Biology,10(1):79-92.DOI: 10.1111/j.1365-2486.2003.00717.x
[32]	Parks P J,Hardie I W,1995.Least-cost forest carbon reserves:Cost-effective subsidies to convert marginal agricultural land to forests.Land Economics,71 (1):122-136.
[33]	Sandhu H S,Wratten S D,CuUen R et al.,2008.The future of farming:The value of ecosystem services in conventional and organic arable land.An experimental approach.Ecological Economics,64(4):835-848.DOI: 10.1016/j.ecolecon.2007.05.007
[34]	Schulp C J E,Nabuurs G J,Verburg P H et al.,2008.Future car bon sequestration in Europe-Effects of land use change.Agriculture,Ecosystems and Environment,127(3-4):251-264.DOI: 10.1016/j.agee.2008.00.010
[35]	Silvius M J,Oneka M,Verhagen A et al.,2000.Wetlands:lifeline for people at the edge.Physics and Chemistry of the Earth,25(7-8):645-652.DOI: 10.1016/S1464-1909(00)00079-4
[36]	Song Changchun,Yan Baixing,Wang Yuesi et al.,2003.CO2 and CH4 fluxes for marsh and influencing factors in Sanjiang Plain.Chinese Science Bulletin,48(23):2473-2477.(in Chinese)
[37]	Song Changchun,Zhang Lihua,Wang Yiyong et al.,2006.Annual dynamics of CO2,CH4,N2O emissions from freshwater marshes and affected by nitrogen fertilization.Chinese Journal of Environmental Science,27(12):2369-2375.(in Chinese)
[38]	Teiter S,Mander U,2005.Emission of N2O,N2,CH4,and CO2 from constructed wetlands for wastewater treatment and from riparian buffer zones.Ecological Engineering,25(5):528-541.DOI: 10.1016/j.ecoleng.2005.07.011
[39]	Verma A,Subramanian V,Ramesh R et al.,2002.Methane emissions from a coastal lagoon:Vembanad lake,west coast,India.Chemosphere,47(8):883-889.DOI:10.1016/S0005-6535(01) 00288-0
[40]	Waiters D,Shrubsole D,2003.Agricultural drainage and wetland management in Ontario.Journal of Environmental Management,69(4):369-379.DOI: 10.1016/j.jenvman.2003.09.013
[41]	Wang Dexnan,Lu Xianguo,Ding Weixin et al.,2002.Comparison of methane emission from marsh and paddy field in Sanjiang Plain.Scientia Geographica Sinica,22(4):500-503.(in Chinese)
[42]	Wang Shiyan,Yang Yongxing,Yang Bo,2003.Study on temperature of typical types of wetland soils and its influencing factors in the Sanjiang Plain.Geographical Research,22(3):389-396.(in Chinese)
[43]	Wang Yiyong,Zheng Xunhua,Song Changchun et al.,2006.N2O flux in typical wetlands of Sanjiang Plain.Chinese Journal of Applied Ecology,17(3):493-497.(in Chinese)
[44]	Xie Gaodi,Lu Chunxia,Leng Yunfa et al.,2003.Ecological assets valuation of the Tibetan Plateau.Journal of Natural Resources,18(2):189-195.(in Chinese)
[45]	Xu Deying,1995.The potential for reducing atmospheric carbon by large-scale afforestation in China and related cost/benefit analysis.Biomass and Bioenergy,8(5):337-344.DOI: 10.1016/0961-9534(95)00026-7
[46]	Zhang Xiaoyun,2008.Researching on Ruoergai Plateau marshes ecosystem service evaluation.Changchun:Northeast Institute of Geography and Agroeeology,Chinese Academy of Sciences.(in Chinese)
[47]	Zhao Bin,Li Bo,Zhoug Yang et al.,2005.Estimation of ecological service values of wetlands in Shanghai,China.Chinese GeographicalScience,15(2):151-156.DOI: 10.1007/s11769005-0008-8
[48]	Zhao Bin,Kreuter U,Li Bo et al.,2004.An ecosystem service value assessment of land-use change on Chongrning Island,China.Land Use Policy,21(2):139-148.DOI: 10.1016/j.landnscpol.2003.10.003
[49]	Zhao Kuiyi,1999.Marsh of China.Beijing:Science Press.(in Chinese

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China

1. Key Laboratory of Wetland Ecology and Environment, Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130012, China;

2. Graduate University of the Chinese Academy of Sciences, Beijing 100049, China;

3. Hella Automotive Lighting Limited Company, Changchun 130033, China

Received Date: 2008-08-22

Rev Recd Date: 2008-11-10

Publish Date: 2009-03-20

Key words:

