The third High-Level Meeting on Aquaculture Transformation assessed progress towards 2030 transformation goals and identified priority actions for the Asia-Pacific region. The meeting report, covering discussions held 1-2 July 2025 in Shanghai, documents findings from representatives of NACA member  governments, FAO and regional organisations.

Participants identified multiple barriers to sustainable intensification: farmer scepticism about unfamiliar technologies, limited access to expertise, and misaligned incentives that prioritise profit over environmental responsibility. Investment remains concentrated at higher levels rather than reaching small-scale producers. The discussions emphasised collaborative approaches, knowledge-based farming systems, and the need to document aquaculture's positive social impacts.

NACA and FAO will continue supporting National Innovation and Investment Plans in India, the Philippines, Thailand and Vietnam. Future work includes establishing an Aquaculture Innovation and Investment Hub and developing monitoring systems to track transformation progress across the region.

Bangkok, 7 October - NACA convened a one-day, in-person working group to shape the vision, mission and strategy for the AquaHub, a startup incubator and support network for innovators in the aquaculture space. The workshop focused on establishing the AquaHub’s vision, mission, values and partnership principles to define how it will operate, and the immediate steps required to mobilise partners and resources across the Asia–Pacific.

Participants began by clarifying the problems AquaHub should address and why a dedicated hub is the right vehicle. Small group exercises produced draft vision and mission statements looking to 2035, which were then refined through rapid peer feedback. This work was grounded in a brief review of AquaHub’s current status and the wider innovation landscape to ensure complementarity with existing efforts.

In this issue:

• From office to field: The role of women in Saudi Arabia’s small-scale aquaculture and fisheries sector
• Farming of orange mud crab in the Indian Sundarbans: Opportunities and challenges
• Seed production of giant freshwater prawn in brackishwater ponds in Purba Medinipur, West Bengal
• AI and IoT (AIoT): The New Wave in Fish Farming
• NACA Newsletter

Aquaculture is changing as farms add artificial intelligence (AI) and the Internet of Things (IoT). Sensors and cameras watch water quality and animal behaviour, while software analyses the data to guide feeding, detect disease early, and plan harvests. This “AIoT” approach helps farmers act faster and with more accuracy.

This article reviews the main uses now in play such as automatic counting of postlarvae, biomass estimation, smart feeding, water-quality monitoring, behaviour tracking, and health diagnostics. The benefits include higher productivity, lower costs, and better fish welfare. Barriers to adoption are also summarised such as equipment cost, connectivity, and training needs. 

AquaInnovate was an immersive AquaHub networking and coaching event for aquaculture entrepreneurs and startups was held in Bangkok from 12-19 May. AQUAINNOVATE brought together promising startups to pitch their ideas, network, and participate in expert coaching circles.

Convened by NACA and FutureFish with funding support from Canada's International Development Research Centre, the programme included sessions on business fundamentals, investing for impact, nature and community based business innovations, and interactions with experts from the the National Innovation Agency, Center of Excellence for Shrimp Molecular Biology and Biotechnology, the National Center for Genetic Engineering and Biotechnology, and Mahidol University.

The programme included visits to local farms that are driving innovation and leading the industry, panel discussions on the aquaculture startup ecosystem and nature-based seafood markets and creative partnerships.

Elisa Claire Sy of E-Primate presents RAS-P.I.N.A.S, a closed-loop, water-efficient system for land-based fish farming. The technology integrates biofiltration, aeration, and mechanical treatment to support high-density production while conserving water and land and reducing disease risk. RAS-P.I.N.A.S also offers flexibility in farm siting, with trade-offs in energy use and infrastructure costs. Recirculating aquaculture systems are gaining traction as a key innovation in Asia’s sustainable aquaculture future.

ShrimpGuard, developed by BIOTEC, NSTDA, and Kasetsart University in Thailand, is a phage-based innovation for managing shrimp health. It targets Vibrio infections using bacteriophages combined with immune-boosting agents, reducing antimicrobial use while improving farm productivity and sustainability across ASEAN. The project also engages farmers directly through training, outreach, and field trials to ensure practical application and lasting benefits for coastal communities and the wider aquaculture sector. This pitch was presented by Wanilada Rungrassamee of BIOTEC.

Circular nutrition in aquaculture focuses on reducing waste and closing nutrient loops by transforming fish byproducts into sustainable aquafeed. Simon Das from the Tropical Aquafeed Innovations Lab at James Cook University presents how this model can cut reliance on wild-caught forage fish while supporting cost-effective, nutritionally balanced diets. The lab’s work includes developing weaning protocols for pellet-ready fingerlings, training farmers in advanced feeding practices and economics, and promoting gender and youth inclusion. Circular nutrition highlights how rethinking resource use can make aquaculture both more efficient and more sustainable.

QS Aqua Technology, a startup from the InnoHub Program of Universiti Putra Malaysia, develops nature-based probiotic solutions for sustainable aquaculture. Their approach combines beneficial bacteria that support gut health and maintain balanced pond ecosystems with quorum sensing inhibition compounds from microalgae. These compounds block harmful bacteria from communicating, preventing disease outbreaks and reducing dependence on antibiotics. By improving pond health and resilience through microbial and algal innovations, QS Aqua Technology offers farmers safer, more sustainable tools to manage aquaculture production. This pitch was presented by Maya Liyana Hamzah of QS Aqua Technology.

PowBio is a microbial inoculant developed by NileBioFish (NINEBIO GROUP Co., Ltd.) in Thailand to support sustainable biofloc aquaculture systems. Co-developed with Maejo University’s Faculty of Fisheries and Aquatic Resources and supported by the Thailand National Innovation Agency, PowBio uses high-efficiency microorganisms to turn fish pond waste into natural protein. By reducing ammonia and nitrite levels, improving water quality, and recycling nutrients within ponds, PowBio helps farmers cut feed costs, lower water exchange needs, and reduce chemical inputs. The result is healthier harvests without muddy off-flavors—delivered through a practical, low-cost, and easy-to-use solution for more productive and resilient aquaculture. This pitch was presented by Nissara Kitcharoen of NileBiofish.