Dynamics of the lakes in the middle and lower reaches of the Yangtze River basin, China, since late nineteenth century
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  • 作者:Lijuan Cui (1)
    Changjun Gao (1)
    Xinsheng Zhao (1)
    Qiongfang Ma (1)
    Manyin Zhang (1)
    Wei Li (1)
    Hongtao Song (1)
    Yifei Wang (1)
    Shengnan Li (1)
    Yan Zhang (1)
  • 关键词:Lake change ; Lake reclamation ; Human activity ; Yangtze River
  • 刊名:Environmental Monitoring and Assessment
  • 出版年:2013
  • 出版时间:May 2013
  • 年:2013
  • 卷:185
  • 期:5
  • 页码:4005-4018
  • 全文大小:638KB
  • 参考文献:1. Bai, J. H., Ouyang, H., Cui, B. S., Wang, Q. G., & Chen, H. (2008). Changes in landscape pattern of Alpine wetlands on the Zoige Plateau in the past four decades. / Acta Ecologica Sinica, 28(5), 2245-252. CrossRef
    2. Bai, J., Chen, X., Li, J. L., Yang, L., & Fang, H. (2011). Changes in the area of inland lakes in arid regions of central Asia during the past 30years. / Environmental Monitoring and Assessment, 178, 247-56. CrossRef
    3. Beeton, A. M. (2002). Large freshwater lakes: present state, trends and future. / Environmental Conservation, 29, 21-8. CrossRef
    4. Bian, H. X., Wang, W. C., & Gong, X. L. (1993). / The evolution of Dongting Lake. Changsha: Hunan science and Technology.
    5. Bronmark, C., & Hansson, L. A. (2002). Environmental issues in lakes and ponds: current state and perspectives. / Environmental Conservation, 29, 290-07. CrossRef
    6. Chinese Academy of Science Sustainable Development Research Group (2007). China Sustainable Development Strategy Report 2007 Water: Governance and Innovation. Science, Beijing.
    7. Coe, M. T., & Foley, J. (2001). Human and natural impacts on the water resources of the Lake Chad basin. / Journal of Geophysical Research, 106(D4), 3349-356. CrossRef
    8. Deng, F., Wang, X. L., Li, E. H., Cai, X. B., Huang, J. L., Hu, Y. X., & Jiang L. Z. (2012). Dynamics of Lake Dongting wetland from 1993 to 2010. / Journal of / Lake Sciences, 24(4), 571-76.
    9. Du, Y., Xue, H. P., Wu, S. J., Ling, F., Xiao, F., & Wei, X. H. (2011). Lake area changes in the middle Yangtze region of China over the 20th century. / Journal of Environmental Management, 92, 1248-255. CrossRef
    10. Fang, J. Y., Zhao S. Q., Tang, Z. Y., et al. (2006). Ecological basis of regional biodiversity conservation of wetlands in the central Yangtze. Higher Education, Beijing, China.
    11. Gardelle, J., Arnaud, Y., & Berthier, E. (2011). Contrasted evolution of glacial lakes along the Hindu Kush Himalaya mountain range between 1990 and 2009. / Global and Planetary Change, 75(1-), 47-5. CrossRef
    12. Gong, P., Niu, Z. G., Cheng, X., et al. (2010). China's wetland change (1990-000) determined by remote sensing. / Science in China Series D-Earth Sciences, 53(7), 1036-042. doi:10.1007/s11430-010-4002-3 . CrossRef
    13. He, X. B., & Jiao, J. R. (2000). The 1998 flood and soil erosion in Yangtze River. / Water Policy, 1(6), 653-58. CrossRef
    14. He, X. B., Zhou, J., Zhang, X. B., & Tang, K. L. (2006). Soil erosion response to climate change and human activity during the Quaternary on the Loess Plateau, China. / Regional Environmental Change, 6, 62-0. CrossRef
    15. Huang, J. L. (2001). Historical thought on land exploitation in recent 500years in Jianghan Plain. / Journal of Central China Normal University, 35, 485-88.
    16. Huang, N., Wang, Z. M., Liu, D. W., & Niu, Z. (2010). Selecting sites for converting farmlands to wetlands in the Sanjiang Plain, Northeast China, Based on Remote Sensing and GIS. / Environmental Management, 46, 790-00. CrossRef
    17. Hung, M. C., & Wu, Y. H. (2005). Mapping and visualizing the Great Salt Lake landscape dynamics using multi-temporal satellite images, 1972-1996. / International Journal of Remote Sensing, 26(9), 1815-834. CrossRef
    18. ILEC (2007). Integrated lake basin management: an introduction. International Lake Environment Committee Foundation: Kusatsu, Japan.
    19. Jiang, J. H., & Wang, S. M. (2004). Primary analyse of water resource, disasters and environment in the Changjiang River catchment. / Quaternary Sciences, 24(5), 513-17.
    20. Jiang, T., Su, B. D., Wang, Y. J., Zhang, Q., Qin, N. X., & Shi, Y. F. (2005). Trends of temperature, precipitation and runoff in the Yangtze River basin from 1961 to 2000. / Advances in Climate Change Research, 1(2), 65-8.
