Liu Chunyue,Xin Zhongbao,Qin Ruijie,et al.Variation of Runoff and Sediment of the Typical Watershed in Loess Hilly Region in the Different Hydrological Years During the Period from 1986 to 2018[J].Research of Soil and Water Conservation,2024,31(01):126-135.[doi:10.13869/j.cnki.rswc.2024.01.023]
1986—2018年黄土丘陵区典型小流域不同水文年水沙变化
- Title:
- Variation of Runoff and Sediment of the Typical Watershed in Loess Hilly Region in the Different Hydrological Years During the Period from 1986 to 2018
- 文章编号:
- 1005-3409(2024)01-0126-10
- Keywords:
- Loess Plateau; runoff and sediment variation; wet year; soil and water conservation measures; trend analysis; attribution analysis
- 分类号:
- S157.1
- 文献标志码:
- A
- 摘要:
- [目的]探讨黄土丘陵区罗玉沟典型小流域水沙变化趋势以及不同水文年径流输沙对水土流失治理的响应差异,量化降水和人类活动对流域水沙影响的相对贡献,以期为黄土丘陵第三副区流域水土流失治理和水资源管理提供参考。[方法]基于罗玉沟流域1986—2018年的降雨、径流、输沙等数据,采用Mann-Kendall检验法、累积距平法及双累积曲线法分析流域水沙变化趋势及驱动因素。[结果]1986—2018年罗玉沟流域河流由常流河转变为季节性河流,干河日数显著上升(p<0.01),2000年以来干河日数多在300 d以上; 同期,罗玉沟流域径流输沙显著下降(p<0.05),与基准期1986—1993年相比,1994—2007年减水减沙率分别为61.9%,44.3%,2008—2018年径流输沙分别减少67.5%,76.4%; 在2008—2018年平水年和枯水年间罗玉沟流域输沙模数分别为(1 080.0±107.5)t/km2,(167.8±111.4)t/km2,而在暴雨频发丰水年,输沙模数仍接近4 000 t/km2; 流域产流产沙能力降低,水沙关系发生改变,相同径流条件下输沙量减少,即流域径流含沙量水平降低,开始变清; 相比降雨变化而言,人类活动是流域水沙变化的主导因素,1994—2007年人类活动对减水减沙的贡献率分别为83.3%和79.5%,而2008—2018年人类活动的贡献率分别为91.8%,94.4%,表明流域水沙变化受人类活动影响越来越大,其中,坡改梯及退耕还林还草工程是主要影响因素。[结论]因沟道治理工程建设不足,罗玉沟流域在丰水年因沟道重力侵蚀导致流域输沙仍然剧烈,因此,需要加强沟道治理进一步减少流域水土流失。
- Abstract:
- [Objective] The aims of this study are to explore the variation trend of water and sediment in the watershed and the differences in the response of runoff and sediment transport to soil and water loss control in different hydrological years, to quantify the relative contributions of rainfall and human activities to the water and sediment in the watershed, and to provide reference for water and soil loss control and water resources management in the third sub-region of the loess hills. [Methods] Based on the data of precipitation, runoff and sediment transport in Luoyugou Watershed of loess hilly region from 1986 to 2018, the water and sediment trend and driving factors were explored by using Mann-Kendall test, cumulative anomaly method and double cumulative curve method. [Results] From 1986 to 2018, the rivers in Luoyugou Watershed changed to seasonal river from permanent river and the number of dry river days increased significantly(p<0.01), with more than 300 dry river days since 2000. During the same period, the rnmoff and sediment transport in Luoyugou Watershed decreased significantly(p<0.05), relatively to those in 1986—1993, the runoff and sediment transport from 1994 to 2007 reduced by 61.9% and 44.3%, respectively. The runoff and sediment transport from 2008 to 2018 reduced by 67.5% and 76.4%, respectively. In normal year and dry year, the sediment transport modulus in Luoyugou Watershed from 2008 to 2018 was(1 080.0±107.5)t/km2 and(167.8±111.4)t/km2, respectively. However, the transport modulus of sediment was still close to 4 000 t/km2 in wet years. The capacity of runoff and sediment yield decreased, the relationship between water and sediment changed, the sediment transport decreased under the same runoff condition, i. e., the runoff sediment content level decreased and the runoff began to become clear. Compared with rainfall change, human activities were the dominant factor on water and sediment change in the watershed. The contribution rate of human activities to runoff and sediment reduction from 1994 to 2007 was 83.3% and 79.5%, respectively, while the contribution rate of human activities from 2008 to 2018 was 91.8% and 94.4%, respectively, indicating that runoff and sediment change in the watershed was increasingly influenced by human activities. Among them, the slope to terrace project and the project of returning farmland to forest or grassland were the main influencing factors. [Conclusion] Due to the lack of channel control project construction and the gravity erosion of the channel in wet years, there is still server sediment transport in Luoyugou Watershed. Therefore, it is necessary to enhance the channel control to further reduce soil and water loss in the watershed.
