Promotion effects of comprehensive control technologies of soil and water conservation in Karst region:A case study of the Guanmaidi Watershed and the Gaojiancao Watershed
LI Haiyan, DING Jianhong, BAI Yong, WU Hao, ZHANG Feng
1. Yunnan Provincial Institute of Water Resources and Hydropower Research, 650228, Kunming, China;
2. Yunnan Agricultural University, 650201, Kunming, China;
3. Yunnan Provincial Map Institute, 650034, Kunming, China
Abstract:[Background] There are some key problems such as seasonal drought and water shortage poor soil loss, low agricultural productivity, low economic level in Karst regions. In this paper, taking the Guanmaidi Watersheds of Zhanyi county and the Gaojiancao Watersheds of Malong county in Qujing city of Yunnan province as an example, the research group popularized techniques of controlling the above problems and studied their benefits.[Methods] With reference to index value and weight, the research group investigated six indexes including pre-persuading of the core area, farmer participation, the satisfaction of the beneficiary, willingness of non-beneficiary, cost of investment, and return. The first four indexes were scored by the members of the project group, the supplier technical constructors, project liaison of the local water bureau, the beneficiary and non-beneficiary, and the cost and return were scored in accordance with the actual situation. The research group evaluated application benefit of techniques with facilities installation through weighting average score of above indexes. The benefits of the demonstration of planting Pennisetum giganteum z. x. lin and soil improvement were evaluated though setting up field controlled experiment, observing and comparing indexes such as leaf, plant height, yield, root biomass, soil moisture and soil chemical composition[Results] 1) The benefits evaluation of optimal allocation technology of water technologies were in the order as:Photovoltaic pumping (7.8) > modular water tank (6.9) > flexible water cellar (6.15), and the area of irrigation benefit reached 63 hm2 after applying optimal allocation technology of water technologies. 2) The benefits evaluation of highly efficient utilization technology were in the order as:Drip irrigation (7.65) > plastic mulching with degradation membrane (6.3) > irrigation with drip bag (5.4) > infiltration irrigation with low-cost device (5.2), and the efficiency of water utilization increased by 30% after applying highly efficient utilization technology. 3) After soil improvement,the plants of corn and P. giganteum z. x. lin were bigger, the yield of corn increased by 8.82%, the yield of P. giganteum z. x. lin increased by 17%, the chemical composition of the soil increased by 6.54%-22.87%. 4) Compared the planting of corn with the planting of P. giganteum z. x. lin, the root of P. giganteum z. x. lin were intricate and massive, the root weight was 6 times higher and the soil water content was 48% higher. Feeding cattle using the plant of P. giganteum z. x. lin increased economic income by 240 000 RMB Yuan per ha comparing with corn.[Conclusions] These promotions of technologies mentioned above had obtained favorable effects, and comprehensively harnessing the existing problems in karst areas, which can be used as reference for the comprehensive management decision of soil and water conservation in the region and the application of technology in similar region.
李海燕1, 丁剑宏1, 柏勇2, 吴昊1, 张凤3. 岩溶区水土保持综合治理技术效益分析——以官脉地小流域、高枧槽小流域为例[J]. 中国水土保持科学, 2018, 16(3): 68-78.
LI Haiyan, DING Jianhong, BAI Yong, WU Hao, ZHANG Feng. Promotion effects of comprehensive control technologies of soil and water conservation in Karst region:A case study of the Guanmaidi Watershed and the Gaojiancao Watershed. SSWC, 2018, 16(3): 68-78.
徐弘祖.徐霞客游记[M].唐云,校注.成都:成都出版社,1995:18. XU Hongzu. Travels of XU Xiake[M]. Collated and annotated by Tang Yun. Chengdu:Chengdu Press, 1995:18.
[2]
中国科学院地质研究所岩溶研究组.中国岩溶研究[M].北京:科学出版社,1979:1. Study Group on Karst of Geological Institute of Chinese Academy of Sciences. The study on Karst in China[M].Beijing:Science Press, 1979:1.
[3]
陈治平.中国喀斯特地貌研究进展[J].地理研究,1986, 5(4):93. CHEN Zhiping. The research progress of karst landform in China[J]. Geographical Research,1986, 5(4):93.