    21. Kashaigili, J. J., Mbilinyi, B. P., Mccartney, M., & Mwanuzi, F. L. (2006). Dynamics of Usangu plains wetlands: use of remote sensing and GIS as management decision tools. / Physics and Chemistry of the Earth, 31, 967-75. CrossRef
    22. Lang, Y. H., Chen, B. M., & Shen, L. (Eds) (1995). The strategies for the industrial corridor construction in the Yangtze River. China Science and Technology, Beijing, China.
    23. Li, J. B., Qin, J. X., Wang, K. L., Liang, C. J., & Yuan, H. B. (2004). The response of environment system changes of Dongting Lake to hydrological situation. / Acta Geographica Sinica, 59(2), 239-48.
    24. Liu, J. Y., Tian, H. Q., Liu, M. L., Zhuang, D. F., Melillo, J. M., & Zhang, Z. X. (2005). China's changing landscape during the 1990s: large-scale land transformations estimated with satellite data. / Geophysical Research Letters, 32, L02405. doi:10.1029/2004GL021649 . CrossRef
    25. Long, H. L., Heilig, G. K., Wang, J., Li, X. B., Luo, M., Wu, X. Q., & Zhang, M. (2006). Land use and soil erosion in the upper reaches of the Yangtze River: some socio-economic considerations on China's Grain-for-Green Programme. / Land Degradation & Development, 17(6), 589-03. CrossRef
    26. Lv, X. H., & Liu, Q. (2003). Wetland resource in the Yangtze Basin and its protection and restoration. / Geography and Geo-information Science, 19(1), 70-3.
    27. Lyon, G., & McCarthy. (1995). Wetland and environmental applications of GIS. CRC, INC.
    28. Ma, M., Wang, X., Veroustraete, F., & Dong, L. (2007). Change in area of Ebinur Lake during the 1998-005. / International Journal of Remote Sensing, 28(24), 5523-533. CrossRef
    29. Ma, R. H., Duan, H., Hu, C., Feng, X., Li, A., Ju, W., Jiang, J., & Yang, G. (2010). A half-century of changes in China's lakes: Global warming or human influence? / Geophysical Research Letters, 37, L24106. doi:10.1029/2010GL045514 . CrossRef
    30. Ma, R. H., Yang, G. S., Duan, H. T., Jiang, J. H., Wang, S. M., Feng, X. Z., Li, A. N., Kong, F. X., Xue, B., Wu, J. L., & Li, S. J. (2010). China's lakes at present: number, area and spatial distribution. / Science in China Series D-Earth Sciences. doi:10.1007/s11430-010-4052-6 .
    31. MacAlister, C., & Mahaxay, M. (2009). Mapping wetlands in the lower Mekong Basin for wetland resource and conservation management using Landsat ETM images and field survey data. / Journal of Environmental Management, 90(7), 2130-137. CrossRef
    32. Mei, W., & Yang, X. Q. (2005). Trends of precipitation variations in the mid-lower Yangtze River Valley of China. / Journal of Nanjing University (Natural Sciences), 41(6), 577-89.
    33. Mei, L., Zhang, G. X., & Yan, C. G. (1995). / Study on the original development of Two Lakes Plain. Nanchang: Jiangxi Education.
    34. Mitsch, W. J., & Gosselink, J. G. (2000). / Wetlands (3rd ed). New York: Wiley.
    35. Olang, O. L., Kundu, P., Bauer, T., & Fürst, J. (2011). Analysis of spatio-temporal land cover changes for hydrological impact assessment within the Nyando River Basin of Kenya. / Environmental Monitoring and Assessment, 179, 389-01. CrossRef
    36. Ozesmi, S. L., & Bauer, M. E. (2002). Satellite remote sensing of wetlands. / Wetlands Ecology and Management, 10, 381-02. CrossRef
    37. Plug, L. J., Walls, J. C., & Scott, B. M. (2008). Tundra lake changes from 1978 to 2001 on the Tuktoyaktuk Peninsula, Western Canadian Arctic. / Geophysical Research Letters, 35, L03502. doi:10.1029/2007GL032303 . CrossRef
    38. Secretariat, R. C. (2006). / The Ramsar convention manual: a guide to the convention on wetlands (Ramsar, Iran, 1971) (4th ed.). Gland: Ramsar Convention Secretariat.
    39. Smith, L. C., Sheng, Y., MacDonald, G. M., & Hinzman, L. D. (2005). / Disappearing Arctic lakes, 308, 1429. doi:10.1126/science.1108142 .
    40. State Forestry Administration of China (2004). / Report of / the first / survey of / national wetland / resources. State Forestry Administration of China.
    41. Tiner, R. W. (2005). / In search of swampland: a wetland sourcebook and field guide. New Jersey: Rutgers University Press.
    42. Wang, S. M., & Dou, H. S. (1998). / Annals of Chinese lakes. Beijing: Science.
    43. Wang, H. D., Dou, H. S., Yan, J. S., Shu, J. H., & Zhang, Y. S. (1989). / Lakes resources in China. Beijing: Science.
