Abstract
Ethiopia’s irrigated agriculture productivity has been threatened by severe salinity and sodicity problems which have resulted in significantly lower yields, food insecurity, and environmental degradation. The destructive effects of poor irrigation water management with the absence of drainage and anticipated future climate changes can accelerate the formation of salt-affected soil, potentially expanding the problem to currently unaffected regions. This paper synthesizes the available information on the causes, extent, and effects of salt-affected soils on soil and crop production and suggest chemical, biological, and physical reclamation and management approaches for tackling salinity and sodicity problems. The mitigation approaches (e.g., the addition of amendments, plantation of salt-tolerant crops, appropriate irrigation and drainage management, phytoremediation, and bioremediation) have successfully tackled soil salinity and sodicity problems in many parts of the world. These approaches have further improved the socioeconomic conditions of farming communities in salt-affected areas. The paper also discusses the effectiveness of these mitigation strategies under Ethiopian conditions. The policy interventions for reclamation of soil salinity and sodicity that indicates future research attention to restoring agricultural sustainability are also foci of this paper.
Highlights
Published: 13 December 2021Globally, salt-affected soils are a severe problem in lowland irrigated areas because of inappropriate irrigation practices and poor water quality
Salt-affected soils are a severe problem in lowland irrigated areas because of inappropriate irrigation practices and poor water quality
Recommendations should be based on thorough investigations to reclaim salt-affected soils, curtail the future expansion of soil salinity in the newly developed irrigated areas, and ensure successful utilization of salt-affected soils
Summary
Salt-affected soils are a severe problem in lowland irrigated areas because of inappropriate irrigation practices and poor water quality. Salt-affected soils often occur on irrigated lands, especially in arid and semi-arid regions, where annual rainfall is insufficient to meet the evaporation needs of plants and leaching of salts [4]. Soil salinization has social consequences, including reduced agricultural product, low income, change of livelihood options, and related social constraints This situation requires government support to reclaim saltaffected areas to avoid crop production and financial losses [12]. The problems of soil salinity and sodicity can be tackled by adopting different technologies, such as increasing irrigation rate by leaching fraction, gypsum amendment for the sodic soils, introducing salt-tolerant crops for highly saline areas, managing poor quality irrigation water, and restoring salty lands using forestry species [13]. The overall objective of this paper is to assess the challenges of soil salinity and sodicity on crop production and recommend the best management options that are cost-effective
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call