Trace Elements in the Sea Surface Microlayer: Results from a Two Year Study in the Florida Keys

Alina Marie Ebling1, Jason R Westrich2, Erin K Lipp2, Travis Mellett3, Kristen N Buck3 and William M Landing4, (1)Florida State University, Department of Earth, Ocean, and Atmospheric Science, Tallahassee, FL, United States, (2)The University of Georiga, Environmental Health Science, Athens, GA, United States, (3)University of South Florida, College of Marine Science, St. Petersburg, FL, United States, (4)Florida State University, Earth, Ocean, and Atmospheric Science, Tallahassee, FL, United States
Abstract:
Natural and anthropogenic aerosols are a significant source of trace elements to oligotrophic ocean surface waters, where they provide episodic pulses of limiting micronutrients for the microbial community. Opportunistic bacteria have been shown to experience rapid growth during deposition events. However, little is known about the fate of trace elements at the air-sea interface, i.e. the sea surface microlayer. It has been hypothesized that dust particles would be retained in the sea surface microlayer long enough to undergo chemical and physical changes that would affect the bioavailability of trace elements. In this study, aerosols, sea surface microlayer, and underlying water column samples were collected in the Florida Keys in July 2014 and May 2015 at various locations and analyzed for a suite of dissolved and particulate trace elements. Sea surface microlayer samples (~ 50 μm) were collected using a cylinder of ultra-pure quartz glass; a novel adaptation of the glass plate technique. Sampling sites ranged from a more pristine environment approximately ten kilometers offshore to a more anthropogenic environment within a shallow bay a few hundred meters offshore. While it was clear from the results that dust deposition events played a large role in the chemical composition of the sea surface microlayer (elevated concentrations in dissolved and particulate trace elements associated with dust deposition), the location where the samples were collected also had a large impact on the sea surface microlayer as well as the underlying water column. The results were compared with other parameters analyzed such as Vibrio cultures as well as iron speciation, providing an important step towards our goal of understanding of the fate of trace elements in the sea surface microlayer as well as the specific effects of aeolian dust deposition on heterotrophic microbes in the upper ocean.