[4]
熊平生,袁道先,谢世友.我国南方岩溶山区石漠化基本问题研究进展[J].中国岩溶,2010,29(4):355. XIONG Pingsheng, YUAN Daoxian, XIE Shiyou. Progress of research on rocky desertification in South China Karst Mountain[J]. Carsologica Sinica, 2010, 29(4):355.
[5]
袁道先.岩溶石漠化问题的全球视野和我国的治理对策与经验[J].草业科学,2008,25(9):19. YUAN Daoxian. Global view on Karst rock desertification and integrating control measures and experiences of China[J]. Pratacultural Science, 2008, 25(9):19.
[6]
刘拓,周光辉,但新球,等.中国岩溶石漠化-现状、成因与防治[M].北京:中国林业出版社,2009:31. LIU Tuo, ZHOU Guanghui, DAN Xinqiu, et al. The present situation and cause of formation and control of rocky desertification of karst area in china[M].Beijing:Chinese Forestry Press, 2009:31.
[7]
曹建华,邓艳,杨慧,等.喀斯特断陷盆地石漠化演变及治理技术与示范[J]. 生态学报,2016,36(22):7103. CAO Jianhua, DENG Yan, YANG Hui, et al. Rocky desertification evolution,treatment technology and demonstration in Karst faulted basins,Southwest China[J]. Acta Ecologica Sinica, 2016, 36(22):7103.
[8]
张云,周跃华,常恩福.云南省石漠化问题初探[J].林业经济,2010(5):72. ZHANG Yun, ZHOU Yuehua, CHANG Enfu. The problem of desertification in Yunnan province[J]. Forestry Economics, 2010(5):72.
[9]
岩溶地区水土流失综合治理技术标准:SL 461-2009[S].2009. Techniques standard for comprehensive control of soil erosion and water loss in Karst region:SL 461-2009[S].2009.
[10]
童立强,刘春玲,聂洪峰.中国南方岩溶石山地区石漠化遥感调查与演变研究[M]. 北京:科学出版社,2013:81. TONG Liqiang, LIU Chunling, NIE Hongfeng. Remote sensing survey and research of evolution of rocky desertification in South China Karst Mountain[M].Beijing:Science Press, 2013:81.
[11]
袁道先,蒋勇军,沈立成,等.现代岩溶学[M].北京:科学出版社,2016:319. YUAN Daoxian, JIANG Yongjun, SHEN Licheng, et al. Modern karstology[M].Beijing:Science Press,2016:319.
[12]
林积泉,王伯铎,马俊杰,等.小流域治理环境质量综合评价指标体系研究[J].水土保持研究,2005, 12(1):69. LIN Jiquan, WANG Boduo, MA Junjie, et al. Study on indicator system for environmental quality comprehensive assessment[J]. Research of Soil and Water Conservation, 2005, 12(1):69.
[13]
蔡国军,张仁陟,柴春山.安家沟小流域综合治理效益评价[J].草业学报,2009(12):23. CAI Guojun, ZHANG Renzhi, CHAI Chunshan. Evaluation of comprehensive management benefits of Anjiagou small watershed in Dingxi, Gansu[J].Acta Prataculturae Sinica,2009(12):23.
[14]
邱虎森,苏以荣,陈香碧等.喀斯特高原典型小流域土壤有机碳及其组分的分布特征[J].农业环境科学学报,2012,31(10):1956. QIU Husen, SU Yirong, CHEN Xiangbi, et al. Characteristics of the distributions of soil organic carbon and main components in a typical catchment in the Karst Plateau[J]. Journal of Agro-Environment Science, 2012, 31(10):1956.
[15]
袁海伟, 苏以荣, 郑华,等. 喀斯特峰丛洼地不同土地利用类型土壤有机碳和氮素分布特征[J].生态学杂志,2007,26(10):1579. YUAN Haiwei, SU Yirong, ZHEN Hua, et al. Distribution characteristics of soil organic carbon and nitrogen in peak-cluster depression landuse of karst region[J]. Chinese Journal of Ecology, 2007, 26(10):1579.