Explore the Top 10 Aquaculture Trends in 2024

Which technologies are impacting the aquaculture industries? In this data-driven industry research on 934 aquaculture startups & scaleups, you get insights into technology solutions including shrimp farming, fish therapeutics, marine genetics, precision aquaculture & more!

The demand for seafood globally and the need for sustainable and efficient production prompts the aquaculture industry to seek new technologies and processes. For example, technologies to automate traditional farming methods, improve productivity and efficiency, and enhance environmental sustainability, fish welfare, and the overall quality of aquaculture products are now the focus. In this data-driven research, you get an overview of the top 10 aquaculture trends, ranging from recirculating aquaculture systems and smart farming methods to advancements in fish genetics and selective breeding. Explore the top technologies and innovative startups driving these trends to transform the aquaculture industry.

Innovation Map outlines the Top 10 Trends in Aquaculture & 20 Promising Startups

For this in-depth research on the Top 10 Aquaculture Trends & Startups, we analyzed a sample of 934 global startups & scaleups. This data-driven research provides innovation intelligence that helps you improve strategic decision-making by giving you an overview of emerging technologies in the aquaculture industry. In the Aquaculture Innovation Map below, you get a comprehensive overview of the innovation trends & startups that impact your company.

Top 10 Aquaculture Trends & Innovations in 2024

  1. Urban Aquaculture

With growing populations and urbanization, the demand for seafood is increasing. Urban areas with a higher population density implement emerging technologies to optimize ecological and space resources. For example, startups and scaleups design solutions for fish, mollusks, and crustaceans cultivation in controlled environments within modern cities. Innovations include vertical farming systems to grow fish and other aquatic species within limited space. Other innovations feature hydroponics and aquaponics to create a symbiotic relationship with plants and maximize resources. Companies also focus on enhancing food resilience and security. This aquaculture trend supports businesses to reduce their carbon footprint and optimize land and water use in urban areas.

Vertical Oceans develops Aqua Towers

Singaporean startup Vertical Oceans grow sustainable seafood in urban aqua towers inside cities. Its smart algorithms-based oceanic ecosystem incubates shrimp, fish, and algae without chemicals, emissions, and antibiotics all over the year. Moreover, it has low carbon water usage and food miles. While being location agnostic, the solution allows urban citizens to consume clean and fresh seafood without limitations.

Moina designs Fish Aquacubes System

German startup Moina develops an AI-based urban fish farming system. It grows healthy fish from microalgae. These aqua cubes are water-recirculating that help to grow fresh fish to feed families for 1 year. In addition, the owner controls and monitors the aqua-cubes’ performance using the app. The solution supports ocean biodiversity by reducing overfishing and reinvesting in nature protection.

  1. Shrimp Farming

With the increasing demand for shrimp, farmers look for solutions to optimize seafood farming and ensure a consistent supply throughout the year. To achieve this, startups develop smart technologies that help to grow shrimps in a controlled space. They implement biosecurity measures to prevent the introduction and spread of diseases. Using the IoT and sensor technology, companies are now optimizing feeding practices and closely monitoring shrimp behavior, growth, and health. Other emerging technologies such as big data and modeling are providing insights into optimal harvest times and other patterns. Such tools help farm owners improve seafood farming and make data-driven decisions.

aquapurna offers Advanced Land-based Shrimp Farming

German startup aquapurna uses tech-driven and automated methods for land-based shrimp farming. The startup’s Smart Reef System mimics nature itself and therefore increases the well-being of shrimp while achieving a high, predictable, and outstanding yield. Moreover, the system does not allow for shrimp to be handled manually. This allows them to remain untouched and stress-free. The solution also automates the analysis of parameters and imagery that increase understanding of the animal.

Sincere Aqua enables Precision Shrimp Farming

Dutch startup Sincere Aqua provides remote biomass insights. The system counts shrimps to ensure accurate pond stocking, monitors biomass in real time, and optimizes feed distribution to improve feed conversion ratios. In addition, it indicates potential health issues or disease outbreaks to ensure the well-being of shrimps. The solution supports data-driven decision-making in shrimp farming.

