Ciais P C, Sabine G, Bala L, et al . Carbon and other biogeochemical cycle [M]// Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 2013.
[2]
张银龙. 湿地甲烷排放研究进展 [J]. 环境科学进展, 1998, 6(1): 38-47. [ZHANG Yin-long. Advances in studies of methane emission from wetland. Advances in Environmental Science , 1998, 6(1): 38-47. ]
[3]
IPCC. Climate Change 2007: The physical Science Basis [M]. Contribution of Working Group 1 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press: Cambridge, 2007.
[4]
Wang W C, Yung Y L, Lacis A A, et al . Greenhouse effects due to man-made perturbations of trace gases [J]. Science , 1976, 194(4266): 685-690.
[5]
Whiting G J, Chanton J P. Greenhouse carbon balance of wetlands: methane emission versus carbon sequestration [J]. Tellus B , 2001, 53(5): 521-528.
[6]
曹磊, 宋金明, 李学刚, 等. 中国滨海盐沼湿地碳收支与碳循环过程研究进展 [J]. 生态学报, 2013, 33(17): 5141-5152. [CAO Lei, SONG Jin-ming, LI Xue-gang, et al . Research progresses in carbon budget and carbon cycle of the coastal salt marshes in China. Acta Ecologica Sinica , 2013, 33(17): 5141-5152. ]
[7]
Bartlett K B, Harriss R C, Sebacher D I. Methane flux from coastal salt marshes [J]. Journal of Geophysical Research : Atmospheres (1984-2012), 1985, 90(D3): 5710-5720.
[8]
Purvaja R, Ramesh R. Natural and anthropogenic methane emission from coastal wetlands of South India [J]. Environmental Management , 2001, 27(4): 547-557.
[9]
黄国宏, 李玉祥, 陈冠雄, 等. 环境因素对芦苇湿地CH 4 排放的影响 [J]. 环境科学, 2001, 22 (1): 1-5. [HUANG Guo-hong, LI Yu-xiang, CHEN Guan-xiong, et al . Influence of environmental factors on CH 4 emission from reed wetland. Environmental Science , 2001, 22 (1): 1-5. ]
[10]
Hirota M, Senga Y, Seike Y, et al . Fluxes of carbon dioxide, methane and nitrous oxide in two contrastive fringing zones of coastal lagoon, Lake Nakaumi, Japan [J]. Chemosphere , 2007, 68(3): 597-603.
[11]
栾军伟, 崔丽娟, 宋洪涛, 等. 国外湿地生态系统碳循环研究进展 [J]. 湿地科学, 2012, 10(2): 235-242. [LUAN Jun-wei, CUI Li-juan, SONG Hong-tao, et al . Foreign research progress on carbon cycle in wetland ecosystems. Wetland Science , 2012, 10(2): 235-242. ]
[12]
Sun Z, Wang L, Tian H, et al . Fluxes of nitrous oxide and methane in different coastal Suaeda salsa marshes of the Yellow River estuary, China [J]. Chemosphere , 2013, 90(2): 856-865.
[13]
Whalen S C. Biogeochemistry of methane exchange between natural wetlands and the atmosphere [J]. Environmental Engineering Science , 2005, 22(1): 73-94.
[14]
黄国宏, 肖笃宁, 李玉祥, 等. 芦苇湿地温室气体甲烷(CH 4 )排放研究 [J]. 生态学报, 2001, 21(9): 1494-1497. [HUANG Guo-hong, XIAO Du-ning, LI Yu-xiang, et al . CH 4 emissions from the reed wetland. Acta Ecologica Sinica , 2001, 21(9): 1494-1497. ]
[15]
Tong C, Wang W Q, Zeng C S, et al . Methane (CH 4 ) emission from a tidal marsh in the Min River estuary, Southeast China [J]. Journal of Environmental Science and Health Part A , 2010, 45(4): 506-516.
