International Journal of
Water Resources and Environmental Engineering

  • Abbreviation: Int. J. Water Res. Environ. Eng.
  • Language: English
  • ISSN: 2141-6613
  • DOI: 10.5897/IJWREE
  • Start Year: 2009
  • Published Articles: 347

Full Length Research Paper

Rainfall-runoff relation and runoff estimation for Holetta River, Awash subbasin, Ethiopia using SWAT model

Mahtsente Tibebe
  • Mahtsente Tibebe
  • Ethiopian Institute of Agricultural Research, P. O. Box 2003, Addis Ababa, Ethiopia
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Assefa M. Melesse
  • Assefa M. Melesse
  • Department of Earth and Environment, Florida International University, AHC 5-390, 11200 SW 8th Street, Miami FL33199, USA
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Dereje Hailu
  • Dereje Hailu
  • Addis Ababa University, P. O. Box 150368, Addis Ababa, Ethiopia
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  •  Received: 16 July 2015
  •  Accepted: 01 February 2016
  •  Published: 31 May 2017

References

Assefa A, Melesse AM, Admasu S (2014). Climate change in upper Gilgel Abay river catchment, Blue Nile Basin Ethiopia, In: Melesse AM, Abtew W, Setegn S (eds) Nile river basin: ecohydrological challenges. Clim. Change Hydropolitics pp. 363-388.
 

Arnold JG, Sirinivansan R, Muttiah RS, Williams J (1998). Large area hydrologic modeling and assessment, Part 1: Model development. J. Am. Water Resour. Assoc. 34(1):73-89.
Crossref

  
 

Behulu F, Setegn S, Melesse AM, Fiori A (2013). Hydrological analysis of the upper tiber basin: a watershed modeling approach. Hydrol. Process 27(16):2339-2351.
Crossref

  
 

Behulu F, Setegn S, Melesse AM, Romano E, Fiori A (2014). Impact of climate change on the hydrology of upper Tiber river basin using bias corrected regional climate model. Water Resour. Manage. pp. 1-17.

  
 

Chow VT, Maidment DR, Mays LW (1988). Applied Hydrology, Mc Graw Hill Book Company, ISBN 0-07-010810-2. 

View

  
 

Dessu SB, Melesse AM (2012). Modeling the rainfall-runoff process of the mara river basin using SWAT. Hydrol. Process 26(26):4038-4049.
Crossref

  
 

Dessu SB, Melesse AM, Bhat M, McClain M (2014). Assessment of water resources availability and demand in the mara river basin. CATENA 115:104-114.
Crossref

  
 

Getachew HE, Melesse AM (2012). Impact of land use/land cover change on the hydrology of Angereb watershed, Ethiopia. Int. J. Water Sci. 1(4):17.

  
 

Grey OP, Webber DG, Setegn SG, Melesse AM (2013). Application of the soil and water assessment tool (SWAT model) on a small tropical island state (Great River Watershed, Jamaica) as a tool in integrated watershed and coastal zone management. Int. J. Trop. Biol. Conserv. 62(3):293-305.

  
 

Mohammed H, Alamirew T, Assen M, Melesse AM (2015). Modeling of sediment yield in Maybar gauged watershed using SWAT, northeast Ethiopia. CATENA 127:191-205.
Crossref

  
 

Neitsch SL, Arnold JG, Kiniry JR, Srinivasan R, Williams JR (2004). Soil and Water Assessment Tool Input/ Output file Documentation. Texas Water Resources Institute, Collage Station, Texas. 

View

  
 

Neitsch SL, Arnold JG, Kiniry JR, Srinivasan R, Williams JR (2005). Soil and Water Assessment Tool Theoretical Documentation. Texas Water Resources Institute, Collage Station, Texas. 

View

  
 

Setegn SG, Melesse AM, Haiduk A, Webber D, Wang X, McClain M. (2014). Modeling hydrological varibility of fresh water availability in the Rio Cobre watershed, Jamaica. CATENA 120:81-90.
Crossref

  
 

Stefan L (2003). a) Program pcpSTAT, user's manual. b) The Programs dew.exe and dew02.exe, user's manual. Berlin. 

View

  
 

Wang X, Melesse AM (2006). Effects of STATSGO and SSURGO as Inputs on SWAT model's snowmelt simulation. J. Am. Water Resour. Assoc. 42(5):1217-1236.
Crossref

  

 

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