[1] Bai Junhong,Deng Wei,Zhang Yuxia,et al. Spacial distribution characteristics of soil organic matter and nitrogen in the natural floodplain wetland [J]. Environment Science,2002,23(2):77-81.[白军红,邓伟,张玉霞,等.洪泛区天然湿地土壤有机质及氮素空间分布特征[J].环境科学,2002,23(2):77-81.]
[2] William J M,Jarnes G G. Wetlands [M]. New York:Van Nostrand Reinhold Company Inc,1986: 89-l25.
[3] Mo Jianfeng,Tian Kun,Lu Mei,et al. Study on the spatial variability of soil organic matter in Napahai degraded wetland [J]. Journal of Southwest Forestry College,2004,24(3): 25-28.[莫剑锋,田昆,陆梅,等. 纳帕海退化湿地土壤有机质空间变异研究[J]. 西南林学院学报,2004, 24(3): 25-28.]
[4] Philippe A,Nathalie L,Jean L,et al. 13C composition of dissolved organic carbon in upland forested catchments of the Morvan Mountains(France): Influence of coniferous and deciduous vegetation [J]. Journal of Hydrology,2007,225:354-363.
[5] Wang Z P,Han X G,Li L H. Effects of grassland conversion to croplands on soil organic carbon in the temperate Inner Mongolia [J]. Journal of Environmental Management,2008,86(3): 529-534.
[6] Sheldon F,Thoms M C. In-channel geomorphic complexity: The key to the dynamics of organic matter in large dryland rivers [J]. Geomorphology,2006,77: 270-285.
[7] Shibu M E,Leffelaar P A,Keulen H V,et al. Quantitative description of soil organic matter dynamics—A review of approaches with reference to rice-based cropping systems [J]. Geoderma,2006,137: 1-18.
[8] Barrett J E,Virginia R A,Parsons A N,et al. Soil carbon turnover in the McMurdo dry valleys,Antarctica [J]. Soil Biology & Biochemistry,2006,38: 3 065-3 082.
[9] Shuiwang Duan,Thomas S B,Troy P S. Temporal variability in the composition and aboundance of terrestrially-derived dissolved organic matter in the lower Mississippi and Pearl rivers [J]. Marine Chemistry,2007,103: 172-184.
[10] Santin C,Otero X,Fernández S,et al. Variations of organic carbon stock in reclaimed estuarine soils(Villaviciosa estuary,NW Spain)[J]. Science of the Total Environment,2007,378: 138-142.
[11] Liu Jingshuang,Yang Jisong,Yu Junbao,et al. Study on vertical distributon of soil organic carbon in wetlands Sanjiang plain [J]. Journal of Soil and Water Conservation,2003,17(3): 5-8. [刘景双,杨继松,于君宝,等. 三江平原沼泽湿地土壤有机碳的垂直分布特征研究[J]. 水土保持学报,2003,17(3): 5-8.]
[12] Bai Junhong,Deng Wei,Zhu Yanming,et al. Spatial distribution characteristics and ecological effects of carbon an d nitrogen of soil in Huolin river catchment wetland [J]. Chinese Journal of Applied Ecology,2003,14(9): 1 494-1 498.[白军红,邓伟,朱颜明,等. 霍林河流域湿地土壤碳氮空间分布特征及生态效应[J]. 应用生态学报,2003,14(9): 1 494-1 498.]
[13] Ma Xuehui,Lü Xianguo,Yang Qing,et al. Carbon cycle of a marsh Sanjiang plain [J]. Scientic Geographica Sinica,1996,16(4):323-330.[马学慧,吕宪国,杨青,等. 三江平原沼泽地碳循环初探[J]. 地理科学,1996,16(4):323-330.]
[14] Luan Zhaoqing,Song Changchun,Deng Wei. Study on soil fertility variation during wetland reclamation and utilization in the Naoli river watershed of the Sanjiang plain [J]. Journal of Jilin Agricultural University,2003,25(5): 544-547.[栾兆擎,宋长春,邓伟. 三江平原挠力河流域湿地不同开垦年限肥力的变化[J].吉林农业大学学报,2003,25(5): 544-547.]
[15] Zhai Jinliang,He Yan,Deng Wei. Content of total N,total P and organic matters and their correlation in soils of Xianghai floodplain wetland [J]. Research of Environment Sciences,2001,14(6):40-43.[翟金良,何岩,邓伟.向海洪泛湿地土壤全氮、全磷和有机质含量及相关性分析[J]. 环境科学研究,2001,14(6): 40-43.]
[16] Liu Ruhai,Wang Qichao,Wang Yan,et al. Changes of Hg and organic matter contents after reclamation of calamagrostis angustifolia wetland [J]. Journal of Agro-Environment Science, 2003,22(6):647-650.[刘汝海,王起超,王艳,等.小叶章湿地开垦后汞和有机质的动态变化[J]. 农业环境科学学报,2003,22(6): 647-650.]