[16]
王维奇, 曾从盛, 仝川, 等. 芦苇湿地甲烷排放机理及排放通量研究进展 [J]. 农业系统科学与综合研究, 2008, 24(1): 20-25. [WANG Wei-qi, ZENG Cong-sheng, TONG Chuan, et al . Reviews on the mechanism of methane emission and methane flux in reed ( Phragmites australis ) marsh. System Sciences and Comprehensive Studies in Agriculture , 2008, 24(1): 20-25. ]
[17]
姚守平, 罗鹏, 王艳芬, 等. 湿地甲烷排放研究进展 [J]. 世界科技研究与发展, 2007, 29(2): 58-63. [YAO Shou-ping, LUO Peng, WANG Yan-fen, et al . Advances in the research on methane emissions from wetlands. World Sci-tech R & D , 2007, 29(2): 58-63. ]
[18]
Smith K A, Ball T, Conen F, et al . Exchange of greenhouse gases between soil and atmosphere: Interactions of soil physical factors and biological processes [J]. European Journal of Soil Science , 2003, 54(4): 779-791.
[19]
胡泓, 王东启, 李扬杰, 等. 崇明东滩芦苇湿地温室气体排放通量及影响因素 [J]. 环境科学研究, 2014, 27(1): 43-50. [HU Hong, WANG Dong-qi, LI Yang-jie, et al . Greenhouse gases fluxes at Chongming Dongtan Phragmites australis wetland and influencing factors. Research of Environmental Sciences , 2014, 27(1): 43-50. ]
[20]
Kim J N, Verma S B, Billesbach D P. Seasonal variation in methane emission from a temperate Phragmites -dominated marsh: Effect of growth stage and plant-mediated transport [J]. Global Change Biology , 1999, 5(4): 433-440.
[21]
黄佳芳, 仝川, 刘泽雄, 等. 沼泽湿地互花米草植物体传输与排放甲烷特征 [J]. 植物学报, 2011, 46(5): 534-543. [HUANG Jia-fang, TONG Chuan, LIU Ze-xiong, et al . Planted-mediated methane transport and emission from Spartina alterniflora marsh. Chinese Bulletin of Botany , 2011, 46(5): 534-543. ]
[22]
李扬杰, 陈振楼, 王东启, 等. 长江口盐沼带湿地生态演替过程中甲烷排放研究 [J]. 环境科学学报, 2014, 34(8): 2035-2042. [LI Yang-jie, CHEN Zhen-lou, WANG Dong-qi, et al . The study of methane emission in the process of wetland vegetation succession in Yangtze estuary salt marsh. Acta Scientiae Circumstantiate , 2014, 34(8): 2035-2042. ]
[23]
仝川, 曾丛盛, 王维奇, 等. 闽江河口芦苇潮汐湿地甲烷通量及主要影响因子 [J]. 环境科学学报, 2009, 29(1): 207-216. [TONG Chuan, ZENG Cong-sheng, WANG Wei-qi, et al . Main factors influencing CH 4 flux from a Phragmites australis wetland in the Min River estuary. Acta Scientiae Circumstantiae , 2009, 29(1): 207-216. ]
[24]
姜欢欢, 孙志高, 王玲玲, 等. 秋季黄河口滨岸潮滩湿地系统CH 4 通量特征及影响因素研究 [J]. 环境科学, 2012, 33(2): 565-573. [JIANG Huan-huan, SUN Zhi-gao, WANG Ling-ling, et al . Methane fluxes and controlling factors in the intertidal zone of the Yellow River estuary in autumn. Environmental Science , 2012, 33(2): 565-573. ]
[25]
孙万龙, 孙志高, 孙文广, 等. 黄河口潮滩湿地土壤CH 4 氧化潜力及其对有机物输入的响应 [J]. 草业学报, 2014, 23(1): 104-112. [SUN Wan-long, SUN Zhi-gao, SUN Wen-guang, et al . The methane oxidation potential of soils in tidal marshes of the Yellow River Estuary and its responses to import of organic matter. Acta Prataculturae Sinica , 2014, 23(1): 104-112. ]
[26]
王慧, 赵化德, 张世宇, 等. 碱蓬湿地CH 4 排放通量及影响因素研究 [J]. 海洋环境科学, 2012, 31(2): 173-175. [WANG Hui, ZHAO Hua-de, ZHANG Shi-yu, et al . Research on methane fluxes and effect factors in the wetland of Sunada glauca . Marine Environmental Science , 2012, 31 (2): 173-175. ]
[27]
Sun Z, Jiang H, Wang L, et al . Seasonal and spatial variations of methane emissions from coastal marshes in the northern Yellow River estuary, China [J]. Plant and Soil , 2013, 369(1/2): 317-333.
