Advanced Search
  • Included in CSCD
  • Chinese Core Journals
  • Included in WJCI Report
  • Included in Scopus, CA, DOAJ, EBSCO, JST
  • The Key Magazine of China Technology
Volume 40 Issue 4
Aug.  2021
Turn off MathJax
Article Contents
Article Navigation >  CARSOLOGICA SINICA  > 2021  >  40(4): 698-706
LI Yangbing. Analysis on transformation and evolution of rocky desertification in karst mountainous areas of southwest China[J]. CARSOLOGICA SINICA, 2021, 40(4): 698-706.
Citation: LI Yangbing. Analysis on transformation and evolution of rocky desertification in karst mountainous areas of southwest China[J]. CARSOLOGICA SINICA, 2021, 40(4): 698-706.
shu

Analysis on transformation and evolution of rocky desertification in karst mountainous areas of southwest China

  • School of Geography and Environmental Science,Guizhou Normal University

  • Publish Date: 2021-08-25
    Abstract
  • Systematic clarifying the evolution trend of karst rocky desertification is of great significance to correctly understand the occurrence and development process of karst rocky desertification and implement effective comprehensive control measures of rocky desertification. The results shows that, (1) There are 4 main factors driving the occurrence and formation of rocky desertification,such as single livelihood of farmers in karst mountainous areas, high land pressure, low land carrying capacity and fragile ecology. The essence of the occurrence and expansion of karst rocky desertification is that under the background of low land carrying capacity, land use patterns such as over-cutting, over-cultivation and over-grazing triggered land degradation in karst mountainous areas, that is, rocky desertification. (2) After karst rocky desertification occurs and develops to a certain stage, with the evolution of social and economic background and the change and disappearance of rocky desertification driving factors, the trend of rocky desertification area expansion will undergo a fundamental turning point, namely,the transformation of rocky desertification. (3) The change of land use pattern in karst mountainous areas in southwest China leads to the change of ecosystem mechanism, which leads to the transformation and evolution of rocky desertification. Rocky desertification transformation is the response of land use system to the comprehensive action of economic and social development and ecosystem, which is in line with the general trend of economic and social development and ecosystem evolution. (4) The transformation and evolution of rocky desertification in karst mountainous areas in southwest China has a guiding significance for revealing the change of man-land relationship in karst mountainous areas of southwest China.

     

