Estimation of the magnitude of soil and sediment erosion in the Yaraa Valley Basin using the

Authors

  • Ass.Pro PhD Hussein Joban Oreibi Al-Muardhi University of Basra College of Education for Human Sciences

DOI:

https://doi.org/10.32792/tqartj.v2i38.338

Keywords:

water erosion, EPM model, Yara Valley basin, geographic information systems and remote sensing.

Abstract

The Yaraa Valley Basin is part of the Hamrin Hills extending as a strip surrounding the sedimentary plain from the east, parallel to the Zagros Mountains and the Tonel Mountains in Iranian lands. The upper sources of the basin are those extending in Iranian lands, which receive more than 370 mm of rain annually from the humid climate that supplies the basin with water, In addition, the slope of more than 25 degrees, as well as the various geological formations, contributed to the nature of soil erosion in this basin. The aim of this research was to estimate the size of erosion and sediments transferred towards the mouth of the valley, as well as to find appropriate solutions to limit soil deterioration in this aspect. Geographical information and remote sensing in order to apply the equations of the EPM model, and the results extracted from the application of this model showed that the most important factors affecting the intensity of erosion depend on the topographical factor and the lithological factor as well as the change in land use, While the coefficient of Z for potential erosion was about 0.2-1.5, and the volume of erosion in the valley was about 63% of the total basin area, and this confirms that most of the basin area is exposed to severe erosion according to the EPM model.

Downloads

Download data is not yet available.

References

Huang, Wei, et al. "Qualitative risk assessment of soil erosion for karst landforms in Chahe town, Southwest China: A hazard index approach." Catena 144 (2016): 184-193

Huang, Wei, et al. "Qualitative risk assessment of soil erosion for karst landforms in Chahe town, Southwest China: A hazard index approach." Catena 144 (2016): 184-193

Alkharabsheh, M. Minwer, et al. "Impact of land cover change on soil erosion hazard in northern Jordan using remote sensing and GIS." Procedia Environmental Sciences 19 (2013): 912-921.

Ayalew, L. and Yamagishi, H., (2005), The application of GIS- based logistic regression for landslid esusceptibility mapping the Kakuda –yahiko Mountains. central Japan, Geomophology,65, 15–31.

CHRISTOU, ODYSSEAS P. "Quantitative estimation of degradation in the Aliakmon river basin using GIS." Erosion prediction in ungauged basins: integrating methods and techniques 279 (2003): 234.

De Roo, A. P. J. "Modeling surface runoff and erosion in catchments using geographical information systems: Validity and application of the'ANSWERS'model in two catchments in the loess area of south Limburg (UK)." Netherds Geographical studies 157 (1993): 304.

Eisazadeh, L. , Sokouti, R. , Homaee, M. , Pazira, E. "Comparison of empirical models to estimate soil erosion and sediment yield in micro catchments" . Eurasian Journal of Soil Science 1 (2012 ): 28-33

Feng, Xiaoming, et al. "Modeling soil erosion and its response to land-use change in hilly catchments of the Chinese Loess Plateau." Geomorphology 118.3-4 (2010): 239-248.‏

Gavrilovic, Z., (1988), "The use of an empirical method for calculating sediment production and transport in unstudied or torrential streams", International Conference for River Regime, PP.411-422.

Lal, R. "Water management in various crop production systems related to soil tillage." Soil and tillage research 30.2-4 (1994): 169-185.‏

Rouse, J.W.; Haas, R.H.; Schell, j.A. & Deering, D.W. 1973. Monitoring vegetation Systems in the great plains with ERTS. 3rd ERTS Symposium, NASA SP-3511, 309-317.

SOIL WATER ERSSION MODLING IN SELECTED WATERSHED IN SOUTHERN SPINE,IFA,ITC,ENCCHEDE.

Tajgardan, T., SH A. AYOUBI, and JOUYBARI SH SHATAEI. "Soil erosion and sediment yield assessment using MPSIAC model, remote sensing and geographic information systems (Case study: Ziarrat watershed)." (2008): 37-45.

Xing, L.; Yunxuan, Z.; Tian B., Kuang R. & Wang L. 2014. GIS-based methodology for erosion risk assessment of the muddy Coast in the Yangtze Delta. Ocean & Coastal Management, Pub ELSEVIER, 1-12.

Zhang, Wentai, et al. "Characteristics of water erosion and conservation practice in arid regions of Central Asia: Xinjiang, China as an example." International Soil and Water Conservation Research 3.2 (2015): 97-111.‏

-عابدینی موسی، شبرنگ شنو، اسمعلی اباذر. بررسی میزان فرسایش خاک و رسوب دهی در حوضه آبخیز مشکین چای به روش EPM. جغرافیا و توسعه.1392، 87-100.

Downloads

Published

2022-06-29

How to Cite

“Estimation of the Magnitude of Soil and Sediment Erosion in the Yaraa Valley Basin Using the”. 2022. Thi Qar Arts Journal 2 (38): 236-50. https://doi.org/10.32792/tqartj.v2i38.338.

Similar Articles

21-30 of 66

You may also start an advanced similarity search for this article.