Abstract: The objective of this study is to quantify the values of greenhouse gases(GHGs) exchange in carbon equivalents of marshes and paddy fields in the Sanjiang Plain,Heilongjiang Province,China. We obtained the GHGs exchange values based on comparable price by calculating the carbon sequestration values and the GHGs emission values of marshes and paddy fields respectively in four periods of 1982,1995,2000 and 2005. It is noted that the GHGs emission values are always negative. In this study,the marshes areas decreased from 1438977.0 to 775,132.2ha and the paddy fields areas increased from 417195.8 to 934205.0ha. The values of GHGs exchange of marshes varied from 135877.156×10⁶ to 136882.534×10⁶ yuan(RMB) and those of paddy fields varied from 1006.256×10⁶ to 2767.645×10⁶ yuan. The GHGs exchange values of marshes decreased from 1982 to 2005 on the whole,reversely,those of paddy fields increased,but those in 2005 were lower than those in 2000. In different periods,the GHGs exchange values were always higher in marshes than in paddy fields. The contribution rate of GHGs exchange values per unit area of marshes was also very high in different periods,and the maximum was up to 98.35% in 2005. As far as the whole wetland ecosystem(including marshes and paddy fields),assuming a linear change in GHGs exchange values,it represented a cumulative increase of 20926.757×10⁶ yuan from 1982 to 2005. By adding GHGs exchange values increased during those four periods,we obtained a cumulative net increase values of GHGs exchange of wetland ecosystem of 18200.860×10⁶ yuan. The results will be useful for understanding the indirect services provided by marshes and paddy fields.

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Reference (49)

