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Journal article
Light-mediated release of dissolved organic carbon by phytoplankton
Journal of marine systems, Vol.147(C), pp.45-51
07/2015
Web of Science ID: WOS:000356547200006
Abstract
Laboratory and field studies were carried out to examine the effects of irradiance variability on dissolved organic carbon (DOC) extracellular release by phytoplankton (ER) and the response of natural bacteria assemblages. In axenic laboratory cultures, ER was 3× greater in cultures shifted to 330μmol photons m−2s−1 compared to cultures kept at their cultured irradiance, 110μmolphotonsm−2s−1. Natural bacterial assemblages incubated in the dark for 24h in algal-free culture filtrate generated from both light treatments consumed the DOC from the high-light treatment at a faster rate than that for the low-light treatment. Field measurements in the coastal waters of the northeastern Gulf of Mexico (GOM) and the Eastern North Pacific (ENP) mirrored the laboratory findings, with short-term increases in DOC concentrations occurring concurrently with short-term increases in irradiance, followed by rapid consumption by bacteria. Where no diurnal irradiance increase was observed (overcast skies), no increase in DOC concentration was observed. An experiment using 14C as a tracer for plankton interactions (GOM) was consistent with data on bulk DOC concentrations. For all the field measurements, the rate of irradiance change was correlated with the quantity of DOC released. Collectively these results indicated that release of DOC by phytoplankton populations as a function of incident irradiance can be significant and may have important implications for estimates of ocean carbon flux.
•Axenic T. weissflogii cultures release significant amounts of DOC after exposure to a higher irradiance.•Natural phytoplankton communities exhibit short-term, diurnal, increases in bulk DOC associated with rapid increases in solar irradiance.•Light mediated extracellularly released DOC appears to be preferentially utilized by natural coastal bacterial populations.•14C radiotracer studies demonstrate short-term increases in DO14C in response to variability in irradiance, and subsequent bacterial uptake.•light-mediated ER release by phytoplankton can be significant and may have important implications for estimates of ocean carbon flux.
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Details
- Title
- Light-mediated release of dissolved organic carbon by phytoplankton
- Publication Details
- Journal of marine systems, Vol.147(C), pp.45-51
- Resource Type
- Journal article
- Publisher
- Elsevier B.V
- Grant note
- This work was supported by a Department of Energy grant (DE-FG03-00ER62982) and the National Oceanographic and Atmospheric Administration Educational Partnership Program grants (NA17AE1624 and NA06OAR4810164) to J.C as well as a University of West Florida Faculty Small Grant to W.H.J. and a Faculty Small Grant to J.F.M. from Lamont-Doherty Earth Observatory.
- Copyright
- © 2014 Elsevier B.V. All rights reserved.
- Identifiers
- WOS:000356547200006; 99380184796406600
- Academic Unit
- Hal Marcus College of Science and Engineering ; Center for Environmental Diagnostics and Bioremediation
- Language
- English