Lobecker Elizabeth

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Lobecker
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Elizabeth
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  • Article
    Exploration of the canyon-incised continental margin of the northeastern United States reveals dynamic habitats and diverse communities
    (Public Library of Science, 2015-10-28) Quattrini, Andrea M. ; Nizinski, Martha S. ; Chaytor, Jason D. ; Demopoulos, Amanda W. J. ; Roark, E. Brendan ; France, Scott C. ; Moore, Jon A. ; Heyl, Taylor ; Auster, Peter J. ; Kinlan, Brian ; Ruppel, Carolyn D. ; Elliott, Kelley P. ; Kennedy, Brian R. C. ; Lobecker, Elizabeth ; Skarke, Adam ; Shank, Timothy M.
    The continental margin off the northeastern United States (NEUS) contains numerous, topographically complex features that increase habitat heterogeneity across the region. However, the majority of these rugged features have never been surveyed, particularly using direct observations. During summer 2013, 31 Remotely-Operated Vehicle (ROV) dives were conducted from 494 to 3271 m depth across a variety of seafloor features to document communities and to infer geological processes that produced such features. The ROV surveyed six broad-scale habitat features, consisting of shelf-breaching canyons, slope-sourced canyons, inter-canyon areas, open-slope/landslide-scar areas, hydrocarbon seeps, and Mytilus Seamount. Four previously unknown chemosynthetic communities dominated by Bathymodiolus mussels were documented. Seafloor methane hydrate was observed at two seep sites. Multivariate analyses indicated that depth and broad-scale habitat significantly influenced megafaunal coral (58 taxa), demersal fish (69 taxa), and decapod crustacean (34 taxa) assemblages. Species richness of fishes and crustaceans significantly declined with depth, while there was no relationship between coral richness and depth. Turnover in assemblage structure occurred on the middle to lower slope at the approximate boundaries of water masses found previously in the region. Coral species richness was also an important variable explaining variation in fish and crustacean assemblages. Coral diversity may serve as an indicator of habitat suitability and variation in available niche diversity for these taxonomic groups. Our surveys added 24 putative coral species and three fishes to the known regional fauna, including the black coral Telopathes magna, the octocoral Metallogorgia melanotrichos and the fishes Gaidropsarus argentatus, Guttigadus latifrons, and Lepidion guentheri. Marine litter was observed on 81% of the dives, with at least 12 coral colonies entangled in debris. While initial exploration revealed the NEUS region to be both geologically dynamic and biologically diverse, further research into the abiotic conditions and the biotic interactions that influence species abundance and distribution is needed.
  • Article
    Expanding our view of the cold-water coral niche and accounting of the ecosystem services of the reef habitat
    (Nature Research, 2023-11-09) Cordes, Erik E. ; Demopoulos, Amanda W. J. ; Davies, Andrew J. ; Gasbarro, Ryan ; Rhoads, Alexandria C. ; Lobecker, Elizabeth ; Sowers, Derek ; Chaytor, Jason D. ; Morrison, Cheryl L. ; Weinnig, Alexis M. ; Brooke, Sandra ; Lunden, Jay J. ; Mienis, Furu ; Joye, Samantha B. ; Quattrini, Andrea M. ; Sutton, Tracey T. ; McFadden, Catherine S. ; Bourque, Jill R. ; McClain-Counts, Jennifer P. ; Andrews, Brian D. ; Betters, Melissa J. ; Etnoyer, Peter J. ; Wolff, Gary A. ; Bernard, Bernie B. ; Brooks, James M. ; Rasser, Michael K. ; Adams, Caitlin
    Coral reefs are iconic ecosystems that support diverse, productive communities in both shallow and deep waters. However, our incomplete knowledge of cold-water coral (CWC) niche space limits our understanding of their distribution and precludes a complete accounting of the ecosystem services they provide. Here, we present the results of recent surveys of the CWC mound province on the Blake Plateau off the U.S. east coast, an area of intense human activity including fisheries and naval operations, and potentially energy and mineral extraction. At one site, CWC mounds are arranged in lines that total over 150 km in length, making this one of the largest reef complexes discovered in the deep ocean. This site experiences rapid and extreme shifts in temperature between 4.3 and 10.7 °C, and currents approaching 1 m s−1. Carbon is transported to depth by mesopelagic micronekton and nutrient cycling on the reef results in some of the highest nitrate concentrations recorded in the region. Predictive models reveal expanded areas of highly suitable habitat that currently remain unexplored. Multidisciplinary exploration of this new site has expanded understanding of the cold-water coral niche, improved our accounting of the ecosystem services of the reef habitat, and emphasizes the importance of properly managing these systems.