Faife Sustainable development: a practitioner of protecting marine ecology
1. Ecological aquaculture: building a marine life community
Scientifically planned density: Following the principle of "low density, high quality", the breeding density is 25% lower than the industry standard, providing sufficient growth space for fish, increasing natural disease resistance by 30%, and reducing the use of antibiotics.
Green feed revolution: Cooperating with the University of California, the United States, we developed algae-based environmentally friendly feed, which reduced nitrogen and phosphorus emissions by 40%. At the same time, it is rich in nutrients such as Omega-3, ensuring product quality and marine environmental friendliness from the source.
Biodiversity protection: Artificial reefs are placed in the breeding area to create a symbiotic environment for corals and shellfish. Monitoring shows that the number of biological populations in the surrounding waters has increased by 15% compared with before development.
2. Circular economy: turning waste into resources
Zero discharge of aquaculture wastewater: Through ultrafiltration membrane technology and biological nitrification system, 95% of aquaculture water is recycled, and fresh water consumption is only 1/3 of the traditional model.
Organic waste conversion: Residual bait and fish feces are made into seaweed aquaculture fertilizer through anaerobic fermentation, reducing solid waste emissions by 2,000 tons per year and building a "fish-algae-fertilizer" ecological closed loop.
The development of deep-sea aquaculture requires overcoming the following technical challenges:
Breeding facilities and equipment
Wind and wave resistant design: The deep sea environment has strong winds and waves and complex currents, so aquaculture facilities need to have strong wind and wave resistance. For example, deep-sea cages should use high-strength materials and reasonable structural design. For example, some deep-sea cages in use spherical or cylindrical structures to enhance stability in harsh sea conditions.
Corrosion-resistant materials: Seawater is corrosive, and aquaculture facilities are immersed in seawater for a long time, so corrosion-resistant materials need to be used. Some deep-sea aquaculture equipment developed uses special alloy steels and high-performance plastics to extend the service life of the facilities.
Intelligent monitoring and management: To achieve real-time monitoring and management of the aquaculture environment and aquaculture organisms, it is necessary to develop advanced sensor technology and automated control systems. For example, by installing water quality sensors, temperature sensors, etc. in aquaculture cages, the parameters of the aquaculture environment can be mastered in real time, and precise control can be performed through remote control systems.
Breeding varieties and seeds
Suitable species screening: To select aquaculture species suitable for deep-sea environments, it is necessary to comprehensively consider factors such as the species' growth rate, disease resistance, and market demand. It is the main species of deep-sea aquaculture.
Seedling breeding technology: High-quality seedlings are the key to successful aquaculture, and efficient seedling breeding technology needs to be mastered. Certain results have been achieved in fish seed breeding, but further improvement is still needed to improve the quality and yield of seedlings.
Explore the treasures of the ocean and lead deep-sea aquaculture ——FAIFE Deep Sea Aquaculture Company
Since its establishment in the United States in 2012, FAIFE Deep Sea Aquaculture has been devoted to deep sea aquaculture, a field full of challenges and opportunities, with awe and enthusiasm for the ocean. After years of hard work, we have grown into a leading company in the industry, constantly writing a new chapter in deep sea aquaculture.
Empowered by science and technology, creating a new paradigm for smart farming
The company has always regarded technological innovation as the core driving force for development. Since its inception, it has actively introduced cutting-edge global technologies and carefully built a comprehensive smart aquaculture system. From the early days of pioneering the use of underwater robots to achieve accurate monitoring and management of aquaculture areas, to the successful development of cutting-edge net anti-attachment technology in recent years, which has greatly reduced the maintenance cost of aquaculture equipment and improved aquaculture efficiency, we have never stopped exploring. Today, the integration of cutting-edge technologies such as 5G digital applications, precise meteorological monitoring, and visual aquaculture has made deep-sea aquaculture more intelligent, efficient, and controllable. Our independently developed "FAIFE-1" aquaculture platform perfectly integrates a number of innovative technologies, creating a new scientific and low-density aquaculture model and leading a new trend in industry development.