Designing terraces for the rainfed farming region in Iraq using the RUSLE and hydraulic principles

• Main Authors: Mohammad H. Hussein, Ibrahiem M. Amien, Tariq H. Kariem
• Format: Article
• Language: English
• Published: KeAi Communications Co., Ltd. 2016-03-01
• Series: International Soil and Water Conservation Research
• Subjects: Terraces; Rainfed agriculture; USLE/RUSLE; Iraq
• Online Access: http://www.sciencedirect.com/science/article/pii/S2095633915300642

The rainfed region in Iraq comprises an area of more than 5 million ha of forest, grazing and farmland areas. Except the plains, the region suffers from moderate to severe water erosion due mainly to overgrazing and land mismanagement. Due to population growth and the shortage in water resources, an expansion in land used for agriculture in the region is expected. Terracing is an option when utilizing sloping land for agricultural production. A terrace design criterion was developed for the region in which terrace spacing was determined using the Revised Universal Soil Loss Equation (RUSLE); terrace channel specifications were determined using conventional hydraulic computations. Analyses showed that terracing is feasible on rolling and hilly sloping land in the high rainfall zone (seasonal rainfall >600 mm) where economic crops are grown to offset the high cost of terrace construction and maintenance. In the medium and low rainfall zones (seasonal rainfall 400–600 mm and 300–400 mm), terracing for water erosion control is generally not needed on cultivated land less than 10% in slope where wheat and barley crops are normally grown; however, pioneer research projects are needed to assess the feasibility of terraces of the level (detention) type to conserve rain water in these two zones for a more successful rainfed farming venture.