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‘Environmental DNA’ Lets Scientists Probe Underwater Life

‘Environmental DNA’ Lets Scientists Probe Underwater Life

4 years ago
Anonymous $9CO2RSACsf

https://www.wired.com/story/environmental-dna-lets-scientists-probe-underwater-life/

Tracking down marine life isn’t easy. Ocean scientists drag nets through the water to find the fish or plankton they are looking for, tag whales with harpoon-like devices, or scuba dive with an erase-proof whiteboard and hand counter to tally reef fish. That’s how you count creatures underwater. But an emerging technology called environmental DNA, or eDNA, is easing this time-consuming and expensive process for scientists by allowing them to grab water samples and check for DNA.

Each drop of seawater contains thousands of microorganisms, as well as bits of skin, mucus, and waste shed by passing fish and mammals. Using a robotic laboratory mounted on an underwater drone that filters and sequences the DNA that it finds, scientists and engineers can now identify marine life without coming back to shore. “You don’t need a big ship to collect your samples,” says Chris Scholin, executive director of the Monterey Bay Aquarium Research Institute, which is developing this new technology along with several other research groups across the US. “This has become portable and small enough to operate in real time on an autonomous underwater vehicle.”

‘Environmental DNA’ Lets Scientists Probe Underwater Life

Feb 21, 2020, 2:25pm UTC
https://www.wired.com/story/environmental-dna-lets-scientists-probe-underwater-life/ > Tracking down marine life isn’t easy. Ocean scientists drag nets through the water to find the fish or plankton they are looking for, tag whales with harpoon-like devices, or scuba dive with an erase-proof whiteboard and hand counter to tally reef fish. That’s how you count creatures underwater. But an emerging technology called environmental DNA, or eDNA, is easing this time-consuming and expensive process for scientists by allowing them to grab water samples and check for DNA. > Each drop of seawater contains thousands of microorganisms, as well as bits of skin, mucus, and waste shed by passing fish and mammals. Using a robotic laboratory mounted on an underwater drone that filters and sequences the DNA that it finds, scientists and engineers can now identify marine life without coming back to shore. “You don’t need a big ship to collect your samples,” says Chris Scholin, executive director of the Monterey Bay Aquarium Research Institute, which is developing this new technology along with several other research groups across the US. “This has become portable and small enough to operate in real time on an autonomous underwater vehicle.”