[17] Zhang Wenju,Wu Jinshui,Xiao Heai,et al. Profile distribution characteristics and accumulation of organin carbon in typical wetlands in Sanjiang plain [J]. Advances in Earth Science,2004,19(4): 558-563.[张文菊,吴金水,肖和艾,等. 三江平原典型湿地剖面有机碳分布特征与积累现状[J]. 地球科学进展,2004,19(4): 558-563.]
[18] Chi Chuande,Xu Xinwang,Wu Xinmin,et al. Storage and distribution of soil organic carbon in Shengjin lake wetland,Anhui,China [J]. Earth and Environment,2006,34(4): 59-64.[迟传德,许信旺,吴新民,等. 安徽省升金湖湿地土壤有机碳储存及分布[J]. 地球与环境,2006,34(4): 59-64.]
[19] Tian Yingbing,Xiong Mingbiao,Xiong Xiaoshan,et al. The organic carbon distribution and flow in wetland soil plant system in Ruoergai plateau [J]. Acta Phytoecologica Sinica,2003,27(4): 490-495.[田应兵,熊明彪,熊晓山,等. 若尔盖高原湿地土壤—植物系统有机碳的分布与流动[J]. 植物生态学报,2003,27(4): 490-495.]
[20] Tian Yingbing,Xiong Mingbiao,Song Guangyu. Study on change of soil organic matter in the process of wetland ecological restoration in Ruoergai plateau [J]. Wetland Science,2004,2(2): 88-93.[田应兵,熊明彪,宋光煜. 若尔盖高原湿地生态恢复过程中土壤有机质的变化研究[J]. 湿地科学,2004,2(2): 88-93.]
[21] Lu Rukun. Chemical Analysis Methods of Agricultural Soil [M]. Beijing: China Agricultural Technology Press,1999: 50-107.[鲁如坤. 土壤农业化学分析方法[M].北京:中国农业科技出版社,1999:50-107.]
[22] Andersena D C,Nelsonb S M. Flood pattern and weather determine Populus leaf litter breakdown and nitrogen dynamics on a cold desert flootplain [J]. Journal of Arid Environments, 2006,64: 626-650.
[23] Duan Xiaonan,Wang Xiaoke,Ouyang Zhiyun,et al. The biomass of Phragmites Australis and its influencing factors in WuLiangSuHai [J]. Acta Phytoecologica Sinica,2004,28(2): 246-251.[段晓男,王效科,欧阳志云,等. 乌梁素海野生芦苇群落生物量及影响因子分析[J]. 植物生态学报,2004,28(2): 246-251.]
[24] Song Changchun,Zhang Jinbo,Zhang Lihua. The variation of carbon stock in freshwater mire after nitrogen input [J]. Advances in Earth Science,2005,20(1): 1 249-1 255.[宋长春,张金波,张丽华.氮素输入影响下淡水湿地碳过程变化[J]. 地球科学进展,2005,20(1):1 249-1 255.]
[25] Xiong Hanfeng,Liao Qingzhou,Wu Qingfeng,et al. Distribution soil nutrients and correlation analysis in lake Liangzi wetlands Hubei province [J]. Journal of Lake Sciences,2005,17(1): 93-96.[熊汉锋,廖勤周,吴庆丰,等. 湖北梁子湖湿地土壤养分的分布特征和相关性分析[J]. 湖泊科学,2005,17(1): 93-96.]
[26] Zhang Wenju,Tong Chengli,Yang Gairen,et al. Effects of water on mineralization of organic carbon in sediment from wetlands [J]. Acta Ecologica Sinica,2005,25(2): 249-253.[张文菊,童成立,杨钙仁,等. 水分对湿地沉积物有机碳矿化的影响[J]. 生态学报,2005,25(2): 249-253.]
[27] Jobbagy E G,Jackson R B. The vertical distribution of soil organic carbon and its relation to climate and vegetation [J]. Ecological Applications,2002,10(2):423-436.
[28] Lü Guohong,Zhou Li,Zhao Xianli,et al. Vertical distribution of soil organic carbon and total nitrogen in reed wetland [J]. Chinese Journal of Applied Ecology,2006,17(3):384-389.[吕国红,周莉,赵先丽,等. 芦苇湿地土壤有机碳和全氮含量的垂直分布特征[J]. 应用生态学报,2006,17(3):384-389.]
[29] Beauchamp V B,Stromberg J C,Stutz J C. Flow regulation has minimal influence on mycorrhizal fungi of a semi-arid floodplain ecosystem despite changes in hydrology,soils,and vegetation [J]. Journal of Arid Environments,2006,68: 188-205.
[30] Nilsson C,Reidy C A,Dynesius M,et al. Fragmentation and flow regulation of the world’s large river systems [J]. Science,2005,308:405-408.
[31] William L Graf. Downstream hydrologic and geomorphic effects of large dams on American rivers [J]. Geomorphology,2006,79: 336-360.
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