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Lecture
Linking the Presence of Surfactant Associated Bacteria on the Sea Surface and in the Near Surface Layer of the Ocean to Satellite Imagery
Oceanography Faculty Proceedings, Presentations, Speeches, Lectures
  • Bryan Hamilton, Nova Southeastern University
  • Cayla Whitney Dean, Nova Southeastern University
  • Naoko Kurata, Nova Southeastern University
  • Alexander Soloviev, Nova Southeastern University
  • Aurelien Tartar, Nova Southeastern University
  • Mahmood S. Shivji, Nova Southeastern University
  • William Perrie, Bedford Institute of Oceanography
  • Susanne Lehner, German Aerospace Center (DLR) Remote Sensing Technology Institute
Event Name/Location
European Geosciences Union General Assembly 2015 / Vienna, Austria
Document Type
Lecture
Publication Date
4-1-2015
Abstract
Several genera of bacteria residing on the sea surface and in the near-surface layer of the ocean have been found to be involved in the production and decay of surfactants. Under low wind speed conditions, these surfactants can suppress short gravity capillary waves at the sea surface and form natural sea slicks. These features can be observed with both airborne and satellite-based synthetic aperture radar (SAR). We have developed a new method for sampling the sea surface microlayer that has reduced contamination from the boat and during lab handling of samples. Using this new method, a series of experiments have been conducted to establish a connection between the presence of surfactant-associated bacteria in the upper layer of the ocean and sea slicks. DNA analysis of in situ samples taken during a RADARSAT-2 satellite overpass in the Straits of Florida during the 2010 Deepwater Horizon oil spill showed a higher abundance of surfactant-associated bacterial genera in the slick area as compared to the non-slick area. These genera were found to be more abundant in the subsurface water samples collected as compared to samples taken from the sea surface. The experiment was repeated in the Straits of Florida in September 2013 and was coordinated with TerraSAR-X satellite overpasses. The observations suggest that the surfactants contributing to sea slick formation are produced by marine bacteria in the organic matter-rich water column and move to the sea surface by diffusion or advection. Thus, within a range of wind-wave conditions, the organic materials present in the water column (such as dissolved oil spills) can be monitored with SAR satellite imagery. In situ sampling was also performed in the Gulf of Mexico in December 2013 during RADARSAT-2 and TerraSAR-X satellite overpasses. Areas near natural oil seeps identified from archived TerraSAR-X imagery were targeted for in situ sampling. A number of samples from this location have been analyzed to determine the presence and relative abundance levels of one genus of surfactant-associated bacteria. Determining the effect of surfactant-associated bacteria on the state of the sea surface may help provide a more complete global picture of biophysical processes at the air-sea interface and uptake of greenhouse gases by the ocean.
Comments

© Author(s) 2015. CC Attribution 3.0 License.

PICO Session: Ocean Interfaces

Session Abstract: Large scale changes in the ocean are often driven by small scale processes mediated by interfaces between various compartments such as sediment/ocean, ocean/atmosphere (e.g., SOLAS science), cell/seawater and particle/seawater interfaces. However, the underlying processes and mechanisms occurring at the ocean interfaces are largely unknown and therefore their impact on large scale changes is difficult to predict. This session will bring together experimentalists and modelers from chemistry, biology, geochemistry and physical oceanography to discuss the latest developments of the investigation of the accumulation, transformation and transport of climate-relevant substances at and across the different ocean interfaces. We are looking for contributions dealing with all aspects of scientific and methodological/technical issues occurring at ocean interfaces spanning all temporal and spatial scales.

Additional Comments

Geophysical Research Abstracts Vol. 17, EGU2015-8067, 2015

Citation Information
Bryan Hamilton, Cayla Whitney Dean, Naoko Kurata, Alexander Soloviev, et al.. "Linking the Presence of Surfactant Associated Bacteria on the Sea Surface and in the Near Surface Layer of the Ocean to Satellite Imagery" (2015)
Available at: http://works.bepress.com/aurelien-tartar/23/