BBSRC Portfolio Analyser
Award details
Malaysian HABreports: Harmful algal bloom and biotoxin early warning to meet the ODA challenge of providing resilient aquaculture resources in Asia
Reference
BB/T011661/1
Principal Investigator / Supervisor
Professor Keith Davidson
Co-Investigators /
Co-Supervisors
Dr Chui Pin Leaw
,
Dr Po Teen Lim
,
Dr CALLUM WHYTE
Institution
Scottish Association For Marine Science
Department
Dunstaffnage Marine Laboratory
Funding type
Research
Value (£)
184,369
Status
Completed
Type
Research Grant
Start date
01/04/2020
End date
31/03/2022
Duration
24 months
Abstract
unavailable
Summary
Phytoplankton are free-floating plants found in marine and freshwaters that form the base of the aquatic food chain. A subset of the phytoplankton may be harmful to human health or to human use of the ecosystem. The species that cause harm are referred to as 'Harmful Algae' with the term 'Harmful Algal Bloom' (HAB) commonly being used to describe their occurrence and effects. Some HABs can be harmful to humans through their production of biotoxins that are concentrated in the flesh of filter feeding shellfish, leading to a health risk if the shellfish are consumed by humans. Other HABs can kill farmed fish though toxicity, interaction with the gills or anoxia. HAB events of either type can have serious financial consequences for aquaculture. In most locations HABs are natural events with their timing, location, magnitude and toxicity being spatially and temporally variable. Early warning of events can therefore be used to protect health and minimise economic losses. Moreover, HAB events are not random, but a product of their environment. So through a combination of monitoring of the causative species and their toxins, and expert interpretation of these data and other available environmental information, it is possible to produce short term (~ 1-2 week) risk forecasts of HAB location and severity (akin to a weather forecast). In the UK we have since 2015 been operating a weekly HAB and biotoxin alert and forecast system. It operates from the web site www.HABreports.org and contains products that the aquaculture industry can use to better understand the HAB risk in their location and hence take mitigation action to safeguard human health and prevent economic loss. The alerts are based on the synthesis and graphical presentation of multiple data streams including: the abundance of different HAB species, concentrations different of shellfish biotoxins, satellite derived sea surface chlorophyll (an index of overall phytoplankton biomass), sea surface temperatureand meteorological information. Historical trends are summarized graphically in map and chart based format, current conditions are presented on a map and through a high/medium/low risk "traffic light" index and expert interpretation is used to produce a forward looking risk assessment. In this proposal we intend to transfer this technology to Malaysia, a DAC country in South East Asia with a significant and growing aquaculture industry related to both finfish and shellfish, and which suffers from HABs though fish kills and episodes of shellfish poisoning. HABs are frequent in Malaysia, with recent events including a fish kill that an estimated to have cost industry $ 2.6 million. In 2013 a paralytic shellfish poisoning outbreak resulted in four deaths and left more than 60 other victims ill after consuming contaminated shellfish. Early warning of HABs in Malaysia will warn regulator and consumers of potential health risks from contaminated shellfish (or sometimes fish) and allow aquaculture businesses to take mitigation measures, e.g., shellfish can be left in situ until toxin depurates, fish cages can be "fenced" using perimeter skirting, fish can be harvested early or transferred to land facilities. In this project UK and Malaysian scientists and fishery regulators will work together to transfer the HAB early warning technology operating in the UK to Malaysia. This will allow us to produce a Malaysian HABreports web site and mobile phone app that includes a traffic light (low, medium, high) index of current risk in different locations and an expert interpretation based forecast of risk for the coming week. Following the project the Malaysian Government will be in a position to continue to produce these risk assessments, providing enhanced ongoing support for the aquaculture industry and public consumers of seafood. Demonstration of our approach will also lead to its potential application elsewhere in the region.
Impact Summary
The project is impact driven with a primary aim of transferring the knowledge and expertise related to harmful algal bloom early warming and risk assessment developed previously with BBSRC/NERC funding in the UK to the DAC country Malaysia. The project will directly benefit the following stakeholders: Consumers of Malaysian aquaculture products (both domestically and exported) The Malaysian aquaculture industry The governmental regulators of the Malaysian Aquaculture industry Malaysian academics working in the field of harmful algal bloom research Aquaculture insurers How will they benefit? The project will provide the public an additional degree of safety in relation to consumption of seafood minimising, and we hope preventing, the shellfish poisoning events that have had significant health impacts in Malaysia in the past. The on line public information material that will be produced as part of the project will help to educate the Malaysian public on the risks associated with shellfish consumption and the measures that are in place to minimise these. The app based traffic light high/medium/low risk index will provide a quick and easily interpreted index of current HAB risk in the different aquaculture producing regions of Malaysia. This will benefit producers, regulators and consumers. The risk forecasts will provide the aquaculture industry with early warning of potential risk in the next one to two weeks allowing them to prepare and take mitigation action if thought necessary. It will also provide regulators with a means of targeting increased sampling frequency or end product testing. Aquaculture practitioners in Malaysia will have, for the first time, rapid access to all available data related to HABs, biotoxins and associated environmental variables allowing them to make informed decisions related to their management practices. Aquaculture site operators, investors and their insurers will benefit from enhanced understanding of the environmentin which they are planning to operate, and the risks, challenges and benefits that working in different locations may bring. The development of chart based metrics of the location and severity of HAB events in Malaysia will provide valuable spatial-temporal information for industry, investors and insurers to make informed decisions on expansion of aquaculture in the region. It will also allow regulators to develop coherent regional and national plans for development and expansion of the industry. The interaction between UK and Malaysian academics will strengthen research linkages and pool expertise to better understand the environmental drivers of HABs in Malaysian waters. Wider benefits: We also hope that the project will provide a "proof of concept" that will lead to the uptake of HAB early warning and risk assessment practices elsewhere in South East Asia to the wider benefit of the aquaculture industry in the S.E Asia region and consumers of its products.
Committee
Not funded via Committee
Research Topics
Microbial Food Safety
Research Priority
X – Research Priority information not available
Research Initiative
Global Challenges Research Fund Translation Awards (GCRFTA) [2017]
Funding Scheme
X – not Funded via a specific Funding Scheme
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