[1]	Allard V,Soussana J F,Falcimagne R et al.,2007.The role of grazing management for the net biome productivity and greenhouse gas budget (CO2,N2O and CH4) of semi-natural grassland.Agriculture,Ecosystems and Environment,121(1-2):47-58.DOI:10.1016/j.agee.2006.12.004
[2]	Ando A W,Getzner M,2006.The roles of ownership,ecology,and economics in public wetland-conservation decisions.Ecological Economics,58(2):287-303.DOI:10.1016/j.ecolecon.2005.07.013
[3]	Báez-Cazull S,Meguire J T,Cozzarelli I M et al.,2007.Centimeter-scale characterization of biogeochemicai gradients at a wetland-aquifer interface using capillary electrophoresis.Applied Geochemistry,22(12):2664-2683.DOI:10.1016/j.apgeochem.2007.06.003
[4]	Bonneville M C,Strachan I B,Humphrey E R et al.,2008.Net ecosystem CO2 exchange in a temperate cattail marsh in relation to biophysical properties.Agricultural and Forest Meteorology,148(1):69-81.DOI:10.1016/j.agrformet.2007.09.004
[5]	Brix H,Sorrell B K,Lorenzen B,2001.Are phragmites dominated wetlands a net source or net sink of greenhouse gases? Aquatic Botany,69(2-4):313-324,DOI:10.1016/S0304-3770 (01)00145-0
[6]	Chen Guanxiong,Huang Guohong,Huang Bin et al.,1995.CH4 and N2O emission from a rice field and effect of Azolla and fertilization on them.Chinese Journal of Applied Ecology,6(4):378-382.(in Chinese)
[7]	Chen Lingling,Lin Zhenshan,2008.The effect of habitat destruction on metapopulations with the Allee-like effect:a study case of Yancheng in Jiangsu Province,China.Ecological Modelling,213(3-4):356-364.DOI:10.1016/j.ecolmodel.2007.12.016
[8]	Chen Yuanquan,Gao Wangsheng,2007.Green accounting for agriculture production based on the value of agroecosystem services:a case study of Ansai County.Acta Ecologica Sinica,27(1):250-259.(in Chinese)
[9]	Christensen T R,Jonasson S,Callaghan T Vet al.,1999.On the potential CO2 release from tundra soils in a changing climate.Applied Soil Ecology,11(2-3):127-134.DOI:10.1016/S09291393(98)00146-2
[10]	Costanza R,d'Arge R,de Groot R et al.,1997.The value of the world's ecosystem services and natural capital.Nature,387:253-260.
[11]	Cui Lijuan,2004.Evaluation on functions of Poyang Lake ecosystem.Chinese Journal of Ecology,23(4):47-51.(in Chinese)
[12]	Ehrenfeld J G,2000.Evaluating wetlands within an urban context.Ecological Engineering,15(3-4):253-265.DOI:0.1016/S09258574(00)00080-X
[13]	Garm T G T,Childers D L,Rondeau D N et al.,2005.Ecosystem structure,nutrient dynamics,and hydrologic relationships in tree islands of the southern everglades,Florida,USA.Forest Ecology and Management,214(1-3):11-27.DOI:10.1016/j.foreco.2005.03.065
[14]	Ghosh S,Deepanjan M,Jain M C,2003.Methane and nitrous oxide emissions from an irrigated rice of North India.Chemosphere,51(3):181-195.DOI:10.1016/S0045-6535(02) 00822-6
[15]	Hao Qingju,Wang Yuesi,Song Changchun et al.,2007.Effects of marsh reclamation on methane and nitrous oxide emissions.Acta Ecologica Snica,27(8):3417-3426.(in Chinese)
[16]	Hou Yuanzhao,Zhang Peichang,Wang Qi et al.,1995.Accounting of Forest Resources of China.Beijing:China Forestry Publishing House.(in Chinese)
[17]	Houghton J T,Meria F L G,Callander B A et al.,1996.Climate Change 1995:The Science of Climate Change.Cambridge:Cambridge University Press.
[18]	Ji Yuhe,2004.The change characteristics of species diversity of typical wetland plant community in Sanjiang Plain.Changchun:Northeast Institute of Geography and Agroecology,Chinese Academy of Sciences.(in Chinese)
[19]	Kang Guoding,Cai Zucong,Zhang Ziheng et al.,2004.Estimate of methane emissions from rice fields in China by climate-based net primary productivity.Chinese Geographical Science,14(4):326-331.DOI:10.1067/s11769-004-0036-9
[20]	Khalil M A K,Rasmussen R A,Wang M X et al.,1990.Emissions of trace gases from Chinese rice fields and biogas generators:CH4,N2O,CO,CO2,chlorocarbons,and hydrocarbons.Chemosphere,20(1-2):207-226.DOI:10.1016/0045-6535(90)90097-D
[21]	Lal R,2000.Soil carbon sequestration to mitigate climate change.Geoderma,123(1-2):1-22.DOI:10.1016/j.geoderma.2004.01.032
[22]	Liou Reymay,Huang Shanney,Lin Chinwei,2003.Methane emission from fields with differences in nitrogen fertilizers and rice varieties in Taiwan paddy soils.Chemosphere,50(2):237-246.DOI:10.1016/S0005-6535(02)00158-3
[23]	Liu Jingshuang,2005.Wetland biogeochemistry research.Wetland Science,3(4):302-309.(in Chinese)
[24]	Liu Jingshnang,Yang Jisong,Yu Junbao et al.,2003.Study on vertical distribution of soil organic carbon in wetlands of Sanjiang Plain.Journal of Soil and Water Conservation,17(3):5-8.(in Chinese)
[25]	Liu Xiaohui,Lu Xianguo,2008.Assessment of service value of wetland ecosystem carbon sequestration in the Sanjiang Plain excluded Muling-Xingkai Plain on south of Wands Mountain.Wetland Science,6(2):212-217.(in Chinese).