参考文献/References:
[1] 隆院男,唐蓉,蒋昌波,等.近60年湘江流域水沙特性及其对人类活动的响应[J].农业工程学报,2018,34(24):132-143.
Long Y N, Tang R, Jiang C B, et al. Variability characteristics of runoff-sediment discharge and their response to human activities in Xiang River Basin in recent 60 years[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018,34(24):132-143.
[2] 郭彦,侯素珍,夏润亮,等.1955—2014年黄河内蒙古河段水沙变化特征分析[J].水资源与水工程学报,2020,31(4):70-77.
Guo Y, Hou S Z, Xia R L, et al. Characteristics of runoff-sediment variation in Inner Mongolia Reach of Yellow River from 1955 to 2014[J]. Journal of Water Resources & Water Engineering, 2020,31(4):70-77.
[3] 谢发兵,赵广举,穆兴民,等.黄河干流近70年来水沙关系变化[J].中国水土保持科学(中英文),2021,19(5):1-9.
Xie F B, Zhao G J, Mu X M, et al. Variation of runoff and sediment load in the mainstream of the Yellow River over the past 70 years[J]. Science of Soil and Water Conservation, 2021,19(5):1-9.
[4] 穆兴民,李朋飞,刘斌涛,等.1901—2016年黄土高原土壤侵蚀格局演变及其驱动机制[J].人民黄河,2022,44(9):36-45.
Mu X M, Li P F, Liu B T, et al. Spatial-temporal development and driving mechanisms of erosion on the Chinese Loess Plateau between 1901 and 2016[J]. Yellow River, 2022,44(9):36-45.
[5] 谢敏,张晓明,赵阳,等.北洛河流域水沙变化对降雨和土地利用的响应[J].中国水利水电科学研究院学报,2019,17(1):39-44.
Xie M, Zhang X M, Zhao Y, et al. The mechanism of response of runoff and sediment yield to precipitation and LUCC in Beiluohe River basin[J]. Journal of China Institute of Water Resources and Hydropower Research, 2019,17(1):39-44.
[6] 金钊.黄土高原小流域退耕还林还草的生态水文效应与可持续性[J].地球环境学报,2022,13(2):121-131.
Jin Z. Ecohydrological effects and sustainability of the Grain for Green Project on the Chinese Loess Plateau[J]. Journal of Earth Environment, 2022,13(2):121-131.
[7] 彭杨,陈仕豪,时玉龙.黄河下游水沙变化多时间尺度集对分析[J].泥沙研究,2021,46(2):35-41.
Peng Y, Chen S H, Shi Y L, et al. Multiple time-scale set pair analysis on relationship between runoff and sediment in the lower Yellow River[J]. Journal of Sediment Research, 2021,46(2):35-41.
[8] 宁怡楠,杨晓楠,孙文义,等.黄河中游河龙区间径流量变化趋势及其归因[J].自然资源学报,2021,36(1):256-269.
Ning Y N, Yang X N, Sun W Y, et al. The trend of runoff change and its attribution in the middle reaches of the Yellow River[J]. Journal of Natural Resources, 2021,36(1):256-269.
[9] 范俊健,赵广举,穆兴民,等.1956—2017年黄河上游水沙变化及其驱动因素[J].中国水土保持科学(中英文),2022,20(3):1-9.
Fan J J, Zhao G J, Mu X M, et al. Variation of runoff and sediment load and their driving factors on the upper stream of the Yellow River from 1956 to 2017[J]. Science of Soil and Water Conservation, 2022,20(3):1-9.
[10] 魏艳红,焦菊英.皇甫川流域1955—2013年水沙变化趋势与周期特征[J].水土保持研究,2017,24(3):1-6.
Wei Y H, Jiao J Y. Variation tendency and periodic characteristics of streamflow and sediment discharge in Huangfuchuan Watershed from 1955 to 2013[J]. Research of Soil and Water Conservation, 2017,24(3):1-6.
[11] 许文龙,赵广举,穆兴民,等.近60年黄河上游干流水沙变化及其关系[J].中国水土保持科学,2018,16(6):38-47.
Xu W L, Zhao G J, Mu X M, et al. Variations and correlations of runoffs and sediment loads in the main stream of the upper reaches of the Yellow River over the past 60 years[J]. Science of Soil and Water Conservation, 2018,16(6):38-47.
