Improve data granularity on aquaculture production, bio-security and disease risk, environmental effects at a regional and national level. Gain a comprehensive understanding of the crucial metrics that govern aquaculture sustainability.
Quantify system connectivity and linkages to inform aquaculture licensing decisions based on emission flows over space and time. Our water circulation models analyse residence times, plume concentrations and account for land and water point and non-point sources.
Integration of water circulation and land nutrient modelling provide the highest standard of ecosystem management for development scenario optimisation using peer-review science.
Transform the way aquaculture is licensed through integration of farm registration, carrying capacity and water quality
Aquaculture traceability for farms including species, ownership, production estimates, and environmental footprints. The farm registry provides a farm passport for farms from national to district level integrated with carrying capacity, disease and other analytics to drive decision making.
Use our dynamic modelling engine to support ecosystem approaches to aquatic management. The analytics provided account for incorporate land inputs, water circulation and numerous emission sources to main the highest stewardship standards for farms, consumers and society.
Addresses regulatory and planning constraints for aquatic environments. Our ecological modelling platform informs large-scale aquatic development decisions. Calculate carrying capacity metrics for complex systems for bays, fjords, lakes or entire coastlines for fish, shellfish, shrimp and algae.
Use our data driven tools to inform and improve aquaculture regulatory frameworks for sustainable aquaculture industries
Aquaculture zoning for fisheries and aquaculture that incorporates ecological and economic sustainability as a core value, making use of the best available scientific advice to provide an assessment of the space and suitability aquaculture.
Map depth, wave height, oxygen, and other parameters worldwide. Find out how well a particular species will grow in marine waters by analysing suitability. Using Big Data from satellite remote sensing and computer models we evaluate multiple criteria such as depth for cage moorings, water temperature, and dissolved oxygen.
Understand the suitability for over 50 species from Atlantic salmon or European seabass using our modelling platforms. Reduce due diligence risk associated with aquaculture development across the board.