Lighting up marine organisms
Animals that are experiencing physical damage or early signs of stress can be visually identified using excitation light that induces fluorescence, research at Nofima shows.
There is an increasing need for methods that can accurately measure stress in aquaculture species, without harming the organism. Hyperspectral imaging of biofluorescence is such a method, as it can potentially measure early signs of stress in both fish and invertebrates.
The fish and invertebrates that exhibit biofluorescence emit lower energy colored light when they are exposed to higher-energy blue light. This strong fluorescence is not visible to the naked eye, but it can be measured with hyperspectral imaging.
“Fish may exhibit welfare traits in ways that are invisible to the human eye, and one of our objectives is to explore new technologies that can reveal this to us in real-time”, says Evan Durland, scientist in aquaculture genetics and project leader.
Welfare indicators are important because animals that experience chronic stress are vulnerable to disease, experience less growth, and ultimately have a higher mortality rate. The current methods used to identify early signs of stress in marine species have certain limitations.
Glowing when stressed
Technology scientists Samuel Ortega and visiting PhD student Thomas Juhasz investigated the applications of using hyperspectral imaging of biofluorescence as a welfare indicator for marine species, particularly lumpfish, red king crab, and green sea urchins.
The scientists found that lumpfish and red king crabs produced stronger fluorescent emissions after exposure to stressors. Put in simple words, the animals glowed more brightly when they experienced acute stress. They also found that sea urchins with broken spines or lesions glow brighter in the areas where they are affected.
The scientist has ideas for how to improve the technology:
“We want to see if we can integrate artificial intelligence (AI) into this method. The AI can analyze the biofluorescence data acquired through hyperspectral imaging, and alert us if it detects any fluorescence changes that may indicate stress in the animals. We believe that this could contribute significantly to the future of welfare measurement during aquaculture operations”, says Samuel Ortega.
The research was funded by the EU Horizon 2020 program through the AquaVitae project, and by Nofima through the Deep Vision project. The research was done by Nofima in collaboration with Marie Curie PhD student Thomas Juhasz in 2022.
Keywords
Contacts
Samuel Ortega SarmientoScientistNofima - Avdeling Sjømatindustri
Tel:+47 77629062Tel:+47 92058823samuel.ortega@nofima.nonofima.com/employee/samuel-ortega-sarmiento/Evan DurlandScientistNofima, Avdeling Avl og genetikk
Tel:+47 64970174Tel:+47 92251745evan.durland@nofima.nonofima.com/employee/evan-durland/Reidun Lilleholt Kraugerud
Tel:48197382reidun.lilleholt@nofima.noImages
Links
About Nofima
The Norwegian food research institute Nofima provides research based knowledge and innovations for actors in all parts of the food systems.
Subscribe to releases from Nofima
Subscribe to all the latest releases from Nofima by registering your e-mail address below. You can unsubscribe at any time.
Latest releases from Nofima
Salmon secrete substances that attract sea lice6.12.2024 13:04:53 CET | Press release
New research has enhanced our understanding of why sea lice are predominantly attracted to salmon.
Laks utskiller stoffer som tiltrekker seg lakselus6.12.2024 09:42:00 CET | Pressemelding
Ny forskning styrker kunnskapen om hvorfor lakselus nesten utelukkende tiltrekkes av laks.
Norskproduserte vegetarprodukter i framgang, men nedgang i salget totalt5.12.2024 07:00:00 CET | Pressemelding
Det norske markedet for plantebaserte produkter nådde en topp i 2021, deretter har det falt noe tilbake. Ikke desto mindre; markedet er tre ganger så stort som i 2016.
Usynlig lys som velferdsindikator11.11.2024 10:22:15 CET | Pressemelding
Dyr som lever med en fysisk skade eller har usynlige tegn på stress kan identifiseres visuelt ved hjelp av fluorescerende lys, viser forskning fra Nofima.
Forskere vil ha elever med i kampen for å redde tareskogen11.11.2024 07:00:00 CET | Pressemelding
Sammen med 4. klassinger skal Philip James og Oda Bjørnsborg jakte på den forsvunne tareskogen. De skal besøke barneskoler for å gjøre elever nysgjerrig på tang, tare, kråkeboller og den skjøre balansen i havets økosystem.
In our pressroom you can read all our latest releases, find our press contacts, images, documents and other relevant information about us.
Visit our pressroom