    44. Wang, C. H., Li, X., & Miao, Q. L. (2003). Variety characteristics of daily minimum air temperature in China in recent 50years. / Scientia Geographica Sinica, 23(4), 441-47.
    45. Wang, Z. Y., Li, Y. T., & He, Y. P. (2007). Sediment budget of the Yangtze River. / Water Resources Research, 43, W04401. doi:10.1029/2006WR005012 .
    46. Wang, X. L., Ning, L. M., Yu, J., Xiao, R., & Li, T. (2008). Changes of urban wetland landscape pattern and impacts of urbanization on wetland in Wuhan City. / Chinese Geographical Science, 18(1), 47-3. CrossRef
    47. Wei, J., He, X. B., & Bao, Y. H. (2011). Anthropogenic impacts on suspended sediment load in the Upper Yangtze River. / Regional Environmental Change, 11, 857-68. CrossRef
    48. Wright, C., & Gallant, A. (2007). Improved wetland remote sensing in Yellowstone National Park using classification trees to combine TM imagery and ancillary environmental data. / Remote Sensing of Environmental, 107, 582-05. CrossRef
    49. Xie, Z. L., Xu, X. G., & Yan, L. (2010). Analyzing qualitative and quantitative changes in coastal wetland associated to the effects of natural and anthropogenic factors in a part of Tianjin, China. / Estuarine, Coastal and Shelf Science, 86, 379-86. CrossRef
    50. Xu, C., Sheng, S., Zhou, W., Cui, L. J., & Liu, M. S. (2010). Characterizing wetland change at landscape scale in Jiangsu Province, China. / Environmental Monitoring and Assessment, 179(1-), 279-92.
    51. Yang, G. S., Weng, L. D., & Li, L. F. (2007). Yangtze Conservation and Development report. Changjiang, Wuhan, China.
    52. Yin, H. F., Liu, G. R., Pi, J. G., Chen, G. J., & Li, C. A. (2007). On the river-lake relationship of the middle Yangtze reaches. / Geomorphology, 85, 197-07. CrossRef
    53. Yu, X., G. (Ed.) (2003). Study on the sustainable development of the Yangtze River Basin. China, Beijing, China.
    54. Zhang, Y., Kung, H. T., Deng, H. B., Kong, C. F., & Li, W. J. (2010). Change characteristic of lakes in Hubei province in the past 100years. / Wetlands Science, 8(1), 15-0.
    55. Zhong, Y., H. (Eds) (2002). Database of Natural disasters happened in Yangtze River reaches. Hubei Peoples Press, Wuhan, China.
    56. Zhou, E. M., Gong, H. L., Wang, Y. Y., Khan, S., & Zhao, K. Y. (2009). Driving Forces for the marsh wetland degradation in the Honghe National Nature Reserve in Sanjiang Plain, Northeast China. / Environmental Model Assessment, 14, 101-11. CrossRef
    57. Zhu, L. P., Xie, M. P., & Wu, Y. H. (2010). Quantitative analysis of lake area variations and the influence factors from 1971 to 2004 in the Nam Co basin of the Tibetan Plateau. / Chinese Science Bulletin, 55, 1294-303. CrossRef
  • 作者单位:Lijuan Cui (1)
    Changjun Gao (1)
    Xinsheng Zhao (1)
    Qiongfang Ma (1)
    Manyin Zhang (1)
    Wei Li (1)
    Hongtao Song (1)
    Yifei Wang (1)
    Shengnan Li (1)
    Yan Zhang (1)

    1. Institute of Wetland Research, Chinese Academy of Forestry, No. 1, Dongxiaofu, Haidian District, Beijing, 100091, People’s Republic of China
  • ISSN:1573-2959
文摘
The middle and lower reaches of the Yangtze River basin have the most representative and largest concentration of freshwater lakes in China. However, the size and number of these lakes have changed considerably over the past century due to the natural and anthropogenic impact. The lakes, larger than 10?km2 in size, were chosen from relief maps and remotely sensed images in 1875, 1950, 1970, 1990, 2000, and 2008 to study the dynamics of lakes in the middle and lower reaches of the Yangtze River basin and to examine the causes and consequences of these changes. Results indicated that there was a dramatic reduction in lake areas, which decreased by 7,841.2?km2 (42.64?%) during the study period (1875-008), and the number of lakes in this region changed moderately. Meanwhile, a large number of lakes in the middle and lower reaches of the Yangtze River basin were directly converted into paddy fields, ponds, building lands, or other land-use types over the study period. Therefore, all kinds of lake reclamation should be identified as the major driving factors for the loss of lake in this region. Furthermore, flooding, soil erosion, and sedimentation were also the main factors which triggered lake changes in different periods. Some wetland conservation and restoration projects have been implemented since the 1970s, but they have not reversed the lake degradation. These findings were of great importance to managers involved in making policy for the conservation of lake ecosystems and the utilization of lake resources.

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