Soil and water conservation planning layout and measures configuration for Yiyuan county based on small watersheds
QI Fei, HU Xuli, LIU Xia, XING Xianshuang, SONG Yuanyuan, ZHANG Hongda, XU Chun, ZHANG Zhiyang, LI Zhengbo
1. Jiangsu Key Laboratory of Soil and Water Conservation and Ecological Restoration, Co-Innovation Center for Sustainable Forestry in Southern China, Forestry College of Nanjing Forestry University, 210037, Nanjing, China;
2. Soil and Water Conservation Division of Huaihe River Commission of the Ministry of Water Resources, 233001, Bengbu, Anhui, China;
3. Hydrographic Office of Shandong Province, 250002, Jinan, China;
4. Soil and Water Conservation Office of Yiyuan County, 256100, Zibo, Shandong, China
Abstract:[Background] Small watershed is the basic unit in the comprehensive control of soil erosion and water loss. It is of great significance to carry out the division of small watersheds and determine the control direction for soil and water conservation layout at county scale. Yiyuan county, located in the national key management area, one of the key counties for the comprehensive control of soil and water conservation at the state and provincial level, was taken as the research object in the paper.[Methods] The basic data were remote sensing ZY-3 with resolution 2.1 m and 1:50 000 maps of topography, soil, administrative division and forest resources. The characteristics of soil erosion in the Yiyuan county were obtained by CSLE model, and its main influencing factors vegetation coverage was calculated by NDVI (normalized difference vegetation index) and field survey. The elevation, topographic fluctuation and slope were extracted and the landform types were classified based on the DEM. The land use was determined by human-computer interaction interpretation and field verification. The division of a small watershed was determined based on the ArcSWAT and 25 m DEM combined with rivers and administration division. The layout of soil conservation and the key area of prevention and control were determined by:1) firstly investigating the needs of soil and water conservation via field investigation, and 2) then by spatial overlay and statistical analysis based on the basic information such as land use, slope, forest and grass vegetation coverage, soil erosion and geomorphology according to the combined method of "top-down" and "bottom-up" and the demand of soil and water conservation while taking a small watershed as an unit.[Results] 1) The total area of soil erosion in the county was 765.99 km2, accounting for 46.83%, mainly mild erosion, distributed in the southeast, southwest and northeast of the county. 2) There were 68 small watersheds in the county. The average area of a small watershed was 24.06 km2, and channel density was from 1.87 to 2.99 km/km2. Soil erosion area percentage of 45% small watersheds was more than 50%. 3) Four soil and water conservation districts and "3 Belts and 3 Areas" key layouts were taken out according to the needs of soil and water conservation and characteristics of small watersheds. 4) The 21 small watersheds would be developed into ecologic and clean-type small watersheds, with enclosure mainly (55%). The 47 small watersheds would be developed into ecological economy watershed, of which mainly with enclosure (45%) in the northeast, with economic fruit forest (60%) in the southeast, and with enclosure (35%) and bench terrace (30%) in the southwest.[Conclusions] Soil and water conservation layout and measures configuration at county level, based on the small watersheds and polygon, may provide technical and scientific support for county soil erosion control and soil and water conservation management.
齐斐1, 胡续礼2, 刘霞1, 邢先双3, 宋媛媛1, 张洪达1, 徐春1, 张志扬4, 李正波4. 基于小流域划分的沂源县水土保持规划布局及措施配置[J]. 中国水土保持科学, 2018, 16(5): 129-135,144.
QI Fei, HU Xuli, LIU Xia, XING Xianshuang, SONG Yuanyuan, ZHANG Hongda, XU Chun, ZHANG Zhiyang, LI Zhengbo. Soil and water conservation planning layout and measures configuration for Yiyuan county based on small watersheds. SSWC, 2018, 16(5): 129-135,144.
刘春元,郭索彦.我国水土保持小流域治理的现状与特点[J].中国水土保持,1988(11):22. LIU Chunyuan, GUO Suoyan. The status and characteristics of small watershed management of soil and water conservation in China[J]. Soil and Water Conservation in China, 1988(11):22.
