Scientists are using DNA left in the waste of ocean animals to detect which creatures live in water than can be more than 7,200 feet deep.
Analyzing DNA in skin, scales, and feces animals leave behind has shown promise for revealing hidden ecosystems on land and in fresh water. But deep ocean environments have largely proven too complex for the approach.
“We want to know what’s out there,” says study lead author Elizabeth A. Andruszkiewicz, a graduate student in Stanford University’s civil and environmental engineering department. “Eventually, this technology may answer bigger questions, such as how communities of organisms have adapted to environmental changes over time.”
Of the few previous environmental DNA, or eDNA, studies of ocean animals, all were done in relatively shallow nearshore environments. Most were done in controlled systems such as saltwater tanks, and few looked in real environments at questions of spatial distribution of eDNA.
The study also marks the first time the approach has been used in the deep waters of Monterey Bay, an important ecosystem in the California Current, which flows southward along the western coast of North America. In addition to being highly productive ecosystems, these areas have been the focus of relatively intensive ongoing research by institutions such as the Monterey Bay Aquarium Research Institute (a partner in the study). The resulting archived water samples and long-term datasets present unique opportunities for eDNA analysis of ecological change over time.
Simple question, powerful answer
Collecting eDNA is fairly straightforward—a basic water sample does the trick—and scientists can archive these samples for long periods by freezing them. The approach promises a faster, more comprehensive, and less invasive way to measure abundance and distribution of organisms. It might also be able to detect invasive species or changes in the distribution of endangered species.
“This could revolutionize the way we keep track of animals,” says study coauthor Alexandria Boehm, professor of civil and environmental engineering and a senior fellow at the Stanford Woods Institute for the Environment.
The eDNA survey identified 72 species of vertebrates (marine fishes, mammals such as elephant seals, humpback whales, sharks, and rockfishes) at study sites across 28 miles of the Monterey Bay National Marine Sanctuary.
Scientists found DNA of some creatures, such as sunfishes, salmon, seahorses, and mackerel sharks, only in locations where the water was less than 600 feet deep. DNA of other animals, such as dolphins and marine smelts, turned up only in waters more than 600 feet deep. The shallowest waters held the greatest biodiversity.
Taken as a whole, the findings provide a proof of concept for eDNA as an ocean sleuthing tool.
“It is a remarkably powerful way to answer a simple question: What species are present in space and time in our oceans?” says coauthor Barbara Block, a professor of marine sciences at Stanford. “It could change how we view our planet’s marine biodiversity.”
eDNA and the ocean
DNA sequencing has driven unprecedented research and discovery in fields ranging from medical diagnosis to evolutionary biology.
Preliminary studies have shown that eDNA sequencing can identify vertebrate species missed by traditional monitoring methods and can allow sampling in places inaccessible to traditional techniques such as dive surveys and fish trawls.
The approach can also be used at finer resolutions, in terms of time and space, compared to traditional biomonitoring methods. This allows scientists to document changes in biodiversity over seasonal and annual cycles, as well as over different topographies.
Questions still remain about how to properly sample water for eDNA, and how to interpret sequencing results to avoid false positives and false negatives. Solving these and other challenges will bring into focus the next frontier for eDNA: counting actual numbers of sea animals and discerning their population-level identity, rather than just detecting their presence.
Working with a team of geneticists, fish physiologists, oceanographers, and engineers, Boehm and Block hope to realize that goal within 10 years.
The study appears in PLOS ONE. Additional authors are from Stanford and the Monterey Bay Aquarium Research Institute.
The US Environmental Protection Agency and the David and Lucile Packard Foundation, along with a gift from the Seaver Institute to the Stanford Woods Institute for the Environment’s Environmental Venture Projects program, supported the research.
Source: Stanford University
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