[28]
王玲玲, 孙志高, 牟晓杰, 等. 黄河口滨岸潮滩湿地CO 2 、CH 4 和N 2 O通量特征初步研究 [J]. 草业学报, 2011, 20 (3): 51-61. [WANG Ling-ling, SUN Zhi-gao, MOU Xiao-jie, et al . A preliminary study on carbon dioxide, methane and nitrous oxide fluxes from intertidal flat wetlands of the Yellow River estuary. Acta Prataculturae Sinica , 2011, 20 (3): 51-61. ]
[29]
项剑, 刘德燕, 袁俊吉, 等. 互花米草入侵对沿海湿地甲烷排放的影响 [J]. 生态学杂志, 2012, 31(6): 1361-1366. [XIANG Jian, LIU De-yan, YUAN Jun-ji, et al . Effects of Spartina alterniflora invasion on methane emission from coastal brackish marsh. Chinese Journal of Ecology , 2012, 31(6): 1361-1366. ]
[30]
Xu X W H, Zou X Q, Cao L G, et al . Seasonal and spatial dynamics of greenhouse gas emissions under various vegetation covers in a coastal saline wetland in southeast China [J]. Ecological Engineering , 2014, 73: 469-477.
[31]
汪青, 刘敏, 侯立军, 等. 崇明东滩湿地CO 2 、CH 4 和N 2 O排放的时空差异 [J]. 地理研究, 2010, 29 (5): 935-946. [WANG Qing, LIU Min, HOU Li-jun, et al . Characteristics and influencing factors of CO 2 , CH 4 and N 2 O emissions from Chongming eastern tidal flat wetland. Geographical Research , 2010, 29 (5): 935-946. ]
[32]
Cheng X, Luo Y, Xu Q, et al . Seasonal variation in CH 4 emission and its 13 C-isotopic signature from Spartina alterniflora and Scirpus mariqueter soils in an estuarine wetland [J]. Plant and Soil , 2010, 327(1/2): 85-94.
[33]
杨红霞, 王东启, 陈振楼, 等. 长江口潮滩湿地-大气界面碳通量特征 [J]. 环境科学学报, 2006, 26(4): 667-673. [YANG Hong-xia, WANG Dong-qi, CHEN Zhen-lou, et al . Characteristics of carbon fluxes through intertidal flat wetland-atmosphere interface of Yangtze estuary. Acta Scientiae Circumstantiae , 2006, 26(4): 667-673. ]
王东启, 陈振楼, 王军, 等. 夏季长江口潮间带CH 4 、CO 2 和N 2 O通量特征 [J]. 地球化学, 2007, 36(1): 78-88. [WANG Dong-qi, CHEN Zhen-lou, WANG Jun, et al . Fluxes of CH 4 , CO 2 and N 2 O from Yangtze estuary intertidal flat in summer season. Geochimica , 2007, 36(1): 78-88. ]
[36]
叶勇, 卢昌义, 林鹏, 等. 河口红树林湿地CH 4 通量的日变化研究 [J]. 海洋学报, 2000, 22(3): 103-109. [YE Yong, LU Chang-yi, LIN Peng, et al . Diurnal variation of CH 4 fluxes from estuarine mangrove wetlands. Acta Oceanologica Sinica , 2000, 22(3): 103-109. ]
[37]
Chen G C, Tam N F Y, Ye Y. Summer fluxes of atmospheric greenhouse gases N 2 O, CH 4 and CO 2 from mangrove soil in South China [J]. Science of the Total Environment , 2010, 408(13): 2761-2767
[38]
王迎红. 陆地生态系统温室气体排放观测方法研究、应用及结果比对分析 [D]. 北京: 中国科学院研究生院, 2005. [WANG Ying-hong. Chamber Method Measurement of Greenhouse Gas emissions from Typical Terrestrial Ecosystems of China: Method research, Application and Results Discussion. Beijing: Graduate School of Chinese Academy of Sciences, 2005. ]
[39]
仝川, 王维奇, 雷波, 等. 闽江河口潮汐湿地甲烷排放通量温度敏感性特征 [J]. 湿地科学, 2010, 8(3): 240-248. [TONG Chuan, WANG Wei-qi, LEI Bo, et al . Characteristics of temperature sensitivity of methane flux from the Shanyutan tidal wetlands in Min River estuary. Wetland Science , 2010, 8(3): 240-248. ]
[40]
曾从盛, 雷波, 王维奇, 等. 闽江河口藨草湿地CH 4 排放特征 [J]. 湿地科学, 2009, 7(2): 142-147. [ZENG Cong-sheng, LEI Bo, WANG Wei-qi, et al . Methane emission from Scirpu striqueter wetland in the Min River estuary. Wetland Science , 2009, 7(2): 142-147. ]
[41]
Brix H, Sorrell B K, Lorenzen B. Are Phragmites -dominated wetlands a net source or net sink of greenhouse gases [J]? Aquatic Botany , 2001, 69(2): 313-324.
