XML Persian Abstract Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

gholami M, Ahmadabadi A, ghanavati E. Quantitative Assessment of bank instability of Jajroud river in upstream of Latyan Dam. Journal of Spatial Analysis Environmental Hazards 2024; 11 (1) : 3
URL: http://jsaeh.khu.ac.ir/article-1-3423-en.html
1- University of Kharazmi
2- University of Kharazmi , ahmadabadi@khu.ac.ir
Abstract:   (6314 Views)
The process of erosion and sedimentation on river banks is often accelerated by natural events and human activities, which lead to natural hazards. This process has also faced serious risks in Jajrud river, urban and rural settlements, agricultural lands, construction structures around the river. The Jajroud River has important importance and effects in securing agricultural water rights, feeding underground aquifers, providing drinking water in the region and the green and natural spaces of Fashm, Migun, Lavasanat and downstream, which has been subject to many changes in recent years due to direct and indirect human interference. including the expansion of urban and rural construction, river engineering operations and wall construction along the river, encroachment on the river boundary and changing the course of the river channels, the use of non-native vegetation on the banks of the river, and as a result, the eco-hydro geomorphological conditions of the river have become unstable. The phenomenon of erosion and sedimentation in Jajroud river has brought negative consequences such as changing the bed, accumulation and settling of large amounts of sediment and overflowing of canal water and as a result the risk of flooding.
 
Article number: 3
Full-Text [PDF 1748 kb]   (191 Downloads)    
Type of Study: Research | Subject: Special
Received: 2024/01/12 | Accepted: 2024/01/28 | Published: 2024/06/19

