The emulsification of oil at the Deepwater Horizon (DWH) well head relegated a large proportion of resultant hydrocarbon plumes to the deep sea, facilitated the incorporation of oil droplets into microbial and planktonic food web, and limited the severity of direct, wetland oiling to coastal Louisiana. Nevertheless, many transient fish and invertebrate species rely on offshore surface waters for egg and larval transport before settling in coastal habitats, thereby potentially impacting the recruitment of transient species to coastal nursery habitats quite distant from the well site. We compared the utilization of salt-marsh habitats by transient and resident nekton before and after the DWH accident using data obtained from an oyster reef restoration project in coastal Alabama. Our sampling activities began in the summer preceding the DWH spill and continued almost two years following the accident. Overall, we did not find significant differences in the recruitment of marsh-associated resident and transient nekton in coastal Alabama following the DWH accident. Our results, therefore, provide little evidence for severe acute or persistent oil-induced impacts on organisms that complete their life cycle within the estuary and those that spent portions of their life history in potentially contaminated offshore surface waters prior to their recruitment to nearshore habitats. Our negative findings are consistent with other assessments of nekton in coastal vegetated habitats and bolster the notion that, despite the presence of localized hydrocarbon enrichments in coastal habitats outside of Louisiana the most severe oil impacts were relegated to coastal Louisiana and the deep sea. Analyzing all the information learned from this accident will undoubtedly provide a synthesis of what has or has not been affected in the Northern Gulf of Mexico, which when put in context with oil spill studies elsewhere should improve our ability to avert and manage the negative consequences of such accidents.
Interannual Recruitment Dynamics for Resident and Transient Marsh Species: Evidence for a Lack of Impact by the Macondo Oil Spill
R. M. Moody,J. Cebrian,K. Heck
Published 2013 in PLoS ONE
ABSTRACT
PUBLICATION RECORD
- Publication year
2013
- Venue
PLoS ONE
- Publication date
2013-03-13
- Fields of study
Medicine, Environmental Science
- Identifiers
- External record
- Source metadata
Semantic Scholar, PubMed
CITATION MAP
EXTRACTION MAP
CLAIMS
CONCEPTS
- coastal alabama
The Alabama Gulf Coast study region where marsh recruitment was measured before and after the spill.
- coastal louisiana
The Louisiana coastal region discussed as a major area of localized oil impact in the broader spill context.
- deepwater horizon oil spill
The 2010 Macondo blowout and oil spill used as the disturbance event for the before-and-after comparison.
Aliases: Macondo oil spill, DWH spill, DWH accident
- marsh-associated resident and transient nekton
The fish and invertebrate assemblage associated with marshes, including resident species and transient species that use offshore waters early in life.
Aliases: resident and transient nekton, marsh nekton
- offshore surface waters
Surface waters offshore that transient species use during egg and larval transport before settlement.
- oil-induced impacts
Biological effects attributed to exposure to spilled oil in marsh and estuarine environments.
- oyster reef restoration project
The coastal Alabama restoration monitoring program that supplied the sampling data used for the comparison.
- recruitment dynamics
The timing and pattern of nekton arrival into marsh habitats across sampling years.
Aliases: recruitment
- salt-marsh habitats
Coastal marsh environments sampled for nekton recruitment in the study area.
Aliases: marsh habitats
REFERENCES
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