Fisheries in a flask? Loose DNA in seawater offers a new measure of marine populations

Fisheries in a flask? Loose DNA in seawater offers a new measure of marine populations

4 years ago
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http://www.sciencemag.org/news/2020/12/fisheries-flask-loose-dna-seawater-offers-new-measure-marine-populations

Crew on the R/V Sea Wolf count fish during a trawl survey. Environmental DNA could be a cost-effective way to improve these surveys.

Estimating the number of fish in the sea is a wet, cold, and inexact business. To gauge how populations are faring—a critical part of managing fisheries—researchers typically drag a large net behind a ship, counting and measuring what they catch. But these trawl surveys only provide a rough indication of fish populations and they cost tens of thousands of dollars a day. Many researchers are hoping sampling loose bits of DNA that float in seawater can improve the surveys and extend them into places where trawls can’t go: sensitive habitats like coral reefs, wind farms, and stretches of rocky sea floor that are treacherous for heavy nets.

Fisheries in a flask? Loose DNA in seawater offers a new measure of marine populations

Dec 3, 2020, 11:27pm UTC
http://www.sciencemag.org/news/2020/12/fisheries-flask-loose-dna-seawater-offers-new-measure-marine-populations > Crew on the R/V Sea Wolf count fish during a trawl survey. Environmental DNA could be a cost-effective way to improve these surveys. > Estimating the number of fish in the sea is a wet, cold, and inexact business. To gauge how populations are faring—a critical part of managing fisheries—researchers typically drag a large net behind a ship, counting and measuring what they catch. But these trawl surveys only provide a rough indication of fish populations and they cost tens of thousands of dollars a day. Many researchers are hoping sampling loose bits of DNA that float in seawater can improve the surveys and extend them into places where trawls can’t go: sensitive habitats like coral reefs, wind farms, and stretches of rocky sea floor that are treacherous for heavy nets.