References
1. احمدآبادی، علی؛ طیبه کیانی و پرستو غفورپور عنبران .1396. تحلیل اثرات عملیات آبخیزداری بر خصوصیات هیدروژئومورفولوژی حوضه آبریز عنبرانچای با استفاده از مدل نیمه توزیعیSWAT. برنامه ریزی و آمایش فضا، 21 (2): 35-55.
2. حاجیلی، نگار. 1397. احیاء و بازسازی رودخانه‌های شهری با رویکرد کاهش مخاطرات طبیعی. مطالعه موردی: رودخانه کن تهران.‌ پایان نامه کارشناسی ارشد. دانشگاه خوارزمی تهران.
3. حسین زاده، محمدمهدی؛ سمیه خالقی و فراز واحدی فر. 1396. مقایسه و ارزیابی نتایج مدل NBSو BEHIدر فرسایش کنارهای رودخانه قرانقو چای هشترود. جغرافیا و مخاطرات محیطی، 6 (4): 41-62.
4. روستایی، شهرام؛ علی محمد خورشیددوست و سمیه خالقی .1392. ارزیابی مورفولوژی مجرای رودخانه لیقوان با روش طبقه بندی راسگن، پژوهش های ژئومورفولوژی کمی، (1)4: 1-16.
5. قنواتی، عزت اله. 1390، پهنه بندی لغزش درحوضه جاجرود با استفاده از روش تحلیل سلسله مراتبی. فصل نامه تحقیقات کاربردی علوم جغرافیایی، 20: 51-68.
6. قنواتی، عزت اله؛ امیر کرم و مرضیه آقاعلیخانی. 1391. ارزیابی و پهنه بندی خطر رخداد سیلاب درحوضه فرحزاد (تهران) با استفاده ازمدل فازی. مجله جغرافیا و برنامه ریزی محیطی، 4: 121-138.
7. غفورپور، پرستو؛ علی احمدآبادی و عزت اله قنواتی. یاسی،مهدی. 1401. تحلیل هیدرومورفولوژیک رودخانه کرج در بازه شهری از بیلقان تا پل راه آهن. جغرافیا و پایداری محیط، 13 (1): 21-39
8. واحدی‌فر، فراز .1395. پیش‌بینی و ارزیابی فرسایش کناره‌ای و پایداری آن در رودخانه قرانقو. پایان‌نامه کارشناسی ارشد. دکتر محمدمهدی حسین‌زاده. دکتر سمیه خالقی. دانشگاه شهید بهشتی. تهران.
9. وزارت نیرو .1400. مطالعات ساماندهی رودخانه جاجرود. 145-1
10. یمانی، مجتبی؛ حسین زاده، محمد مهدی. 1382.روش‌های بررسی تغییرات بستر و الگوی رودخانه بابل در محدوده جلگه ساحلی.نشریه علوم جغرافیایی، 2: 52-72.
11. Allmanová, Z.; M. Vlčková; M. Jankovský; M. Allman; and J .Merganič,. 2021. How can stream bank erosion be predicted on small water courses? Verification of BANCS model on the Kubrica watershed. International Journal of Sediment Research, 36(3): 419-429.
12. Amiri-Tokaldani, E.; A .Samadi; H Rahimi. 2006. Effect of the location and depth of tensioncrack of river bank stability. Journal agriculture engineering research, 6(25):77- 94.
13. Coryat, M. 2014. Analysis of the Bank Assessment for Non-point Source consequences of Sediment (BANCS) Approach for the Prediction of Stream bank Stability and Erosion along stony Clove Creek in the Catskills. Master Theses, Syracuse University..
14. Hasanuzzaman, M., B. Bera; A. Islam; and P.K. Shit. 2023. Estimation and prediction of riverbank erosion and accretion rate using DSAS, BEHI, and REBVI models: evidence from the lower Ganga River in India. Natural Hazards, 118: 1163–1190.
15. Karmakera, T.; and S. Duttab. 2013. Modeling seepage erosion and bank retreat in a composite river bank. Journal of Hydrology, 476: 178-187
16. Kessler, A. C.; S.C. Gupta; M. K. Brown. 2013. Assessment of river bank erosion in
17. Southern Minnesota Rivers post European settlement. Geomorphology, 201: 312 322.
18. Kessler, A. C.; S.C. Gupta; M. K. Brown. 2013. Assessment of river bank erosion in
19. Southern Minnesota rivers postEuropean settlement. Geomorphology, 201: 312–322
20. Konsoer,Kory M., L. Rhoads,Bruce; J. Langendoen,Eddy; L. Best,James; M. E; Ursic; D. Abad,Jorge. 2015. Spatial variability in bank resistance to erosion on a large meandering, mixed bedrock-alluvial river. Geomorphology. 252: 80-97.
21. Krishna, G. G.; S. Pal; and S. Mukhopadhyay. 2016. Validation of BANCS model for
22. assessingstream bank erosion hazard potential (SBEHP) in Bakreshwar river of Rarh region, Eastern India. Modeling Earth Systems and Environment, 95(2): 1-15
23. Midgley T. L.; G. A. Fox; D. M. Heeren. 2012. Evaluation of the bank stability and toe erosion model (BSTEM) for predicting lateral retreat on composite stream banks. Geomorphology. 145:107–114.
24. Minghui Y.U; W .Hongyan; L. Yanjie; and H.U. Chunyan. 2010. Study on the stability of non-cohesive river bank, International Journal of Sediment Research, 25(4), 391-398
25. Parker. C.; A. Simon; C. Thorne. 2008. The effects of variability in bank material
26. properties on riverbank stability: Goodwin Creek, Mississippi. Geomorphology, 101: 533–543.
27. Rinaldi, M. and A. Simon. 1998. Bed level adjustments in the Amo River. Central Italy. Geomorphology, 22: 57-71.
28. Rosgen, D.L., 2001, March. A stream channel stability assessment methodology. In Proceedings of the seventh federal interagency sedimentation conference. 2.
29. Wilson, C. G.; R.A. Kuhnle; D. D. Bosch; J. L. Steiner; P. Starks; M. D .Tomer; and G. V Wilson. 2008. Quantifying relative contributions from sediment sources in Conservation Effects Assessment Project watersheds. Journal of Soil and Water Conservation, 63: 523- 531.
30. Wynn, T.M. and S. Mostaghimi. 2006. The Effects of Vegetation and Soil Type on Streambank Erosion, Southwestern Virginia, USA, Journal of the American Water Resources Association, 42 (1): 69-82.

Add your comments about this article : Your username or Email:
CAPTCHA

Send email to the article author


Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

© 2024 CC BY-NC 4.0 | Journal of Spatial Analysis Environmental hazarts

Designed & Developed by : Yektaweb