(Tele)presenting Secrets from the Deep Southern California Margin

Lisa A Levin1, Peter R Girguis2, Michael Brennan3, Christopher R German4, Nicole Raineault3, Jennifer Tran Le5, Benjamin Grupe1, Natalya Gallo6, Katherine E Inderbitzen7, Suna Tuzun8 and Jamie Wagner9, (1)University of California San Diego, La Jolla, CA, United States, (2)Harvard University, Cambridge, MA, United States, (3)Ocean Exploration Trust, Narragansett, RI, United States, (4)Woods Hole Oceanographic Institution, Woods Hole, MA, United States, (5)University of California San Diego, Scripps Institution of Oceanography, La Jolla, CA, United States, (6)Scripps Institution of Oceanography, UCSD, Marine Biology Research Division, La Jolla, CA, United States, (7)University of Alaska School of Fisheries & Ocean Science, Marina, CA, United States, (8)Istanbul University, Istanbul, Turkey, (9)Duke University, Durham, NC, United States
Abstract:
This past summer scientists, students and the public participated through telepresence in 2 weeks of deep-sea exploration via the EV Nautilus, visiting a tremendous diversity of sites found along the southern California continental margin (200-900m). We observed previously unknown cold seeps; new and unexpected assemblages and species distributions; and novel animal behaviors; all under the overarching influence of strong oxygen gradients from the East Pacific oxygen minimum zone (OMZ). The expedition discovered four new methane seep sites, each with distinct biota reflecting varying depth and oxygen levels. OMZ specialists such as lucinid clams, hagfish, and thornyhead fishes coexisted with seep biota (vesicoymid clams) at a 1.4-km long seep off Point Dume (Malibu, CA), forming a blended ecosystem with distinct zonation. A range of habitats (canyons, knolls, mounds) within the OMZ hosted fish, crustacean, echinoderm and cnidarian species with unusual hypoxia tolerance to < 3 µM O2 or lower. Organic falls (a sunken whale and naturally occurring kelp holdfasts) hosted many invertebrates and served as clear magnets for scavengers and predators. In situ observations revealed unusual behaviors including “parasailing” snails and drifting benthic siphonophores in the Santa Monica Basin, fish aggregating at seep carbonates, and cruising catsharks and their egg cases at methane seeps. Many of these observations advance understanding of the ecosystem services provided by deep-sea, margin habitats, while stimulating public interest in ocean exploration. Telepresence permitted broad engagement of students and scientists from as near as Los Angeles and as far as South Africa, as well as meaningful interactions with the public. In situ exploration and observation can and will play increasingly important roles in environmental management of the deep ocean as disturbance from resource extraction and climate change intensify.