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Full-Text Articles in Life Sciences
Combined Edna And Acoustic Analysis Reflects Diel Vertical Migration Of Mixed Consortia In The Gulf Of Mexico, Cole G. Easson, Kevin M. Boswell, Nicholas Tucker, Joseph D. Warren, Jose V. Lopez
Combined Edna And Acoustic Analysis Reflects Diel Vertical Migration Of Mixed Consortia In The Gulf Of Mexico, Cole G. Easson, Kevin M. Boswell, Nicholas Tucker, Joseph D. Warren, Jose V. Lopez
Biology Faculty Articles
Oceanic diel vertical migration (DVM) constitutes the daily movement of various mesopelagic organisms migrating vertically from depth to feed in shallower waters and return to deeper water during the day. Accurate classification of taxa that participate in DVM remains non-trivial, and there can be discrepancies between methods. DEEPEND consortium (www.deependconsortium.org) scientists have been characterizing the diversity and trophic structure of pelagic communities in the northern Gulf of Mexico (nGoM). Profiling has included scientific echosounders to provide accurate and quantitative estimates of organismal density and timing as well as quantitative net sampling of micronekton. The use of environmental DNA (eDNA) can …
Oceanographic Structure And Light Levels Drive Patterns Of Sound Scattering Layers In A Low-Latitude Oceanic System, Kevin M. Boswell, Marta D'Elia, Matthew Johnston, John A. Mohan, Joseph D. Warren, R. J. David Wells, Tracey Sutton
Oceanographic Structure And Light Levels Drive Patterns Of Sound Scattering Layers In A Low-Latitude Oceanic System, Kevin M. Boswell, Marta D'Elia, Matthew Johnston, John A. Mohan, Joseph D. Warren, R. J. David Wells, Tracey Sutton
Biology Faculty Articles
Several factors have been reported to structure the spatial and temporal patterns of sound scattering layers, including temperature, oxygen, salinity, light, and physical oceanographic conditions. In this study, we examined the spatiotemporal variability of acoustically detected sound scattering layers in the northern Gulf of Mexico to investigate the drivers of this variability, including mesoscale oceanographic features [e.g., Loop Current-origin water (LCOW), frontal boundaries, and Gulf Common Water]. Results indicate correlations in the vertical position and acoustic backscatter intensity of sound scattering layers with oceanographic conditions and light intensity. LCOW regions displayed consistent decreases, by a factor of two and four, …
Comparative Population Genomics And Biophysical Modeling Of Shrimp Migration In The Gulf Of Mexico Reveals Current-Mediated Connectivity, Laura Timm, Lys M. Isma, Matthew Johnston, Heather D. Bracken-Grissom
Comparative Population Genomics And Biophysical Modeling Of Shrimp Migration In The Gulf Of Mexico Reveals Current-Mediated Connectivity, Laura Timm, Lys M. Isma, Matthew Johnston, Heather D. Bracken-Grissom
Biology Faculty Articles
The Gulf of Mexico experiences frequent perturbations, both natural and anthropogenic. To better understand the impacts of these events, we must inventory natural variability within the ecosystem, communities, species, and populations, and contextualize these findings in relation to physical features. Here, we present an integrated study of comparative population genomics and biophysical oceanography. Targeting three species of mesopelagic shrimp common to the Gulf of Mexico midwater (Acanthephyra purpurea, Systellaspis debilis, and Robustosergia robusta), we analyzed genetic diversity and population connectivity as proxies for species health and resilience, respectively. We also simulated a range of vertical migratory behaviors …
Comparative Population Genomics And Biophysical Modeling Of Shrimp Migration In The Gulf Of Mexico Reveals Current-Mediated Connectivity, Laura Timm, Lys M. Isma, Matthew Johnston, Heather D. Bracken-Grissom
Comparative Population Genomics And Biophysical Modeling Of Shrimp Migration In The Gulf Of Mexico Reveals Current-Mediated Connectivity, Laura Timm, Lys M. Isma, Matthew Johnston, Heather D. Bracken-Grissom
Biology Faculty Articles
The Gulf of Mexico experiences frequent perturbations, both natural and anthropogenic. To better understand the impacts of these events, we must inventory natural variability within the ecosystem, communities, species, and populations, and contextualize these findings in relation to physical features. Here, we present an integrated study of comparative population genomics and biophysical oceanography. Targeting three species of mesopelagic shrimp common to the Gulf of Mexico midwater (Acanthephyra purpurea, Systellaspis debilis, and Robustosergia robusta), we analyzed genetic diversity and population connectivity as proxies for species health and resilience, respectively. We also simulated a range of vertical migratory behaviors …