帮助 关于我们

返回检索结果

金沙江下游鱼类栖息地评估和保护优先级研究
HABITAT ASSESSMENT AND CONSERVATION PRIORITY FOR FISHES IN THE LOWER JINSHA RIVER

查看参考文献35篇

文摘 为了给受金沙江下游水电开发影响的鱼类筛选合适的支流进行栖息地保护,对金沙江下游12条支流进行了鱼类栖息地评估和保护优先级的研究。通过河段分类-河段样方调查-河流整体评估的路线评估了支流栖息地质量;通过2次流动调查,结合历史资料获取了各支流的特有鱼类种数;最后,结合栖息地评估结果、各支流的特有鱼类种数、年径流量和水电开发强度,运用分层排序法,得出了各支流的保护优先级,由高到低依次为:牛栏江>西溪河>黑水河>普渡河>龙川江>鲹鱼河>西宁河>美姑河>以礼河>普隆河>勐果河>小江。建议将乌东德库区的龙川江和鲹鱼河、白鹤滩库区的黑水河和普渡河、溪洛渡库区的牛栏江和西溪河,以及向家坝库区的西宁河作为金沙江下游鱼类优先保护支流。
其他语种文摘 Dam construction is a major threat of human activities to freshwater fish species.River damming often leads to habitat segregation,degradation and loss,and ultimately extirpates some aboriginal fish species.Four large cascade dams(Wudongde,Baihetan,Xiluodu and Xiangjiaba)are being built or will be built in the future in the lower reach of the Jinsha River.Many fish species in the Lower Jinsha River are likely to be threatened by the impoundment because of the tremendous change of their habitats.Moreover,among these fishes,some endemic fishes of the Upper Yangtze River need the rapidly flowing tributaries of the Lower Jinsha River as substitute habitats to spawn and survive.In order to optimize the utilization of limited habitat resources to conserve the fish species threatened by the cascade dams,the present study assessed the fish habitats of 12tributaries of the Lower Jinsha River and set their conservation priorities based on habitat evaluation and other related concerns.The habitat evaluation was realized based on a new method combining spatial data analysis and field surveys.Firstly,at the reach(approximately10km)level,168reaches of the 12tributaries were classified into 9groups on the basis of seven criteria:gradient,altitude,width,reach order,sinuosity,riparian vegetation index and dam construction status.Spatial data of these criteria was derived from Spot Maps in the Google Earth and digital elevation map and land cover map in the Geographical Information System.Secondly,several reach samples of each identified reach group were surveyed in the field at the microhabitat level using an adjusted qualitative habitat evaluation index derived from the original version of the Environmental Protection Agency of the United States.Thirdly,each reach group was scored using a weighted-mean method,and subsequently each tributary was evaluated with the same approach.On the other hand,twice recent fish samplings were conducted in some reaches of several tributaries. The surveyed and historical fish sampling data was then used to determine the richness of endemic fish species in each tributary.Finally,the habitat evaluation results,the richness of endemic fish species,the annual runoff and the total number of dams were used to set the conservation priority of each tributary with a hierarchical ranking method.The all 12tributaries were ranked by their priorities as follows:Niu-lan>Xi-xi> Hei-shui>Pu-du> Long-chuan> Can-yu>Xi-ning> Mei-gu> Yi-li>Pu-long> Meng-guo>Xiao-jiang.In order to conserve at least one to two tributaries in each of the four future reservoirs,seven tributaries were chosen according to the ranking list.These tributaries were:Long-chuan and Can-yu in the Wudongde Reservoir,Hei-shui and Pu-de in the Baihetan Reservoir,Niu-lan and Xi-xi in the Xiluodu Reservoir,and Xi-ning in the Xiangjiaba Reservoir.To conserve fishes in these tributaries,reaches with high habitat qualities should also be first protected.Specific conservation policies and projects on these priority tributaries should be designed in the not too distant future.
来源 长江流域资源与环境 ,2014,23(4):496-503 【核心库】
关键词 金沙江下游 ; 特有鱼类 ; 栖息地 ; 保护优先级
地址

