The Future Technology of the New Fish Farming System

Did you realize that aquaculture is the world's fastest-growing food-producing industry?

Introduction

 This is due to the fact that seafood is one of the few foods that are both very beneficial to humans and easily scalable in production. Almost every country with access to the sea will be able to entirely solve its own seafood scarcity with the help of cutting-edge technologies like artificial intelligence and microscopic fungi.

I'll write in this blog, about how sophisticated technologies will aid in the feeding of the entire planet. 

Since ancient times, people have gone to the water for food. Fishing has become so popular in the last century that hundreds of marine species have become endangered. According to the International Union for Conservation of Nature, over 90 species of fish, including shark rays and other cartilaginous fish, are threatened in European seas alone.

15 Important Key Points "The Future Technology of the New Fish Farming System"

1. Vertical integration: Fish farming will move towards vertically integrated systems in the future, where each stage of the production chain—from hatcheries to processing plants—is optimized for maximum effectiveness.
2. Smart aquaculture: To monitor water quality, feeding habits, and fish health in real-time, the new fish farming system will make use of cutting-edge technologies including Internet of Things (IoT) devices, sensors, and data analytics. This makes it possible to manage and precisely control the farming environment in a proactive manner.
3. Sustainable practices: Future fish farming technologies will prioritize sustainability by minimizing its negative effects on the environment. Recirculating aquaculture systems (RAS), for example, will reduce the need to feed wild fish and the amount of water used in production.
4. Genetic improvement: Fish breeds with desirable qualities, such as quicker growth, greater disease resistance, and better feed conversion rates, will be developed using advanced genetic techniques, such as selective breeding and genetic engineering.
5. Automation and robotics: Automated feeding systems and autonomous underwater vehicles for monitoring and maintenance activities are only two examples of automation and robotics that will be used more and more in fish farming. As a result, less labor is needed and farming operations are more precise.
6. Integration of aquaponics: The future fish farming system will incorporate aquaponics, a symbiotic system where plant cultivation and fish farming work in harmony. Plants benefit from the nutrients found in fish excrement as they filter and clean fish water.
7. Offshore farming: Fish farming off the coast will increase as space in coastal areas becomes more scarce. This strategy enables bigger-scale production and access to deeper, nutrient-rich waters by utilizing cutting-edge technologies like floating structures and submersible cages.
8. Advancements in nutrition: The new fish farming technique will prioritize improving the nutritional value of farmed fish. Enhancing omega-3 fatty acid levels, reducing pollutants, and developing sustainable substitute diets are the three main goals of research and development.
9. Artificial intelligence (AI) in decision-making: AI algorithms will be used to examine enormous volumes of data, including market trends, environmental conditions, and fish behavior. As a result, farmers will be able to optimize their productivity, resource allocation, and marketing tactics using data.
10. Traceability and consumer transparency: Future fish farming systems will place a priority on traceability, employing innovations like blockchain to give customers transparent details about the place of origin, the quality, and the sustainability of the fish they buy, promoting confidence and assuring food safety.
11. Energy efficiency: In order to reduce overall energy consumption, energy recovery systems, and renewable energy sources like solar and wind power will be incorporated into fish farming technologies in the future.
12. Remote monitoring and management: With the help of cutting-edge remote monitoring systems, farmers will be able to watch and control their fish farms from anywhere. These systems will provide them access to data, alerts, and control mechanisms in real time, improving operational efficiency and lowering risks.
13. Disease management and prevention: The new fish farming system will use cutting-edge methods for disease prevention, such as early detection through sophisticated sensing technologies, vaccination plans, and biosecurity procedures, ultimately reducing the need for antibiotics and improving fish welfare.
14. Collaboration and knowledge exchange: Stakeholders, researchers, and industry participants will work together more in the future of fish farming. Sharing information, best practices, and technical developments will encourage innovation, speed up development, and tackle common problems.
15. Global food security: By boosting production capacity, reducing reliance on wild fish stocks, and providing a steady and sustainable supply of high-quality fish protein to meet the expanding global demand, future fish farming technology seeks to contribute to global food security.

There has been no effective action on fisheries management in the Mediterranean in the last decade, according to Nicolas Dulvy, a marine ecologist from Simon Fraser University in Burnaby, Canada.

To make matters worse, different countries have varying fishing rules, so what is illegal in one may be legal in another. As a result, fishing vessels can catch even illegal fish species and sell them on different markets. In other places of the world, the same is true.

So one of the Blue Ocean activists, Michael AW, reported the example of ten fishing vessels catching 100 to 150 tonnes of sardines every day to sell to Europe. This large catch threatens not just sardinas, but also dolphins, gulls, and penguins, who rely on this fish for sustenance. Aquaculture has begun to take up over the world in response to biologists' worries. It was possible to slow down, but not stop, the disappearance of all forms of marine organisms acceptable for food, thanks to the breeding and culture of all types of marine organisms suited for food.