[2]
张洪江,张长印,赵永军,等.我国小流域综合治理面临的问题与对策[J].中国水土保持科学,2016,14(1):131. ZHANG Hongjiang, ZHANG Changyin, ZHAO Yongjun, et al. Issues and countermeasures in the comprehensive management of small watershed in China[J]. Science of Soil and Water Consercation, 2016, 14(1):131.
[3]
张新玉,杨元辉.我国水土保持小流域综合治理模式研究[J].中国水利,2011(12):58. ZHANG Xinyu, YANG Yuanhui. Study on the watershed comprehensive management mode of soil and water conservation in China[J]. China Water Resources, 2011(12):58.
[4]
李福林,耿灵生,周士勇.山东省水土保持区划与水土流失防治对策[J].山东水利,2017(10):13. LI Fulin, GENG Lingsheng, ZHOU Shiyong. Soil and water conservation districts and countermeasures in Shandong province[J]. Shandong Water Resources, 2017(10):13.
[5]
王治国,王莹,张超,等.全国水土保持规划任务与总体布局[J].中国水土保持,2015(12):17. WANG Zhiguo, WANG Ying, ZHANG Chao, et al. National soil and water conservation planning task and overall layout[J]. Soil and Water Conservation in China, 2015(12):17.
[6]
梁刚毅,孙坤君.县级水土保持规划探讨:以上思县为例[C]//中国水土保持学会水土保持规划设计专业委员会2015年年会.2015. LIANG Gangyi, SUN Kunjun. Discussion on soil and water conservation planning at the county level:A case study of Shangsi county[C]//Annual Conference 2015 of Planning and Design Commission of Chinese Soil and Water Conservation Society. 2015.
[7]
邵勇.三门县水土保持规划的编制研究[J].华东科技:学术版,2016(6):162. SHAO Yong. Study on the soil and water conservation planning in Sanmen county[J]. East China Science & Technology, 2016(6):162.
[8]
徐庭馨,彭庆卫.苍南县水土保持规划编制研究[J].中国人口·资源与环境,2017(增刊1):87. XU Tingxin, PENG Qingwei. Study on the soil and water conservation planning in Cangnan county[J]. China Population Resources and Environment, 2017(S1):87.
[9]
刘强.浙江省安吉县水土保持规划研究[D].杨凌:西北农林科技大学,2015. LIU Qiang. Study on the soil and water conservation planning in Anji county, Zhejiang province[D]. Yangling:Northwest A&F University, 2015.
[10]
杨韶洋,刘霞,姚孝友,等.沂蒙山区降雨侵蚀力空间分布推算方法[J].中国水土保持科学,2015,13(2):1. YANG Shaoyang, LIU Xia, YAO Xiaoyou, et al. The study of the rainfall erosivity spatial distribution calculating methods in Yimeng mountain area[J]. Science of Soil and Water Conservation, 2015, 13(2):1.
[11]
杨韶洋.基于CSLE模型的沂蒙山国家级重点治理区土壤侵蚀格局分析[D].泰安:山东农业大学,2014:8. YANG Shaoyang. The analysis of soil erosion pattern in National Key Harnessing areas of Yimeng mountains based on CSLE model[D]. Tai'an:Shandong Agricultural University, 2014:8.
[12]
邹丛荣,齐斐,张庆红,等.CSLE模型应用中不同抽样密度和推算方法的比较[J].中国水土保持科学,2016,14(3):130. ZOU Congrong, QI Fei, ZHANG Qinghong, et al. Comparison of different sampling desities and extrapolation methods based on CSLE model[J]. Science of Soil and Water Conservation, 2016, 14(3):130.
[13]
ZHANG Hongda, ZHANG Ronghua, QI Fei, et al. The CSLE model based soil erosion prediction:Comparisons of sampling density and extrapolation method at the county level[J]. Catena, 2018(165):465.
[14]
SL653-2013,小流域划分及编码规范[S]. SL653-2013, Specification for division and coding of small watershed[S].