A-RAS Technology is Paving the Way for Sustainable Aquaculture

Piloted in Kenya, the Affordable Recirculation Aquaculture System (A-RAS) is an eco-friendly fish farming technology that recycles water, conserves resources, and reduces pollutants, providing a controlled environment for higher yields and faster fish growth. The innovative project, a collaboration between the government of Kenya and the Kingdom of the Netherlands, aims to address challenges in aquaculture and achieve the Sustainable Development Goals (SDGs).

Kenya produces over 150,000 metric tons of fish each year, relying primarily on its lakes, which contribute around 80% of this volume, and marine and aquaculture, 10% each. However, the sustainability of harvesting fish from natural waters is under threat due to climate change and ever-increasing environmental pressures such as pollution from heavy metals, oil spills, chemicals, and other contaminants. 

Addressing these challenges requires innovation supported by research.  Today, around 50,000 small-scale farmers are engaged in aquaculture, relying on simple fish ponds made by digging out the ground or lining the pond with dam liners, raising tilapia and catfish.

Unlike traditional ponds that depend on a continuous flow of fresh water, A-RAS recycles water within the system, conserving water, reducing exposure to chemicals and heavy metals, and minimizing environmental impact. This approach provides farmers with a stable, controlled environment for fish growth, promoting higher yields and improved quality.

The Affordable Recirculation Aquaculture System (A-RAS) pilot project was launched in Nyeri County, where approximately 3,000 farmers operate fish ponds. Peter Mwangi, a fish farmer benefiting from the A-RAS project, transformed his traditional 8×15-meter pond into a modern, sustainable system using affordable materials like timber, dam liners, and IBC tanks. By incorporating a greenhouse, rainwater harvesting, and solar-powered water recirculation, Peter eliminated wastewater discharge and significantly boosted productivity.

A-RAS

His new setup accommodates 4,500 fingerlings, yielding 1,800 kg of table fish—over four times his previous output. Fish now mature in 4 to 6 months instead of nine, allowing him to sell twice a year and greatly increase his income.

Despite its benefits, A-RAS faces challenges such as high setup costs, disease management, technical complexity, the need for specialized labor, and occasional system failures like clogging. Despite the high initial investment for A-RAS, the payback period and overall profitability of A-RAS are significantly greater. In fact, under optimal conditions, A-RAS can deliver up to 40 times the productivity of a standard pond system.

Adopting A-RAS technology is vital for advancing key Sustainable Development Goals (SDGs) in the face of climate change. It supports water security (SDG 6) and climate action (SDG 13) by utilizing green energy like solar power. A-RAS also addresses Zero Hunger (SDG 2) by enhancing access to sustainable protein, improving nutrition, and strengthening food security.

Furthermore, it fosters sustainable agriculture, creating a more resilient and efficient farming system. The results of the A-RAS feasibility project highlight how innovation and collaboration can drive significant socio-economic progress in Kenya.

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