[12] 冉大川,张栋,董飞飞,等.西柳沟流域近期水沙关系变化特征分析[J].人民黄河,2015,37(12):1-5.
Ran D C, Zhang D, Dong F F, et al. Characteristics of the recent change of relationship between runoff and sediment in Xiliugou Watershed[J]. Yellow River, 2015,37(12):1-5.
[13] 蔺鹏飞,张晓萍,刘二佳,等.黄土高原典型流域水沙关系对退耕还林(草)的响应[J].水土保持学报,2015,29(1):1-6.
Lin P F, Zhang X P, Liu E J, et al. Responses of the water and sediment behavior to vegetation restoration in typical catchments on the Loess Plateau[J]. Journal of Soil and Water Conservation, 2015,29(1):1-6.
[14] 秦瑞杰,李桂芳,李平.降水和土地利用变化对罗玉沟流域水沙关系的影响[J].水土保持学报,2018,32(5):29-34,40.
Qin R J, Li G F, Li P. Impacts of precipitation and land use change on runoff and sediment in Luoyugou Watershed[J]. Journal of Soil and Water Conservation, 2018,32(5):29-34,40.
[15] 薛帆,张晓萍,张橹,等.基于Budyko假设和分形理论的水沙变化归因识别:以北洛河流域为例[J].地理学报,2022,77(1):79-92.
Xue F, Zhang X P, Zhang L, et al. Attribution recognition of streamflow and sediment changes based on the Budyko hypothesis and fractal theory: A case study in the Beiluo River Basin[J]. Acta Geographica Sinica, 2022,77(1):79-92.
[16] 蒋凯鑫,于坤霞,曹文洪,等.黄土高原典型流域水沙变化归因对比分析[J].农业工程学报,2020,36(4):143-149.
Jiang K X, Yu K X, Cao W H, et al. Attributional comparative analysis of runoff and sediment change in typical basin of Loess Plateau[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020,36(4):143-149.
[17] 夏露,马耘秀,宋孝玉,等.黄河中游昕水河流域水沙变化及归因研究[J].水土保持学报,2021,35(6):109-115.
Xia L, Ma Y X, Song X Y, et al. Study on the variation and attribution of runoff and sediment in Xinshui River Watershed of middle Yellow River[J]. Journal of Soil and Water Conservation, 2021,35(6):109-115.
[18] 张涵丹,卫伟,薛萐.基于R/S分析和Mann-Kendall检验的定西市气温降水变化特征[J].水土保持研究,2015,22(6):183-189.
Zhang H D, Wei W, Xue S. Analysis on the variation of temperature and precipitation in Dingxi based on R/S and Mann-Kendall test[J]. Research of Soil and Water Conservation, 2015,22(6):183-189.
[19] 穆兴民,张秀勤,高鹏,等.双累积曲线方法理论及在水文气象领域应用中应注意的问题[J].水文,2010,30(4):47-51.
Mu X M, Zhang X Q, Gao P, et al. Theory of double mass curves and its applications in hydrology and meteorology[J]. Journal of China Hydrology, 2010,30(4):47-51.
[20] 中华人民共和国水利部.水文情报预报规范:GB/T 22482-2008 [S].北京:中国标准出版社,2008:1-10.
Ministry of Water Resources of the People's Republic of China. Standard for hydrological information and hydrological forecasting:GB/T 22482-2008 [S]. Beijing: Standards Press of China, 2008:1-10.
[21] 史运良,杨戊,任美锷.长江中下游干流的逆时针型水沙关系分析[J].地理学报,1986,53(2):157-167.
Shi Y L, Yang W, Ren M E. Analysis of discharge-sediment concentration with counterclockwise correlations at the middle and lower Changjiang[J]. Acta Geographica Sinica, 1986,53(2):157-167.
[22] 任美锷,史运良.黄河输沙及其对渤海、黄海沉积作用的影响[J].地理科学,1986,6(1):1-12,101.
Ren M E, Shi Y L. Sediment discharge of the Yellow River and its effect on sedimentation of the Bohai and Yellow Sea[J]. Scientia Geographica Sinica, 1986,6(1):1-12,101.
[23] 茅廷,雷启祥,韩玉峰.天水罗玉沟流域梯田效益分析[J].中国水土保持,1991,12(2):47-49,66.
Mao T, Lei Q X, Han Y F. Analysis on benefits of terraced field in Luoyugou Gully Watershed in Tianshui city[J]. Soil and Water Conservation in China, 1991,12(2):47-49,66.