  1. Wastewater Management

For the cultivation of aquatic organisms, the quality of water is vital. Startups and scaleups bring innovations in aquaculture wastewater management by utilizing emerging technologies. Real-time water quality monitoring systems continuously monitor key parameters such as temperature, dissolved oxygen levels, pH, turbidity, and nutrient concentrations to improve the well-being of fish. Remote sensing and satellite imagery also capture data and offer an overview of water bodies. They provide information about factors like watercolor, turbidity, and algae blooms. Other advanced analytical technologies identify correlations, trends, and anomalies and provide valuable insights into water quality dynamics, predicting potential risks and optimizing management practices.

Shenzhen Meixing Intelligent controls Fishing Ponds Water Quality

Chinese startup Shenzhen Meixing Intelligent understand the main water quality parameters of the pond and regulates them. Its product Monitoring Star automatically detects and records the water quality of the water body, and transmits it to the farmers’ mobile phones in real-time. Additionally, it timely warns of abnormal changes through trend data analysis. The solution monitors the water quality and improves the life of aquatic organisms.

AquaSignum offers Real-time Microbial Activity Sensors

Canadian startup AquaSignum develops real-time microbial activity sensors that provide actionable data for the aquatic environment. It lets business owners know when water quality is impaired, and when it is back to normal. Moreover, the biosensor uses the native microbial population, so it never needs to be cleaned and is unaffected by fouling. Additionally, it generates data points per hour and stores the data in the cloud. The solution helps optimize aquaculture processes and monitor for imbalances.

  1. Data-Driven Fish Breeding

Fish breeding is crucial for further aquatic organisms cultivation. Fish owners aim to produce healthier, more productive, and resilient fish populations. To achieve this, startups develop solutions that enhance breeding value estimation, increase genetic gain, and reduce breeding cycles. The data-driven approach helps predict the breeding potential of fish at an early stage while breeders make informed decisions about mating pairs to optimize genetic diversity and improve the quality of fish populations. Another impactful sub-trend is cell-based fish production which is tailored to meet consumer preferences while reducing the environmental impact associated with conventional fishing or aquaculture practices.

Regional Fish realizes High-speed Breeding

Japanese startup Regional Fish develops a high-speed breeding technology that promotes natural changes in aqua-products from the DNA level in a super-short time. This genome editing technique deactivates a targeted gene function, which is safer than traditional selective breeding where mutation occurs at random. It doesn’t create artificial traits by introducing foreign genes like GMOs. The solution improves the breeding speed process in aqua products from 30 years to only 2-3 years.

Sea2Cell offers Sustainable Cell-based Fish

Israeli startup Sea2Cell develops a technology to produce cultivated fish meat. The startup grows fish cells in huge tanks and makes chunks of fish out of them. The cells differentiate according to a specifically designed signal, reducing overall costs and enabling efficient scaling up. The solution preserves nature and saves in-danger fish species by replacing wild-caught fish.

  1. Recirculating Aquaculture System

Farming of aquatic organisms has seen significant advancements over the years. Recently, has the need for a controlled and efficient environment for fish and shellfish production increased. Therefore, startups are focusing on developing innovations that minimize the environmental impact and maximize production yields. For instance, startups and companies are working on advancing land-based aquaculture systems using AI and IoT. They enable the production of high-density fish populations in a controlled environment. Other innovations in RAS include foam fractionation, biofiltration, and UV sterilization technologies, and machine learning algorithms to analyze large datasets generated by RAS operations. This trend aims to find sustainable solutions for protecting fish populations and their habitats.

Manjeera Aqua manufactures Recirculating Aquaculture Systems (RAS)

Indian startup Manjeera Aqua produces RAS in which fish grow at high density under controlled environmental conditions. This closed system helps to culture species in hard environmental conditions and rural areas. The system conserves water and minimizes water effluent, facilitating waste recovery. The solution makes sustainable use of water resources, provides control over production, and has low pollution to the surroundings.