    • FullText(HTML)
  • loading
    • References(52)
  • [1]
    Gams I. Origin of the term "karst," and the transformation of the Classical Karst (kras). Environmental Geology, 1993, 21:110-114.
    [2]
    杨汉奎.喀斯特荒漠化是一种地质生态灾难[J].海洋地质与第四纪地质,1995,15(3):137-147.
    [3]
    Wang S J, Liu Q M, Zhang D F. Rocky desertification in southwestern China: geomorphology, land use, impact and rehabilitation. Land Degrad. Develop. 2004, 15: 115-121.
    [4]
    Huang X F, Zhou Y C, Wang S J, et al. Occurrence mechanism and prediction of rocky land degradation in karst mountainous basins with the aid of GIS technology, a study case in Houzhai River Basin in southwestern China. Environmental Earth Sciences, 2019, 78:217.
    [5]
    Bai X Y, Wang S J, Xiong K N. Assessment spatial-temporal evolution processes of karst rocky desertification land: indications for restoration stratigies. Land Degrad. Develop. 2013, 24 : 47-56.
    [6]
    Xu E Q, Zhang H Q. Characterization and interaction of driving factors in karst rocky desertification: a case study from Changshun, China. Solid Earth, 5, 1329-1340, 2014.
    [7]
    Xu E Q, Zhang H Q. A spatial simulation model for karst rocky desertification combining top-down and bottom-up approaches. Land Degrad Dev., 2018; 29: 3390-3404.
    [8]
    Jiang M, Lin Y, Chan T O, et al. Geologic factors leadingly drawing the macroecological pattern of rocky desertifcation in southwest China. Scientific Reports, 2020,10:1440.
    [9]
    Qi X K, Wang K L, Zhang C H. Effectiveness of ecological restoration projects in a karst region of southwest China assessed using vegetation succession mapping. Ecological Engineering , 2013,54: 245-253.
    [10]
    Jiang Z C, Lian Y Q, Qin X Q. Rocky desertification in southwest China: impacts, causes, and restoration. Earth Science Reviews,2014,132(3):1-12.
    [11]
    Wang K L, Zhang C H, Chen H S, et al. Karst landscapes of China: patterns, ecosystem processes and services. Landscape Ecol, https://doi.org/10.1007/s10980-019-00912-w.
    [12]
    Xu E Q, Zhang H Q, Li M X. Mining spatial information to investigate the evolution of karst rocky desertification and its human driving forces in Changshun, China. Science of the Total Environment, 2013, 458-460: 419-426.
    [13]
    李阳兵,李珊珊,徐倩,等.西南岩溶山地石漠化近50年演变-基于5个地点的案例研究. 生态学报,2019,39(22):8526-8538.
    [14]
    Bryan BA, Gao L, Ye Y, et al. China’s response to a national land-system sustainability emergency[J]. Nature, 2018,559:193-204.
    [15]
    Wang J Y, Xin L J, Wang Y H. Economic growth, government policies, and forest transition in China. Regional Environmental Change, 2019, 19:1023-1033.
    [16]
    Qu Y B, Jiang G H, Li Z T, et al. Understanding rural land use transition and regional consolidation implications in China. Land Use Policy, 2019, 82: 742-753.
    [17]
    Zhang B L, Sun P L, Jiang G H, et al. Rural land use transition of mountainous areas and policy implications for land consolidation in China. Journal of Geographical Sciences, 2019, 29(10):1713-1730.
    [18]
    You H Y. Agricultural landscape dynamics in response to economic transition: Comparisons between different spatial planning zones in Ningbo region, China. Land Use Policy, 2017, 61: 316-328.
    [19]
    Chen C, Park T, Wang X H, et al. China and India lead in greening of the world through land-use management. Nature Sustainability, 2019, 2(2):122-129.
    [20]
    Marcmacias-fauria. Satellite images show China going green. Nature,2018,
    [21]
    周政贤,毛志忠,喻理飞.2002.贵州石漠化退化土地及植被恢复模式[J].贵州科学,20(1):1-6.
    [22]
    张殿发,王世杰,周德全,等. 贵州省喀斯特地区土地 石漠化的内动力作用机制.水土保持通报,2001, 21(4): 1-5.
    [23]
    屠玉麟. 贵州土地石漠化现状及成因分析[C]/ /李箐. 石灰岩地区开发与治理.贵阳:贵州人民出版社, 1996: 59-70.
    [24]
    王世杰. 喀斯特石漠化概念演绎及其科学内涵的探讨. 中国岩溶,2002,21( 2) : 101-105.
    [25]
    Yuan D X. Rock desertification in the subtropical karst of south china. Z. Geomorph. N. F., 1997,108:81-90.
    [26]
    Yang Q Q, Wang K L, Zhang C H, et al. Spatio-temporal evolution of rocky desertification and its driving forces in karst areas of Northwestern Guangxi, China. Environ Earth Sci, 2011, 64:383-393.
    [27]
    Yang Z S, Liu Y S, Bao G J, et al. Rehabilitation and sustainable use Pattern of rocky-desertified land in southwest China’s poverty-stricken karst mountainous areas-a case study in Benggu Township, Xichou County, Yunnan, China. Journal of Mountain Science, 2006, 3(3): 237-246.
    [28]
