昆明松花坝水源区坡耕地对集水区产流产沙的影响

doi:10.16843/j.sswc.2017.06.008

摘要
图/表
参考文献
相关文章 (15)

全文: HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要为了研究集水区尺度上坡耕地对产流产沙的影响，选取昆明市松花坝水源区迆者小流域内面积为0.42 km²的集水区（混合集水区，L+P）为研究对象，混合集水区上部为天然次生林（林地集水区，L），中下部为坡耕地。在自然降雨条件下，研究含坡耕地的混合集水区和上部林地集水区的坡面产流、产沙特征。结果表明：1）在强降雨条件下，混合集水区的径流量是林地集水区的9.31倍，且径流系数、流量变异系数是林地集水区的1.14倍和1.43倍；2）林地集水区和混合集水区的产沙量分别为69.76和359.10 t/km²，混合集水区的输沙量变异系数大于林地集水区，主要是林地集水区对泥沙的调控能力相对于混合集水区强，泥沙流失量较小；3）林地集水区与混合集水区的产流量与产沙量单因素差异性分别为0.01和0.001，且产沙量的显著性大于产流量。因此，坡耕地是集水区水土流失量增加的直接影响因素。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	王坤香
	王克勤

关键词 ：水土流失, 集水区, 产流产沙, 地表径流

Abstract：[Background] China is one of countries having the most serious soil erosion disaster in the world, it is across the country and it is serious. It is the concentrated reflection of various kinds of ecological problems, and results in the serious threat to food and ecological security. The study of soil and water loss mainly focuses on runoff plots, and the research on catchment area is little.[Methods] Two kinds of catchment area were selected at Yizhe small watershed in Songhuaba Reservoir in Kunming. The area of the mixed catchment area (L+P) was 0.42 km², it included woodland catchment area (L) and sloping land. Runoff and sediment yield characteristics were monitored continuously under the natural rainfall condition. According to the long-term and effective monitoring data of rainfall, runoff and sediment yield, the dynamic change process of runoff and sediment yield would be quantitatively and qualitatively described.[Results] 1) Runoff of mixed catchment area was higher under the strong rainfall condition, it was 9.31 times that of the woodland catchment area. Runoff coefficient and flow coefficient of variation were same as the runoff of mixed catchment area, they were 1.14 and 1.43 times that of the woodland catchment area respectively. 2) The sediment yield showed significant differences between the woodland catchment area and the mixed catchment area, they were 69.76 t/km² and 359.10 t/km² respectively. The sediment discharge coefficient of variation in the mixed catchment area was greater than that in the woodland catchment area, because the sediment control ability from woodland catchment area was much better than mixed catchment area, thus sediment losses was smaller. 3) The single factor variance was 0.01 and 0.001 of runoff and sediment yield on catchment area, and the significance of sediment yield was greater than the production flow.[Conclusions] Sloping land had the direct effect on water and soil loss in the catchment area. Research of catchment area was more conform to changes under natural conditions; it could avoid deviation from the limits of plot runoff because of area. It could be effectively reckoned up the influence of land-use types on water and soil loss by the runoff and sediment. And it can serve as an important basis for soil erosion control measures.

Key words： soil and water loss catchment area runoff and sediment surface runoff

收稿日期: 2016-12-12

PACS:

S157.1

基金资助:国家自然科学基金"微区域集水系统控制云南山地农业面源污染的机理研究"（30660037）；云南省高校优势特色重点学科（生态学）建设项目

通讯作者: 王克勤(1964-),男,博士,教授,博士生导师。主要研究方向:山区小流域环境综合治理的理论与技术。E-mail:wangkeqin7389@sina.com E-mail: wangkeqin7389@sina.com

作者简介: 王坤香(1991-),女,硕士研究生。主要研究方向:水土保持。E-mail:958659810@qq.com

引用本文:

王坤香, 王克勤. 昆明松花坝水源区坡耕地对集水区产流产沙的影响[J]. 中国水土保持科学, 2017, 15(6): 66-72.
WANG Kunxiang, WANG Keqin. Effects of sloping land on the runoff and sediment on catchment area in Songhuaba Reservoir in Kunming.. SSWC, 2017, 15(6): 66-72.

链接本文:

http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2017.06.008 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2017/V15/I6/66