[24] 安乐平,赵力毅,脱忠平.天水市罗玉沟流域治理实践与思考[J].中国水土保持,2021,42(6):20-24.
An L P, Zhao L Y, Tuo Z P. Practice and thoughts on Luoyugou Watershed treatment in Tianshui city[J]. Soil and Water Conservation in China, 2021,42(6):20-24.
[25] 韩洁春.罗玉沟流域土地利用变化的水文响应研究[D].北京:北京林业大学,2011.
Han J C. Hydrological response on land use change in Luoyugou Watershed[D]. Beijing: Beijing Forestry University, 2011.
[26] 易扬,信忠保,覃云斌,等.生态植被建设对黄土高原农林复合流域景观格局的影响[J].生态学报,2013,33(19):6277-6286.
Yi Y, Xin Z B, Qin Y B, et al. Impact of ecological vegetation construction on the landscape pattern of a Loess Plateau watershed[J]. Acta Ecologica Sinica, 2013,33(19):6277-6286.
[27] 寇馨月,王玉杰,张晓明,等.黄土丘陵第Ⅲ副区典型流域水沙演变过程及其驱动因素分析[J].北京林业大学学报,2015,37(7):85-93.
Kou X Y, Wang Y J, Zhang X M, et al. Runoff-sediment relationship and driving force of typical watershed in the third sub-region of hilly loess area, northwestern China[J]. Journal of Beijing Forestry University, 2015,37(7):85-93.
[28] 张琳玲.罗玉沟流域综合治理措施配置及效益探讨[J].人民黄河,2012,34(12):96-99.
Zhang L L. Study of comprehensive management of Luoyugou Watershed and its effectiveness[J]. Yellow River, 2012,34(12):96-99.
[29] 张晓明,余新晓,武思宏,等.黄土丘陵沟壑区典型流域土地利用/土地覆被变化对径流产沙的影响[J].北京林业大学学报,2007,29(6):115-122.
Zhang X M, Yu X X, Wu S H, et al. Landuse-landcover change on sediment production of runoff in typical watershed in the loess gully-hilly region of China[J]. Journal of Beijing Forestry University, 2007,29(6):115-122.
[30] 刘卉芳,鲁婧,王昭艳,等.黄土区典型小流域降水变化下的水沙响应研究[J].水生态学杂志,2017,38(4):11-17.
Liu H F, Lu J, Wang Z Y, et al. Response of water and sediment to rainfall in a typical watershed of the Loess Plateau[J]. Journal of Hydroecology, 2017,38(4):11-17.
[31] 安乐平,秦瑞杰,康廷祥,等.黄土丘陵沟壑区罗玉沟流域水沙特性分析[J].中国水土保持,2014,35(12):36-39,69.
An L P, Qin R J, Kang T X, et al. Characteristic of runoff and sediment of Luoyugou Watershed of gullied rolling loess area[J]. Soil and Water Conservation in China, 2014,35(12):36-39,69.
[32] 郑明国.基于水沙关系框架的黄土区不同水保措施减沙贡献分割方法[J].农业工程学报,2020,36(7):173-183.
Zheng M G. Partition of reducing sediment for various soil and water conservation measures of Loess Plateau in China based on runoff-sediment relationship[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020,36(7):173-183.
[33] 刘晓燕,党素珍,高云飞,等.黄土丘陵沟壑区林草变化对流域产沙影响的规律及阈值[J].水利学报,2020,51(5):505-518.
Liu X Y, Dang S Z, Gao Y F, et al. The rule and threshold of the effect of vegetation change on sediment yield in the loess hilly region, China[J]. Journal of Hydraulic Engineering, 2020,51(5):505-518.
[34] 晏清洪,原翠萍,雷廷武,等.黄土丘陵沟壑区吕二沟流域水沙关系变化分析[J].中国水土保持科学,2013,11(5):1-8.
Yan Q H, Yuan C P, Lei T W, et al. Variation in the rainfall-runoff-sediment delivery relationships of Lu'ergou Watershed in the hilly-gully region on the Loess Plateau[J]. Science of Soil and Water Conservation, 2013,11(5):1-8.
[35] 刘卉芳,朱毕生,解刚,等.黄土区小流域植被/工程复合作用下的泥沙效应[J].水生态学杂志,2017,38(5):7-13.
Liu H F, Zhu B S, Xie G, et al. Vegetation combined with engineering controls for sediment reduction on the loess plateau[J]. Journal of Hydroecology, 2017,38(5):7-13.
[36] Zhang J J, Gao G Y, Fu B J, et al. Formulating an elasticity approach to quantify the effects of climate variability and ecological restoration on sediment discharge change in the Loess Plateau, China[J]. Water Resources Research, 2019,55(11):9604-9622.
