Frontiers in Marine Science (Jul 2019)

In situ Autonomous Acquisition and Preservation of Marine Environmental DNA Using an Autonomous Underwater Vehicle

  • Kevan M. Yamahara,
  • Christina M. Preston,
  • James Birch,
  • Kristine Walz,
  • Roman Marin,
  • Scott Jensen,
  • Douglas Pargett,
  • Brent Roman,
  • William Ussler,
  • Yanwu Zhang,
  • John Ryan,
  • Brett Hobson,
  • Brian Kieft,
  • Ben Raanan,
  • Kelly D. Goodwin,
  • Francisco P. Chavez,
  • Christopher Scholin

DOI
https://doi.org/10.3389/fmars.2019.00373
Journal volume & issue
Vol. 6

Abstract

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Environmental DNA (eDNA) can be used to identify macroorganisms and describe biodiversity, and thus has promise to supplement biological monitoring in marine ecosystems. Despite this promise, scaling sample acquisition to the spatial and temporal scales needed for effective monitoring would require prohibitively large investments in time and human resources. To address this challenge, we evaluated the efficacy of an autonomous eDNA sampling system and compare results obtained to traditional eDNA sampling methods. The autonomous sampling instrument consisted of the Environmental Sample Processor (ESP) coupled to an autonomous underwater vehicle (AUV). We tested equivalency between the ESP and traditional eDNA sampling techniques by comparing the quantification of eDNA across a broad range of taxa, from microbes (SAR11), phytoplankton (Pseudo-nitzschia spp.), and invertebrates (krill: Euphausia pacifica) to vertebrates (anchovy: Engraulis mordax). No significant differences in eDNA densities were observed between the two sample collection and filtration methods. eDNA filters collected by the ESP were preserved and stable for 21 days, the typical deployment length of the instrumentation. Finally, we demonstrated the unique capabilities of an autonomous, mobile ESP during a deployment near Monterey Bay, CA, by remotely and repeatedly sampling a water mass over 12 h. The development of a mobile ESP demonstrates the promise of utilizing eDNA measurements to observe complex biological processes in the ocean absent a human presence.

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