TY - JOUR
T1 - A Multidisciplinary Approach to Investigate Deep-Pelagic Ecosystem Dynamics in the Gulf of Mexico Following Deepwater Horizon
AU - Cook, April
AU - Bernard, Andrea
AU - Boswell, Kevin M.
AU - Bracken-Grissom, Heather
AU - D'Elia, Marta
AU - DeRada, Sergio
AU - Easson, Cole
AU - English, David
AU - Eytan, Ron
AU - Frank, Tamara
AU - Hu, Chuanmin
AU - Johnston, Matt
AU - Judkins, Heather
AU - Lembke, Chad
AU - Lopez, Jose
AU - Milligan, Rosanna
AU - Moore, Jon A.
AU - Penta, Brad
AU - Pruzinsky, Nina
AU - Quinlan, John A.
AU - Richards, Travis M.
AU - Romero, Isabel C.
AU - Shivji, Mahmood S
AU - Vecchione, Michael
AU - Weber, Max D.
AU - Wells, R.J. David
AU - Sutton, Tracey
N1 - Publisher Copyright:
© Copyright © 2020 Cook, Bernard, Boswell, Bracken-Grissom, D’Elia, deRada, Easson, English, Eytan, Frank, Hu, Johnston, Judkins, Lembke, Lopez, Milligan, Moore, Penta, Pruzinsky, Quinlan, Richards, Romero, Shivji, Vecchione, Weber, Wells and Sutton.
PY - 2020/12/29
Y1 - 2020/12/29
N2 - The pelagic Gulf of Mexico (GoM) is a complex system of dynamic physical oceanography (western boundary current, mesoscale eddies), high biological diversity, and community integration via diel vertical migration and lateral advection. Humans also heavily utilize this system, including its deep-sea components, for resource extraction, shipping, tourism, and other commercial activity. This utilization has had impacts, some with disastrous consequences. The Deepwater Horizon oil spill (DWHOS) occurred at a depth of ∼1500 m (Macondo wellhead), creating a persistent and toxic mixture of hydrocarbons and dispersant in the deep-pelagic (water column below 200 m depth) habitat. In order to assess the impacts of the DWHOS on this habitat, two large-scale research programs, described herein, were designed and executed. These programs, ONSAP and DEEPEND, aimed to quantitatively characterize the oceanic ecosystem of the northern GoM and to establish a time-series with which natural and anthropogenic changes could be detected. The approach was multi-disciplinary in nature and included in situ sampling, acoustic sensing, water column profiling and sampling, satellite remote sensing, AUV sensing, numerical modeling, genetic sequencing, and biogeochemical analyses. The synergy of these methodologies has provided new and unprecedented perspectives of an oceanic ecosystem with respect to composition, connectivity, drivers, and variability.
AB - The pelagic Gulf of Mexico (GoM) is a complex system of dynamic physical oceanography (western boundary current, mesoscale eddies), high biological diversity, and community integration via diel vertical migration and lateral advection. Humans also heavily utilize this system, including its deep-sea components, for resource extraction, shipping, tourism, and other commercial activity. This utilization has had impacts, some with disastrous consequences. The Deepwater Horizon oil spill (DWHOS) occurred at a depth of ∼1500 m (Macondo wellhead), creating a persistent and toxic mixture of hydrocarbons and dispersant in the deep-pelagic (water column below 200 m depth) habitat. In order to assess the impacts of the DWHOS on this habitat, two large-scale research programs, described herein, were designed and executed. These programs, ONSAP and DEEPEND, aimed to quantitatively characterize the oceanic ecosystem of the northern GoM and to establish a time-series with which natural and anthropogenic changes could be detected. The approach was multi-disciplinary in nature and included in situ sampling, acoustic sensing, water column profiling and sampling, satellite remote sensing, AUV sensing, numerical modeling, genetic sequencing, and biogeochemical analyses. The synergy of these methodologies has provided new and unprecedented perspectives of an oceanic ecosystem with respect to composition, connectivity, drivers, and variability.
KW - micronekton
KW - epipelagic
KW - mesopelagic
KW - bathypelagic
KW - sampling
KW - hydrography
KW - acoustics
KW - ecosystem structure
UR - https://nsuworks.nova.edu/occ_facarticles/1136
U2 - 10.3389/fmars.2020.548880
DO - 10.3389/fmars.2020.548880
M3 - Article
SN - 2296-7745
VL - 7
SP - 1
EP - 7
JO - Frontiers In Marine Science
JF - Frontiers In Marine Science
M1 - 548880
ER -