March 5, 2024 - An Ediburgh-based start-up is aiming to support the growth of the global sector with the development of a new, modular farm system fuelled by food and drink by-products, as a sustainable and decentralised alternative to producing a scarce fishmeal ingredient.
Artemis are typically found in warm, salty water, occurring naturally in salt lakes in the USA, China and Eurasia. The specific conditions in which they grow means the supply of the shrimp is very restricted - particularly for countries far away from their natural breeding grounds, which need to import them. The situation has been exacerbated recently by the Covid-19 pandemic and the war in Ukraine, which have hit supply chains.
The growing scarcity of marine ingredients has meant that feed increasingly relies on plant-based alternatives to fishmeal as a protein source. The current global average for marine ingredients in fish feed is less than 10 percent according to experts - substantially down on 70 percent 30 years ago. However, research testing the composition of feed has found that not only do fish prefer feed containing marine ingredients, they also tend to be healthier compared with consuming plant-based protein.
Rémi Gratacap, co-founder and CEO of Aquanzo, said: "One of the biggest issues aquaculture faces is the sustainability of feed and the dependency of fisheries for fishmeal. It is well known there is a crisis in fishmeal ingredients and we need to decouple aquaculture from maxed-out fisheries and find new ways of providing sustainable sources of protein to help the sector feed a growing world population. Farming, rather than harvesting, important components of feed like Artemia is a better way of ensuring greater control and scale, and is similar to what is already being done with insect farms, only with marine ingredients."
The modular, recirculating aquaculture system (RAS) being developed by Aquanzo at Heriot-Watt University would allow Artemis to be grown wherever they are required using the co-product of agricultural processes - in the first instance, the production of malt for the whisky industry. The water used to process malt is rich in minerals and organic matter - that can be used to raise brine shrimp and is currently largely treated as waste.
Deployed on land near agricultural processing facilities so that there is no impact on the marine ecosystem, the Aquanzo RAS system is expected to reduce the amount of CO2 created in the production of fishmeal by 20 percent compared with harvesting fish. All of the water will be re-used to further enhance its sustainability.
Rémi Gratacap added: "it has been proven that fish prefer marine protein in their feed - studies have shown they eat much more if feed contains marine rather than plant-based protein. The composition of their feed also influences how much they grow and their natural resistance to health challenges. The system we're developing will give fish farmers long-term access to a sustainable source of marine protein, helping to continue aquaculture's growth, enhance the health of their fish, make use of another industry's waste, and support aquaculture's net-zero goals."
As part of the process and technical development, CENSIS engineer will collaborate with Aquanzo on the development of an IoT-enabled array of sensors and a 'data lake' - essentially a centralised repository for data - to help its production team collect, store and process data. The technology will help the company progress towards the development of a fully mobile recirculating system, which can be located wherever agricultural by-products are available and remotely monitor the welfare and growth of Artemia.
Corinne Critchlow-Watton, project manager at CENSIS, said: "The Aquanzo system could help solve one of the biggest challenges aquaculture faces - applying cutting-edge technology to a longstanding problem. The system will use an array of sensors to provide data on the environmental conditions within it and how the Artemia are growing, such as water temperature and pH levels. This project demonstrates how IoT and sensing technology can be used in a range of sectors to help solve what might have otherwise been considered a biological issue."
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