BIOAVIALABILITY OF DOM PHOTOCHEMICALLY RELEASED FROM RESUSPENDED SEDIMENTS

Gene B Avery Jr1, Douglas H Rainey1, Ralph N Mead2, Stephen Andrew Skrabal3, Robert J Kieber4, J. David D Felix5 and John R Helms6, (1)University of North Carolina Wilmington, Chemistry and Biochemistry, Wilmington, NC, United States, (2)University of North Carolina Wilmington, Wilmington, NC, United States, (3)Univ North Carolina Wilmington, Wilmington, NC, United States, (4)University of North Carolina Wilmington, Department of Chemistry and Biochemistry, Wilmington, NC, United States, (5)Texas A & M University Corpus Christi, Corpus Christi, TX, United States, (6)UNC Wilmington, Wilmington, NC, United States
Abstract:
Little is known regarding the bioavailability of dissolved organic matter (DOM) released photochemically from resuspended estuarine sediments. Sediments were collected from two sites along the Cape Fear River estuary, NC, USA, size fractionated in 0.2 µm filtered Gulf Stream seawater and exposed to simulated sunlight for six hours. Light exposed samples resulted in increases of dissolved organic carbon (DOC) (34 ± 3 µM), chromophoric dissolved organic matter (CDOM) (a300nm, 2.7 m-1), and fluorescent dissolved organic matter (FDOM) (78.6 quinine sulfate equivalents (QSE)) compared to dark controls. Ultra high resolution mass spectrometric characterization indicated the photoreleased DOM was more oxidized and condensed based upon van Kreevlan analysis. Samples were then filtered and inoculated to a final ratio of 4% with coastal water sample filtered through a100 µm net to remove larger grazing organisms and particles while keeping most of bacterial community intact. All three parameters were monitored during a 30 day-long incubation in the dark to assess biological consumption and alteration. Previously light exposed samples had double (20 vs. 9 µM) the amount of DOC consumed compared to samples not previously exposed to light and twice the loss of CDOM (a300nm, 0.6 vs. 0.3 m-1) compared to samples not previously exposed to light. Previously light exposed samples resulted in a threefold loss of FDOM (9.5 QSE) compared to samples not previously exposed to light (2.8 QSE). Results of this study are important because they demonstrate dissolved organic matter released photochemically from resuspended sediments is more bioavailable than ambient material likely fueling secondary productivity and impacting ecosystem functioning in coastal regions.