The extinction of unique marine species can be halted entirely thanks to new technologies. Almost every form of seafood can be grown on sea farms. Most, however, rely on fish, shellfish, and other creatures for nourishment. Sardines, for example, are imported in large quantities by Norwegian enterprises that utilize them to produce salmon. As a result, a vicious spiral emerges.

Aquaculture can save some fish species from extinction, but it also destroys a large amount of other marine life. The Siwa Cewatech technology company has provided a solution to this problem. They created a method for cultivating microscopic fungus on industrial waste.

Solve two problems at the same time

They get rid of the garbage while also getting a high-quality product that may be utilized as fish food. The method is currently being tested in a sulfate plant as a pilot project. The Nordic Paper partner firm oversees the testing. It can be scaled up to the entire European Union and ultimately to the entire world after a trial project.

As a result, one of aquaculture's major issues, the demand for marine life for food, may be resolved in the future years.

Apollo Aquaculture

Another Singapore company has discovered a solution to a different issue.

Cost Reduction

Fish farms do not necessitate large capital investments. The running costs are the purchase of feed and the regular purifying of water. The cost of treating fish and resolving technical issues is extremely significant.

To address this, Apollo Aquaculture began the construction of the world's first vertical eight-story fish farm. The scarcity of land on the island nation has resulted in vertical construction.

The project's yearly capacity is expected to be 3,000 tonnes of sea bass, coral, trout, and shrimp. This is six times more efficient than Singapore's fish farm operations. The company implemented a number of technologies in order to improve efficiency. The Aqua deck system, which is an automatic water renewal system on the farm, is the first of these.

When the water becomes contaminated, the aquatic system pumps it out, purifies it with specific filters, and then returns it to the farm. Water replacement and staff maintenance costs are greatly reduced as a result of this.

System of Electronic Inventory

This system allows all stakeholders, including purchasing department technical personnel and sales managers, to share real-time inventory and data. We have a good idea of how much water is needed. The amount of feed and the state of the water are both measured down to a single gram per cubic meter of water. 

As a result, we can create fish in a considerably shorter period of time.

With its IFarm project, however, the bio-sort firm hopes to bring about a true revolution in the aquaculture business.

IFarm Project

To establish a monitoring system for each individual fish on the farm, the project actively employs the new capabilities of artificial intelligence and machine learning. When a fish rises to the surface to breathe, it passes through a unique sensor that measures its weight gain rate as well as the number of parasites and lesions on its body.

All of the information is entered into the computer, resulting in a complete medical catalog. What we're aiming for with iFarm is to create a solution that, in the long run, will improve fish health and welfare while also boosting coastal farming's competitiveness. Carl Frederick Autumn, project manager for IFarm, states, "We have high expectations that the health and well-being of the salmon can be improved with IFarm if we succeed."

The potential of this cutting-edge technology is undeniable. The capacity to monitor the condition of all fish and administer medication in a timely manner will considerably cut maintenance expenditures. Furthermore, the progress of development and the maximum weight of each individual will be visible in advance. This will assist you in determining when you need to purchase a specific fish.

Despite the optimism of Cermak, which oversees the company, they recognize that this is an extremely complicated system that is still in its early stages of development. Following the monitoring of the fish's condition, the next phase will be the development of technology that will allow them to be caught one at a time for further treatment or to be captured for sale.

As a result, in 2021, the first stage of the farm system's testing began on one of the marine farms, which houses 150,000 fish. The trials will continue until 2025. Data will be collected, knowledge about algorithms will be optimized, and new approaches to improve the efficiency of fish farm development will be explored. During this time, the company expects to do extensive research into relevant technologies and reach the worldwide market quickly.

We have introduced three innovative technologies to you.

• 1. It solves the issue of farm fish feeding.
• 2. Lower operating costs
• 3. It improves the overall efficiency of production.

If all three technologies become widely adopted, a revolution in agriculture will occur, permanently altering the process of producing and raising seafood.

Conclusion

In conclusion, the novel fish growing system's potential for revolutionizing the aquaculture sector is enormous. Fish producers will be able to increase efficiency, production, and environmental sustainability through vertical integration, clever aquaculture, sustainable practices, and genetic enhancement. Operations will be made more efficient by automation, robotics, and AI, while aquaponics integration and offshore farming will increase output capacity. 

The provision of high-quality, sustainably sourced fish products will be guaranteed by nutritional advances, traceability, and customer transparency. This technology will pave the path for a future where food is more resilient and secure by placing an emphasis on energy efficiency, remote monitoring, disease prevention, and collaboration. The future of fish farming is positioned to significantly contribute to satisfying the rising demand for protein while protecting our natural resources for future generations with an emphasis on global food security.