[26]	Lloyd C R,2006.Annual carbon balance of a managed wetland meadow in the Somerset levels,UK.Agricultural and Forest Meteorology,138(1-4):168-179.DOI:10.1016/j.agrformet.2006.04.005
[27]	Ma Xuehui,Lu Xianguo,Yang Qing et al.,1996.Carbon cycle of a marsh in Sanjiang Plain.Scientia Geographica Sinica,16(4):323-330.(in Chinese)
[28]	Mander L,Lohmus K,Teiter S et al.,2008.Gaseous fluxes in the nitrogen and carbon budgets of subsurface flow constructed wetlands.Science of the Total Environment,404(2-3):343-353.DOI:10.1016/j.scitotenv.2008.03.014
[29]	Neufeldt H,Schafer M,2008.Mitigation strategies for greenhouse gas emissions from agriculture using a regional economic-ecosystem model.Agriculture,Ecosystems and Environment,123(4):305-316.DOI:10.1016/j.agee.2007.07.008
[30]	Oechel W C,Vourlitis G L,Hastings S J et al.,2000.Acclimation of ecosystem CO2 exchange in the Alaskan Arctic in response to decadai climate warming.Nature,406:978-981.
[31]	Pan Genxing,Li Lianqing,Wu Laosheng et al.,2000.Storage and sequestration potential of topsoil organic carbon in China's paddy soils.Global Change Biology,10(1):79-92.DOI:10.1111/j.1365-2486.2003.00717.x
[32]	Parks P J,Hardie I W,1995.Least-cost forest carbon reserves:Cost-effective subsidies to convert marginal agricultural land to forests.Land Economics,71 (1):122-136.
[33]	Sandhu H S,Wratten S D,CuUen R et al.,2008.The future of farming:The value of ecosystem services in conventional and organic arable land.An experimental approach.Ecological Economics,64(4):835-848.DOI:10.1016/j.ecolecon.2007.05.007
[34]	Schulp C J E,Nabuurs G J,Verburg P H et al.,2008.Future car bon sequestration in Europe-Effects of land use change.Agriculture,Ecosystems and Environment,127(3-4):251-264.DOI:10.1016/j.agee.2008.00.010
[35]	Silvius M J,Oneka M,Verhagen A et al.,2000.Wetlands:lifeline for people at the edge.Physics and Chemistry of the Earth,25(7-8):645-652.DOI:10.1016/S1464-1909(00)00079-4
[36]	Song Changchun,Yan Baixing,Wang Yuesi et al.,2003.CO2 and CH4 fluxes for marsh and influencing factors in Sanjiang Plain.Chinese Science Bulletin,48(23):2473-2477.(in Chinese)
[37]	Song Changchun,Zhang Lihua,Wang Yiyong et al.,2006.Annual dynamics of CO2,CH4,N2O emissions from freshwater marshes and affected by nitrogen fertilization.Chinese Journal of Environmental Science,27(12):2369-2375.(in Chinese)
[38]	Teiter S,Mander U,2005.Emission of N2O,N2,CH4,and CO2 from constructed wetlands for wastewater treatment and from riparian buffer zones.Ecological Engineering,25(5):528-541.DOI:10.1016/j.ecoleng.2005.07.011
[39]	Verma A,Subramanian V,Ramesh R et al.,2002.Methane emissions from a coastal lagoon:Vembanad lake,west coast,India.Chemosphere,47(8):883-889.DOI:10.1016/S0005-6535(01) 00288-0
[40]	Waiters D,Shrubsole D,2003.Agricultural drainage and wetland management in Ontario.Journal of Environmental Management,69(4):369-379.DOI:10.1016/j.jenvman.2003.09.013
[41]	Wang Dexnan,Lu Xianguo,Ding Weixin et al.,2002.Comparison of methane emission from marsh and paddy field in Sanjiang Plain.Scientia Geographica Sinica,22(4):500-503.(in Chinese)
[42]	Wang Shiyan,Yang Yongxing,Yang Bo,2003.Study on temperature of typical types of wetland soils and its influencing factors in the Sanjiang Plain.Geographical Research,22(3):389-396.(in Chinese)
[43]	Wang Yiyong,Zheng Xunhua,Song Changchun et al.,2006.N2O flux in typical wetlands of Sanjiang Plain.Chinese Journal of Applied Ecology,17(3):493-497.(in Chinese)
[44]	Xie Gaodi,Lu Chunxia,Leng Yunfa et al.,2003.Ecological assets valuation of the Tibetan Plateau.Journal of Natural Resources,18(2):189-195.(in Chinese)
[45]	Xu Deying,1995.The potential for reducing atmospheric carbon by large-scale afforestation in China and related cost/benefit analysis.Biomass and Bioenergy,8(5):337-344.DOI:10.1016/0961-9534(95)00026-7
[46]	Zhang Xiaoyun,2008.Researching on Ruoergai Plateau marshes ecosystem service evaluation.Changchun:Northeast Institute of Geography and Agroeeology,Chinese Academy of Sciences.(in Chinese)
[47]	Zhao Bin,Li Bo,Zhoug Yang et al.,2005.Estimation of ecological service values of wetlands in Shanghai,China.Chinese GeographicalScience,15(2):151-156.DOI:10.1007/s11769005-0008-8
[48]	Zhao Bin,Kreuter U,Li Bo et al.,2004.An ecosystem service value assessment of land-use change on Chongrning Island,China.Land Use Policy,21(2):139-148.DOI:10.1016/j.landnscpol.2003.10.003
[49]	Zhao Kuiyi,1999.Marsh of China.Beijing:Science Press.(in Chinese

Value Estimation of Greenhouse Gases Exchange in Wetland Ecosystem of Sanjiang Plain, China

doi: 10.1007/s11769-009-0055-7

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