    吕杰,袁希平,甘淑.滇东南岩溶石漠化地区农户生计 策略选择及其驱动力研究. 江西农业学报,2014,26(3): 128-133.
    [29]
    韩昭庆,陆丽雯. 明代至清初贵州交通沿线的植被及石漠化分布的探讨. 中国历史地理论丛,2012,27 (1): 29-36,46.
    [30]
    Liu Y S,Wang J Y,Deng X Z. Rocky land desertification and its driving forces in the karst areas of rural Guangxi, Southwest China. Journal of Mountain Science, 2008, 5: 350-357
    [31]
    王宇,张贵. 滇东岩溶石山地区石漠化特征及成因[J].地球科学进展,2003,18(6):933-938.
    [32]
    Chen R S, Ye C, Cai Y L, Xing X S. Integrated restoration of small watershed in karst regions of southwest China. Ambio, 2012, 41:907-912.
    [33]
    Zhang B P, Xiao F, Wu H Z, et al. Combating the fragile karst environment in Guizhou, China. Ambio, 2006,35(2): 94-96.
    [34]
    Li Y, Bai X Y, Wang S J, et al. Integrating mitigation measures for karst rocky desertification land in the Southwest mountains of China. Carbonates and Evaporites, 2019,34:1095-1106.
    [35]
    Tian J F, Wang B Y, Zhang C R. Mechanism of regional land use transition in underdeveloped areas of China: a case study of northeast China. Land Use Policy, 2020, 94: 104538.
    [36]
    Peng J, Xu Y Q, Cai Y L, et al. The role of policies in land use/cover change since the 1970s in ecologically fragile karst areas of Southwest China: a case study on the Maotiaohe watershed. Environmental science & policy, 2011, 14: 408-418.
    [37]
    Long H L. Land use transitions and rural restructuring in China. Springer, 2020.
    [38]
    Yan X, Cai Y L. Anthropogenic driving forces of karst rocky desertification in southwest China. Land Degrad. Develop., 2015, 26: 193-200.
    [39]
    Chen R S, Ye C, Cai Y L, et al. The impact of rural out-migration on land use transition in China: Past, present and trend. Land Use Policy, 2014,40(4):101-110.
    [40]
    Zhang J Y, Dai M H, Wang L C, et al. Household livelihood change under the rocky desertification control project in karst areas, Southwest China. Land Use Policy, 2016, 56: 8-15.
    [41]
    Yang Q Y, Jiang Z C, Yuan D X, et al. Temporal and spatial changes of karst rocky desertification in ecological reconstruction region of Southwest China. Environ Earth Sci, 2014, 72:4483-4489.
    [42]
    Huang Q H, Cai Y L. Spatial pattern of Karst rock desertification in the Middle of Guizhou Province, Southwestern China. Environ Geol, 2007, 52:1325-1330.
    [43]
    Tong X W, Brandt M, Yue Y M, et al. Increased vegetation growth and carbon stock in China karst via ecological engineering. Nature Sustainability, 2018, 1: 44-50.
    [44]
    Brandt M, Yue Y M, Wigneron J P, et al. Satellite-observed major greening and biomass increase in south China karst during recent decade. Earth's Future, 6, 1017-1028.
    [45]
    Kaligari? M. Ivajn?i? D. Vanishing landscape of the “classic” Karst: changed landscape identity and projections for the future. Landscape and Urban Planning, 132 (2014): 148-158.
    [46]
    Kranjc A. History of deforestation and reforestation in the Dinaric Karst. Geographical Research, 2009, 47(1):15-23.
    [47]
    Zhao S, Pereira P, Wu X Q, et al. Global karst vegetation regime and its response to climate change and human activities. Ecological Indicators, 2020, 113: 106208
    [48]
    Foley J A, DeFries R, Asner G P, et al. Global consequences of land use. Science, 2005, 309:570-574.
    [49]
    Levers C, Schneider M, Prishchepov A V, et al. Spatial variation in determinants of agricultural land abandonment in Europe. Science of the Total Environment, 2018, 644: 95-111.
    [50]
    Foley J A, Ramankutty N, Brauman K A, et al. Solutions for a cultivated planet. Nature, 2011,478:337-342.
    [51]
    李阳兵, 黄娟, 徐倩等, 对石漠化概念及其治理的再思考. 贵州师范大学学报(自然科学版), 2017, 35(5): 1-6,55.
    [52]
    王宇,张华,张贵等.云南省石漠化调查及治理综述.中国岩溶,2016,35(5):486-496.
    • Relative Articles
    • Supplements(0)
    • Cited By
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索
    Get Citation
    PDF(1526.0KB)
    XML

    Article Metrics

    Article views (1323) PDF downloads(94) Cited by()
    Proportional views
    Related

    Website Copyright © CARSOLOGICA SINICA 桂ICP备05009877号-1

    Sponsor: Chinese Academy of Geological Sciences Sponsored by: Institute of Karst Geology, Chinese Academy of Geological Sciences Address: No.50, Qixing Road, Guilin, Guangxi

    Post Code: 541004 Tel: 0773-5812949 7796657 Email: zgyr@mail.cgs.gov.cn; zgyrbjb@163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd.  

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return