中国科学院水生生物研究所, 中国科学院水生生物多样性与保护重点实验室, 湖北, 武汉, 430072

语种 中文
文献类型 研究性论文
ISSN 1004-8227
基金 水利部公益性行业科研专项 ;  国务院三峡工程建设委员会办公室生态环境项目
文献收藏号 CSCD:5124964

参考文献 共 35 共2页

1.  Chen D. Status of research on Yangtze fish biology and fisheries. Environmental Biology of Fishes,2009,85(4):337-357 被引 9    
2.  Quinn J W. Fish assemblage changes in an Ozark river after impoundment:a long-term perspective. Transactions of the American Fisheries Society,2003,132(1):110-119 被引 6    
3.  Gehrke P. Changes in fish communities of the Shoalhaven River 20years after construction of Tallowa Dam,Australia. River Research and Applications,2002,18(3):265-286 被引 9    
4.  Raleigh R F. Habitat suitability index models and instream flow suitability curves: brown trout. Biological report,1986,10(82):57-65 被引 1    
5.  Brown S K. Habitat suitability index models for eight fish and invertebrate species in Casco and Sheepscot Bays,Maine. North American Journal of Fisheries Management,2000,20(2):408-435 被引 26    
6.  易雨君. 长江中华鲟栖息地适合度模型研究. 水科学进展,2007,18(4):538-543 被引 23    
7.  Steffler P. Two-dimensional depth averaged model of river hydrodynamics and fish habitat. River2Duser's manual,2002 被引 1    
8.  Pasternack G B. Application of a 2Dhydrodynamic model to design of reach-scale spawning gravel replenishment on the Mokelumne River,California. River Research and Applications,2004,20(2):205-225 被引 2    
9.  Gaigher I. The habitat preferences of fishes from the Limpopo river system,Transvaal and Mocambique. Koedoe-African Protected Area Conservation and Science,2009,16(1):103-116 被引 1    
10.  Li J. Spatial and temporal variation of fish assemblages and their associations to habitat variables in a mountain stream of north Tiaoxi River,China. Environmental Biology of Fishes,2012:1-15 被引 1    
11.  Kaufmann P R. Quantifying physical habitat in wadeable streams,1999 被引 2    
12.  Oberdorff T. Development and validation of a fish-based index for the assessment of 'river health'in France. Freshwater biology,2002,47(9):1720-1734 被引 11    
13.  O'brien-White S. Evaluating fish habitat in a South Carolina watershed using GIS. proceedings of the Proceedings from the Annual Conference of the Southeast Association of Fish and Wildlife Agencies,1995 被引 1    
14.  Wang L. Development and evaluation of a habitat rating system for low-gradient Wisconsin streams. North American Journal of Fisheries Management,1998,18(4):775-785 被引 1    
15.  Frissell C A. A hierarchical framework for stream habitat classification:viewing streams in a watershed context. Environmental Management,1986,10(2):199-214 被引 33    
16.  Montgomery D R. Channel-reach morphology in mountain drainage basins. Geological Society of America Bulletin,1997,109(5):596-611 被引 23    
17.  Wang L. Delineation and Validation of River Network Spatial Scales for Water Resources and Fisheries Management. Environmental Management,2012:1-13 被引 1    
18.  汤国安. ArcGIS地理信息系统空间分析实验教程,2006 被引 287    
19.  吴薇. 基于土地利用结构变化的沙漠化动态评估——以内蒙古自治区奈曼旗为例. 北京大学学报(自然科学版),2003,39(4):481-488 被引 10    
20.  Clarke K R. Chapter3:Hierarchical clustering. Changes in marine communities:an approach to statistical analysis and interpretation,2nd edition,2001:1-6 被引 1    
引证文献 13

1 王俊 金沙江一期工程蓄水前后绥江段鱼类群落多样性特征 长江流域资源与环境,2017,26(3):394-401
被引 16

2 杨志 黑水河下游鱼类资源现状及其保护措施 长江流域资源与环境,2017,26(6):847-855
被引 14

显示所有13篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号