相似文献/References:
[1]白桦,穆兴民,王双银.水土保持措施对秃尾河径流的影响[J].水土保持研究,2010,17(01):40.
BAI Hua,MU Xing-min,WANG Shuang-yin.Impact of Soil and Water Conservation on River Flow of Tuwei River[J].Research of Soil and Water Conservation,2010,17(01):40.
[2]杨国安,徐勇,郭腾云.基于脆弱性和可持续生计视角的黄土高原生态环境治理研究[J].水土保持研究,2010,17(02):64.
YANG Guo-an,XU Yong,GUO Teng-yun.Eco-environmental Construction on the Loess Plateau Based on the Perspective of the Vulnerability and Sustainable Livelihoods Approaches[J].Research of Soil and Water Conservation,2010,17(01):64.
[3]肖培青,姚文艺,张海峰.黄土高原植被固土减蚀作用研究进展[J].水土保持研究,2012,19(06):282.
XIAO Pei-qing,YAO Wen-yi,ZHANG Hai-feng.Research Progress of the Role of Vegetation in Soil Conservtion and Soil Erosion Reduction on the Loess Plateau[J].Research of Soil and Water Conservation,2012,19(01):282.
[4]马芹,张晓萍,万龙,等.黄土高原河龙区间最大日雨量(PMP)极值拟合及时空演变特征[J].水土保持研究,2012,19(02):71.
MA Qin,ZHANG Xiao-ping,WAN Long,et al.Fitting of the PMP Values and Identifying Its Spatiotemporal Characteristics in the Helong Section on the Loess Plateau[J].Research of Soil and Water Conservation,2012,19(01):71.
[5]卓玛兰草,刘普幸,张亚宁,等.甘肃黄土高原区潜在蒸散量时空变化与成因研究[J].水土保持研究,2012,19(01):70.
ZHUO Malancao,LIU Pu-xing,ZHANG Ya-ning,et al.Study on Temporal and Spatial Changes of the Potential Evapotranspiration and Its Impact Factors in Loess Plateau of Gansu Province[J].Research of Soil and Water Conservation,2012,19(01):70.
[6]施宇,温仲明,龚时慧,等.黄土丘陵区植物功能性状沿气候梯度的变化规律[J].水土保持研究,2012,19(01):107.
SHI Yu,WEN Zhong-ming,GONG Shi-hui,et al.Trait Variations along a Climatic Gradient in Hilly Area of Loess Plateau[J].Research of Soil and Water Conservation,2012,19(01):107.
[7]穆兴民,陈国良,徐学选.黄土高原降水量与地理因素关系分析[J].水土保持研究,1992,(02):80.
Mu Xingmin,Chen Guoliang,Xu Xuexuan.ANALYSIS OF THE RELATIONSHIP BETWEEN PRECIPITATION AND GEOGRAPICAL FACTORS IN LOESS PLATEAU[J].Research of Soil and Water Conservation,1992,(01):80.
[8]刘静.数字化地形模型(DTM)在水土保持中的应用[J].水土保持研究,1992,(02):96.
Liu Jeng.ESTABLSHING AND APPLICATION OF DTM FOR SOIL AND WATER CONSERVATION[J].Research of Soil and Water Conservation,1992,(01):96.
[9]赵安成.陇东黄土高原沟壑区典型小流域治理模式剖析[J].水土保持研究,1994,1(01):45.
Zhao Ancheng.Analysis of Control Models of Typical Small Watershedin Gully Area of Loess Plateau, the East Part of Gansu Province[J].Research of Soil and Water Conservation,1994,1(01):45.
[10]吴钦孝,汪有科,韩冰,等.黄土高原水土流失区的林草资源和植被建设[J].水土保持研究,1994,1(03):2.
Wu Qinxiao,Wang Youke,Han Bing,et al.Forest and Grassland Resources and Vegetation Construction in The Soil and Water Loss Region of The Loess Plateau[J].Research of Soil and Water Conservation,1994,1(01):2.
备注/Memo
收稿日期:2022-10-28 修回日期:2022-12-19
资助项目:国家自然科学基金“黄土高原水土保持措施对小流域泥沙连通性的影响机制”(42177319)
第一作者:刘春月(1999—),女,内蒙古呼伦贝尔人,硕士研究生,主要从事水土保持研究。E-mail:liuchunyue66@163.com
通信作者:信忠保(1978—),男,山东临沂人,教授,博士生导师,主要从事水土保持研究。E-mail:xinzhongbao@126.com