PDF Download HTML

]" id="html" rel="external">HTML

[1]GUAN Xinjian,ZHANG Yiming,MENG Yu,et al.Runoff Series Mutation Test and Environmental Flow Composition Analysis —A Case Study of the Wangjiaba of Main Stream of the Huai River[J].Research of Soil and Water Conservation,2020,27(01):353-359.

Copy

Runoff Series Mutation Test and Environmental Flow Composition Analysis —A Case Study of the Wangjiaba of Main Stream of the Huai River

Research of Soil and Water Conservation[ISSN 1005-3409/CN 61-1272/P] Volume: 27 Number of periods: 2020 01 Page number: 353-359 Column: Public date: 2020-02-20

Title:: Runoff Series Mutation Test and Environmental Flow Composition Analysis —A Case Study of the Wangjiaba of Main Stream of the Huai River

Author(s):: GUAN Xinjian¹, ZHANG Yiming¹, MENG Yu¹, LIU Xin²; (1.School of Water Conservancy Science & Engineering, Zhengzhou University, Zhengzhou 450001, China; 2.Zhongke Huashui Construction Management Co., Ltd, Zhengzhou 450000, China)

Keywords:: environmental flow; mutation test; IHA; RVA; Wangjiaba

CLC:: P333

DOI:: -

Abstract:: As an important factor in maintaining the healthy operation of river ecosystems, environmental flow plays an increasingly important role in water management and optimal allocation. In order to analyze the variation of the runoff series of the Wangjiaba in the Huaihe River, and analyze the composition of the environmental flow, and provide reference for the optimal allocation of water resources, Wangjiaba station of the Huai River Basin main stream was taken as an example, the Mann-Kendall method and the Pettitt method were used to detect the mutation of the flow sequence. The hydrological analysis technique(IHA)and range of variability approach(RVA)were used to analyze the environmental flow composition and hydrological ecological characteristics. The results showed that the runoff sequence of Wangjiaba station was mutated in 1984; the annual average of the flow rate after the mutation had increased, and the low flow rate and high pulse environment flow components accounted for a large proportion. The hydrological indicators were all low or moderate changes. In summary, the ecological characteristics of Wangjiaba after the mutation are developing towards a good direction, but it is still necessary to combine ecological scheduling and rational water resources optimization in order to further improve and maintain the health of the river ecosystem.

References:: [1] 徐宗学,武玮,于松延.生态基流研究:进展与挑战[J].水力发电学报,2016,35(4):1-11.
[2] Tennant D L. Instream flow regimes for fish, wildlife, recreation and related environmental resources[J]. Fisheries, 1976,1(4):6-10.
[3] Richter B D, Baumgartner J V, Powell J, et al. A method for assessing hydrologic alteration within ecosystems[J]. Conservation Biology, 1996,10(4):1163-1174.
[4] Richter B D, Baumgartner J V, Wigington R, et al. How much water does a river need[J]. Freshwater Biology, 1997,37(1):231-249.
[5] 李文君,邱林,陈晓楠,等.基于集对分析与可变模糊集的河流生态健康评价模型[J].水利学报,2011,42(7):775-782.
[6] Suen J P, Herricks E E. Developing fish community based ecohydrological indicators for water resources management in Taiwan[J]. Hydrobiologia, 2009,625(1):223-234.
[7] 段唯鑫,郭生练,王俊.长江上游大型水库群对宜昌站水文情势影响分析[J].长江流域资源与环境,2016,25(1):120-130.
[8] 潘彬,韩美,倪娟.黄河下游近50年径流量变化特征及影响因素[J].水土保持研究,2017,24(1):122-127.
[9] 潘扎荣,阮晓红,朱愿福,等.近50年来淮河干流径流演变规律分析[J].水土保持学报,2013,27(1):51-59.
[10] 张敬平,黄强,赵雪花.漳泽水库径流时间序列变化特征与突变分析[J].干旱区资源与环境,2014,28(1):131-135.
[11] 唐为安,田红,卢燕宇,等.1961—2010降水和土地利用变化对淮河干流上中游径流的影响[J].生态环境学报,2015,24(10):1647-1653.
[12] 王学雷,姜刘志.三峡工程蓄水前后长江中下游环境流特征变化研究[J].华中师范大学学报:自然科学版,2015,49(5):797-804.
[13] 孟钰,张翔,夏军,等.水文变异下淮河长吻鮠生境变化与适宜流量组合推荐[J].水利学报,2016,47(5):626-634.
[14] 薛联青,张卉,张洛晨,等.基于改进RVA法的水利工程对塔里木河生态水文情势影响评估[J].河海大学学报:自然科学版,2017,45(3):189-196.

Similar References:

Memo

Last Update: 2020-02-25