This study assesses heavy metal and pollution sources within the Awash River Basin, in Ethiopia. In this region, significant urbanization and industrialization have caused pollutants to enter water bodies on a large scale. After finding high levels of heavy metals across surface water sampling stations, the study advocates for increased efforts towards water security within the Addis Ababa and Awash watershed region.
Year
Story of Change: Progress to deliver safe drinking water services to 100 million rural people by 2030
In 2021, REACH and RWSN led a global diagnostic survey to identify rural water service providers in 68 countries with interest or existing experience in results-based funding. Results suggested that up to 68 service providers in 28 countries could potentially provide results-based services to 5 million rural people. Subsequently, the Uptime Catalyst Facility has expanded results-based contracts for reliable water services serving 1.5 million rural people in 7 countries in 2022 to over 5 million people in 17 countries, including Latin America and India in 2024.
Story of Change: Building the next generation of water security leaders
The REACH programme is committed to supporting career development by Early Career Researchers, half of whom are women. 60% of first authors in peer reviewed publications from the REACH programme are ECRs. ECRs play key and active roles in research dissemination and policy engagement across the REACH focus countries. ECRs transitioning to leadership roles will facilitate and sustain REACH programme impact through their policy and practice networks, and increase women’s leadership in the sector.
Evaluating the structures and arrangements of water institutions to include in-stream modeling for water quality management and control pollution: Insights from the Awash Basin, Ethiopia
In sub-Saharan regions, human activities are causing stream water quality to decline. This study assesses stream water quality issues in the Awash Basin of Ethiopia, identifying key sources of land-based pollutants. Applicable models with the capability of simulating the Awash streams are presented, and recommendations towards improved use of water quality modelling for development planning by Awash Basin institutions are made.
Information synthesis to identify water quality issues and select applicable in-stream water quality model for the Awash River basin in Ethiopia: A perspective from developing countries
In-stream water quality models can help prepare effective planning strategies to tackle problems with stream water quality and understand pollutant dynamics in stream systems. In this study, water quality issues in the Awash Basin were reviewed to select an applicable in-stream model to support local model practitioners in creating improvement in water quality management. QUAL2KW and INCA models are found more applicable for the present conditions, while the WASP model may be useful to conduct detailed analysis.
Opportunities to advance water safety through regulation of rural water services
Despite improved access to water supply systems globally, safe drinking water continues to limit progress towards Sustainable Development Goal 6.1. In particular, there is a disparity between access to uncontaminated water in rural and urban areas, with the former significantly lagging behind. In this discussion paper, researchers and practitioners in rural drinking water provision, management and regulation from Bangladesh, Kenya, England and Wales identify key aspects to advance regulation for rural drinking water services.
Global high-resolution drought indices for 1981–2022
Droughts are one of the most complex and devastating natural disasters and high-resolution data has proven essential in helping monitor their characteristics. This study has developed four high-resolution drought records based on the standardized precipitation evaporation index (SPEI) from 1981–2022. These datasets provide greater insight into drought patterns on varying scales, with potential benefits for the development of site-specific adaptation measures.
The Turkana Jet diurnal cycle in observations and reanalysis
The Turkana Jet is an equatorial low-level jet (LLJ) in East Africa, which influences both flooding and droughts. Much of what we know about the jet, including the characteristics of its diurnal cycle, derives from reanalysis simulations which are not constrained by radiosonde observations in the region. Reflecting on a field campaign from March-April 2021, this report provides new insight into the characteristics of the Turkana Jet.
Assessing heavy metal contamination using biosensors and a multi-branch Integrated Catchment Model in the Awash River Basin, Ethiopia
The Awash River Basin in Ethiopia faces rising heavy metal concentrations due to poor wastewater management and loose enforcement of regulations around effluent discharge. Acute toxicity of surface and wastewater samples was measured using new molecular biosensor technology based on engineered luminescent bacteria. A multi-branch Integrated Catchment model (INCA) simulating tannery discharge under different treatment scenarios indicates that a 50% reduction in effluent concentrations could produce a 20 to 50% reduction in heavy metal concentration in the river over two years.
Story of Change: Turkana Jet research unlocks new understanding of East African droughts
The strength of the Turkana Jet – a wind feature which carries water vapour from the Indian Ocean across East Africa to Central Africa – is underestimated in current weather and climate models. New observations of the jet by researchers from the Kenya Met Department, the University of Nairobi and the University of Oxford have been used as a benchmark for UK Met Office forecasting models for East Africa.