[1]	郑文杰,郑毅.云南省水土流失概况及水土保持措施[J].湖北农业科学,2005,6(4):4. ZHENG Wenjie, ZHENG Yi. Situation and countermeasures of the soil and water erosion in Yunnan province[J].Hubei Agricultural Sciences,2005,6(4):4.
[2]	李锐.中国水土流失基础研究的机遇与挑战[J].自然杂志,2008,30(1):6. LI Rui. Opportunities and challenges of basic research on soil and water loss in China[J]. Chinese Journal of Nature,2008,30(1):6.
[3]	李裕元,邵明安.土壤翻耕对坡地水分转化与产流产沙特征的影响[J].农业工程学报,2003,19(1):46. LI Yuyuan, SHAO Mingan. Impact of tillage on water transformation and runoff-sediment-yielding characteristics on slop land[J].Transaction of the CSAE,2003,19(1):46.
[4]	王礼先,朱金兆.水土保持学[M].北京:中国林业出版社,2005:84. WANG Lixian, ZHU Jinzhao. Soil and water conservation[M].Beijing:China Forestry Publishing House,2005:84.
[5]	汪邦稳,肖胜生,张光辉,等.南方红壤区不同利用土地产流产沙特征试验研究[J].农业工程学报,2012,28(2):239. WANG Bangwen, XIAO Shengsheng, ZHANG Guanghui, et al. Study on runoff and sediment yield characteristics under different land uses in red soil area of Southern China[J]. Transactions of the CSAE,2012, 28(2):239.
[6]	陈奇伯,王克勤,刘芝琴,等.金沙江干热河谷封禁管护坡面的产流产沙特征[J].水土保持研究,2006,(4):43. CHEN Qibo, WANG Keqin, LIU Zhiqin, et al. Characteristic of runoff and sediment production on slope land of enclosure for recovering vegetation in dry-hot valley of Jinsha River Basin[J]. Research of Soil Water Conservation, 2006,(4):43.
[7]	彭文英,张科利.不同土地利用产流产沙与降雨特征的关系[J].水土保持通报,2001,21(4):4. PENG Wenying, ZHANG Keli. Relationship of runoff and sediment with rainfall characteristics in different land use[J].Bulletin of Soil and Water Conservation,2001,21(4):4.
[8]	顾慰祖.利用环境同位素及水文实验研究集水区产流方式[J].水利学报,1995,5(5):9. GU Weizu. Various patterns of basin runoff generation identified by hydrological experiment and water tracing[J].Journal of Hydraulic Engineering,1995,5(5):9.
[9]	徐秋宁,马孝义,娄宗科,等.小型集水区降雨径流计算模型研究[J].水土保持研究,2002,3(1):139 XU Qiuning, MA Xiaoyi, LOU Zongke, et al. Research on SCS model of the small watershed rain runoff calculating[J].Research of Soil and Water Conservation,2002,3(1):139.
[10]	程琳琳,赵文武,张银辉,等.集水区尺度降雨侵蚀力空间分布对土壤流失的影响[J].农业工程学报,2009,12(12):69. CHENG Linlin, ZHAO Wenwu, ZHANG Yinhui, et al. Effect of spatial distribution of rainfall erosivity on soil loss at catchment scale[J]. Transactions of the CSAE, 2009,12(12):69.
[11]	刘海,陈奇伯,王克勤,等.元谋干热河谷林地和农地集水区尺度水土流失对比研究[J].中国水土保持,2012(7):57. LIU Hai,CHEN Qibo,WANG Keqin,et al. Comparative study on the soil and water loss on forest land and farmland catchment area in Yuanmou dry-hot valley region[J]. Soil and Water Conservation in China,2012(7):57.
[12]	刘向东,吴钦孝,赵鸿雁.森林植被垂直截留作用与水土保持[J].水土保持研究,1994,1(3):8. LIU Xiangdong, WU Qinxiao, ZHAO Hongyan. The vertical Interception function of forest vegetation and soil and water conservation[J].Research of Soil and Water Conservation,1994,1(3):8.
[13]	李苗苗,王克勤,陈志忠,等.不同坡度下反坡水平阶的蓄水减沙效益[J].水土保持研究,2011,18(6):100. LI Miaomiao, WANG Keqin, CHEN Zhizhong, et al. Storage of water and sediment reduction benefits of reverse-slope terrace under the different slopes[J]. Research of Soil and Water Conservation,2011,18(6):100.
[14]	高天天,王克勤,陈志中,等.松花坝水源区水窖对坡耕地地表径流及N、P输出的控制效果[J].中国水土保持,2013,5(20):42. GAO Tianian, WANG Keqin, CHEN Zhizhong, et al. Control effect of rainfall collecting cellar in Songhuaba water source area to surface runoff and nitrogen and phosphorus output of slop farmland[J]. Soil and Water Conservation in China,2013,5(20):42.
[15]	孔维健,周本智,傅懋毅,等.不同土地利用类型水土保持特征研究[J].南京林业大学学报(自然科学版),2009,7(4):59. KONG Weijian, ZHOU Benzhi, FU Maoyi, et al. Effects of different land-use on characteristics of soil and water conservation[J].Journal of Nanjing Forestry University(Natural Science Edition),2009,7(4):59.
[16]	张旭昇,薛天柱,马灿,等.雨强和植被覆盖度对典型坡面产流产沙的影响[J].干旱区资源与环境,2012,6(26):68. ZHANG Xusheng, XUE Tianzhu, MA Can, et al. Impacts of rainfall intensity and grass coverage on runoff and sediment yield on typical sloping land[J].Journal of Arid Land Resources and Environment,2012,6(26):68.