[42]
Ding W X, Cai Z C. Methane emission from natural wetlands in China: Summary of years 1995-2004 studies [J]. Pedosphere , 2007, 17(4): 475-486.
[43]
宋长春, 张丽华, 王毅勇, 等. 淡水沼泽湿地CO 2 、CH 4 和N 2 O 排放通量年际变化及其对氮输入的响应 [J]. 环境科学, 2006, 27(12): 2369-2375. [SONG Chang-chun, ZHANG Li-hua, WANG Yi-yong, et al . Annual dynamics of CO 2 , CH 4 , N 2 O emissions from freshwater marshes and affected by nitrogen fertilization. Environmental Science , 2006, 27(12): 2369-2375. ]
[44]
张丽华, 宋长春, 王德宣. 沼泽湿地CO 2 、CH 4 、N 2 O排放对氮输入的响应 [J]. 环境科学学报, 2005, 25(8): 1112-1118. [ZHANG Li-hua, SONG Chang-chun, WANG De-xuan. CO 2 , CH 4 and N 2 O emissions to the atmosphere upon nitrogen addition in the swamp wetland. Acta Scientiae Circumstantiae , 2005, 25(8): 1112-1118. ]
[45]
Olson D M, Griffis T J, Noormets A, et al . Interannual, seasonal, and retrospective analysis of the methane and carbon dioxide budgets of a temperate peatland [J]. Journal of Geophysical Research : Biogeosciences , 2013, 118(1): 226-238.
[46]
Chen H, Wu N, Wang Y, et al . Inter-annual variations of methane emission from an open fen on the Qinghai-Tibetan Plateau: A three-year study [J]. PloSone , 2013, 8(1): e53878.
[47]
Bartlett K B, Bartlett D S, Harriss R C, et al . Methane emissions along a salt marsh salinity gradient [J]. Biogeochemistry , 1987, 4(3): 183-202.
[48]
Emery H E, Fulweiler R W. Spartina alterniflora and invasive Phragmites australis stands have similar greenhouse gas emissions in a New England marsh [J]. Aquatic Botany , 2014, 116: 83-92.
[49]
Poffenbarger H J, Needelman B A, Megonigal J P. Salinity influence on methane emissions from tidal marshes [J]. Wetlands , 2011, 31(5): 831-842.
[50]
郝庆菊, 王跃思, 宋长春, 等. 三江平原湿地CH 4 排放通量研究 [J]. 水土保持学报, 2004, 18(3): 194-199. [HAO Qing-ju, WANG Yue-si, SONG Chang-chun, et a l. Study of CH 4 emission from wetlands in Sanjiang Plain. Journal of Soil and Water Conservation , 2004, 18(3): 194-199. ]
[51]
Allen D E, Dalal R C, Rennenberg H, et al . Spatial and temporal variation of nitrous oxide and methane flux between subtropical mangrove sediments and the atmosphere [J]. Soil Biology and Biochemistry , 2007, 39(2): 622-631.
[52]
Heyer J, Berger U. Methane emission from the coastal area in the southern Baltic Sea [J]. Estuarine, Coastal and Shelf Science , 2000, 51(1): 13-30.
[53]
Cheng X, Peng R, Chen J, et al . CH 4 and N 2 O emissions from Spartina alterniflora and Phragmites australis in experimental mesocosms [J]. Chemosphere , 2007, 68(3): 420-427.