Solar Oyster produces Floating Shellfish Systems

US-based startup Solar Oyster offers floating shellfish production systems. Self-contained oyster cultivation systems have solar panels that provide sufficient power for automated ladder rotation and other ancillary systems. The system includes advanced monitoring and control mechanisms to ensure optimal water quality, temperature, and nutrient levels. The solution helps to meet the growing demand for cultivated oysters while promoting the transition to renewable energy sources.

  1. Sea-Source Alternative Food

As the global demand for seafood continues to rise, concerns about overfishing, ecosystem degradation, and the sustainability of traditional fishing practices have become increasingly prevalent. In response to these challenges, startups and emerging companies develop sustainable seafood alternatives using ingredients such as seaweed, algae, legumes, and innovative plant proteins to mimic the original seafood. Some seafood alternatives innovations include plant-based fish fillets and crab cakes to vegan shrimp and scallops. Moreover, they provide a wide range of essential nutrients, including protein, omega-3 fatty acids, vitamins, and minerals. Other areas that startups work on include food processing techniques such as extrusion, fermentation, and high-pressure processing to transform plant-based ingredients into seafood-like textures.

Seatrients produces Sea Moss Drinks

Swedish startup Seatrients utilizes Caribbean islands sourced sea moss algae to produce sustainable immune booster and fertility enhancer drinks. They have nutrients that are commonly needed to enrich the diets, such as iron, zinc, omega fatty acids, and B vitamins. The solution encourages the responsible farming of algae to further stimulate the biodiversity of our oceans.

Seabloom produces Seaweed-based Tuna

UK-based startup Seabloom manufactures plant-based tuna by cultivating a variety of seaweed species in controlled marine environments. It utilizes cultivation systems that allow for precise monitoring and control of water quality, nutrient levels, and growth conditions. This plant-based superfood has a nutritious punch of healthy protein, omega-3s, vitamins, and minerals. The solution besides being a sustainable alternative to marine organisms, reduces overfishing and the amount of discarded plastic fishing nets.

  1. Precision Aquaculture

Precision aquaculture transforms traditional fish cultivation by utilizing advanced technologies and data-driven systems. Sensors, automation, AI, and data analytics enable real-time monitoring and precise control. Some of the solutions that startups are working on include sea robots that automate routine tasks such as feeding, water quality management, and waste removal. Imaging and computer vision technologies count fish, estimate size, and assess health in precision aquaculture. Other innovations are focusing on operations optimization and farm management. AI-powered solutions provide farmers with predictive analytics and suggestions on how to act more efficiently, for example, by improving feed strategies. Precision aquaculture ensures sustainable practices, enables informed decision-making, and enhances fish welfare.

Eseidon develops First Smart Sorting Device

German startup Eseidon designs AquaDetector, a smart sorting device for marine species. It consists of three units that ensure accurate analysis and sorting of aquatic organisms of all sizes. The device uses artificial intelligence, real-time image recognition, and cloud computing to detect fish size, deformation, sex, diseases, and other aquatic species. The solution improves stock management and supports decision-making based on the collected data.

OnDeck Fisheries enables AI-based Fisheries Monitoring

Canadian startup OnDeck Fisheries automates commercial fisheries by creating AI-based fisheries monitoring that detects catch. Its AI-powered tracking model counts and identifies what’s being caught at sea in real-time. This monitoring solution automates the video review process and ensures cost-effective compliance by fishermen, which is ultimately changing the way they manage and conserve marine resources globally.

  1. Marine Genetics

Marine genetics focuses on the genetic diversity, adaptation, and evolutionary processes of marine organisms. To keep improving the survival diversity in the unpredictable marine environment, startups are developing technologies that help aquatic organisms to adapt to extreme temperatures, high salinity, and varying levels of nutrients. Advanced sequencing technologies and bioinformatics analysis help study the genetic diversity of fish species and provide genetic insights for breeding programs. Emerging marine genetics companies are also working on fish genome modification, targeting growth hormone genes. By targeting specific genes, they aim to enhance disease resistance, growth rate, and feed conversion efficiency in farmed salmon.