[54]
Ding W, Cai Z, Wang D. Preliminary budget of methane emissions from natural wetlands in China [J]. Atmospheric Environment , 2004, 38(5): 751-759.
[55]
宋长春. 湿地生态系统碳循环研究进展 [J]. 地理科学, 2003, 23(5): 622-628. [SONG Chang-chun. Advance in research on carbon cycling in wetlands. Scientia Geographica Sinica , 2003, 23(5): 622-628. ]
[56]
吕铭志, 盛连喜, 张立. 中国典型湿地生态系统碳汇功能比较 [J]. 湿地科学, 2013, 11(1): 114-120. [Lü Ming-zhi, SHENG Lian-xi, ZHANG Li. A review on carbon fluxes for typical wetlands in different climates of China. Wetland Science , 2013, 11(1): 114-120. ] [57] Moore T R, Roulet N T. Methane flux: water table relations in northern wetlands [J]. Geophysical Research Letters , 1993, 20(7): 587-590
[57]
Singh S N, Kulshreshtha K, Agnihotri S. Seasonal dynamics of methane emission from wetlands [J]. Chemosphere-Global Change Science , 2000, 2(1): 39-46.
[58]
Chang T C, Yang S S. Methane emission from wetlands in Taiwan [J]. Atmospheric Environment , 2003, 37(32): 4551-4558.
[59]
周旺明, 王金达, 刘景双. 自然沼泽湿地生物量与CH 4 、N 2 O排放量关系初步研究 [J]. 中国科学院研究生院学报, 2006, 23(6): 736-743. [ZHOU Wang-ming, WANG Jin-da, LIU Jing-shuang. Study on the relation of plant biomass and CH 4 , N 2 O emission in the wetland of Sanjiang Plain. Journal of the Graduate School of the Chinese Academy of Sciences , 2006, 23(6): 736-743.]
[60]
Inglett K S, Inglett P W, Reddy K R, et al . Temperature sensitivity of greenhouse gas production in wetland soils of different vegetation [J]. Biogeochemistry , 2012, 108(1/3): 77-90
[61]
Hirota M, Tang Y, Hu Q, et al . Methane emissions from different vegetation zones in a Qinghai-Tibetan Plateau wetland [J]. Soil Biology and Biochemistry , 2004, 36(5): 737-748.
[62]
Yuan J, Ding W, Liu D, et al . Methane production potential and methanogenic archaea community dynamics along the Spartina alterniflora invasion chronosequence in a coastal salt marsh [J]. Applied Microbiology and Biotechnology , 2014, 98(4): 1817-1829.
[63]
Tong C, Huang J F, Hu Z Q, et al . Diurnal variations of carbon dioxide, methane, and nitrous oxide vertical fluxes in a subtropical estuarine marsh on neap and spring tide days [J]. Estuaries and Coasts , 2013, 36: 633-642
[64]
Zhang L H, Song L P, Zhang L W, et al . Diurnal dynamics of CH 4 , CO 2 and N 2 O fluxes in the saline-alkaline soils of the Yellow River Delta, China [J]. Plant Biosystems , 2014, doi:10.1080/11263504.2013.870937
[65]
姜欢欢, 孙志高, 王玲玲, 等. 黄河口潮滩湿地土壤甲烷产生潜力及其对有机物和氮输入响应的初步研究 [J]. 湿地科学, 2012, 10(4): 451-458. [JIANG Huan-huan, SUN Zhi-gao, WANG Ling-ling, et al . A preliminary study on methane production of soil in tidal wetlands of the Yellow River Estuary and its responses to organic matter and nitrogen import. Wetland Science , 2012, 10(4): 451-458. ]
[66]
刘霞, 胡海清, 赵希宽, 等. 大兴安岭地区岛状林沼泽CH 4 和N 2 O排放及其影响因子 [J]. 自然资源学报, 2014, 29(9): 1565-1575. [LIU Xia, HU Hai-qing, ZHAO Xi-kuan, et al . Emissions of CH 4 and N 2 O from island forested swamp in Da Hinggan Mountains. Journal of Natural Resources , 2014, 29(9): 1565-1575. ]