Metamorphotech engineers Marine Bacteria

US-based startup Metamorphotech develops patent-pending genetic engineering technology. It utilizes it to engineer marine bacteria, DNA, and their products to address current agricultural problems. The solution helps to understand the genetic composition and traits of marine species and improve selective breeding programs, optimize growth rates, disease resistance, and overall productivity in aquaculture.

Sono Biosciences offers Fish Genome Editing

Singaporean startup Sono Biosciences develops a fish cell culture media and fish cell lines for cultured fish. They eliminate animal-sourced serum and are safe to consume as food, proliferate and differentiate efficiently at industrial scales. The solution lowers the cost of cultured fish production and ensures food safety and quality control.

  1. Fish Therapeutics

Fish therapeutics focuses on improving the health of fish species through emerging technologies. This trend covers innovations in aquatic organisms’ health management. Emerging companies are developing advanced diagnostic technologies to assess the health of fish populations. Techniques such as polymerase chain reaction (PCR), real-time PCR, and DNA microarrays enable rapid and accurate identification of pathogens, including bacteria, viruses, and parasites. Another innovation is in vaccination technologies, including recombinant protein vaccines and nanoparticle-based delivery systems. They enhance fish immune responses and provide long-lasting protection against pathogens. Additionally, innovative formulations of probiotics, including encapsulation techniques improved the viability of the beneficial bacteria in the fish digestive tract.

MariHealth Solutions provides Aquaculture Health Management

South African startup MariHealth Solutions develops aquaculture health management technologies. Its biomarker-based platform offers insights into the health of farmed fish and shellfish. In addition, the startup scales a bacterial probiotic that improves the growth rate and disease resistance of farmed abalone and develops diagnostics and therapeutics for the identification and treatment of infectious diseases in farmed fish. The solution helps to assess the health and metabolism of aquatic species and improve them.

GreenSage develops Aquaculture Coconut Prebiotics

Canadian startup GreenSage designs prebiotics from coconut residue that improves marine animals’ health. This natural, sustainable prebiotic supports the digestive and immune systems, promoting health in salmon and shrimp aquaculture. It also supports the growth of specific beneficial bacteria, including various strains of Lactobacillus spp. and Bifidobacteria spp. The sustainable solution ensures the antimicrobial resistance level of fish and seafood.

  1. Smart Feeding

Due to the need to optimize fish nutrition, enhance growth, and improve feed efficiency, the smart feeding trend has been growing. Automated feeding systems utilize sensors, cameras, and advanced algorithms to monitor fish behavior, feed intake, and feeding patterns. Another upcoming sub-trend is a precision feeding technique that enables precise delivery of feed based on individual fish requirements. These technologies utilize real-time data, including fish size, weight, behavior, and environmental conditions, to adjust feed quantities and compositions. Other solutions that startups are working on include nutrigenomics and functional feeds that underlie fish nutrition and aid in formulating optimized diets.

Biofeyn offers Salomon Nutrient Delivery

Biofeyn develops new forms of nutrient delivery to improve efficiencies in salmon farming and other sustainable nutrition markets. The Biofeyn platform of customizable ingredients delivers precision aquaculture. It optimizes existing ingredients that have already been proven safe and environmentally friendly. The solution addresses aquaculture sustainability issues, reduces waste, and promotes the use of sustainable feed ingredients.

Ittinsect produces Biomanufactured Aquaculture Feed

Italian startup Ittinsect manufactures a high-performance aquaculture feed from agri-food by-products. It uses patent-pending biotech treatment of novel raw ingredients including insects and microalgae that improves the bioavailability up to eight times. Moreover, this fish feed has zero impact on the marine environment and reduces the total emissions of the aquaculture value chain. The solution is more digestible, creates a stronger immune system, and has a lower risk of digestive system inflammation than one fed with traditional feed.

Source: startus-insights

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