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Bacterioplankton drawdown of coral mass-spawned organic matter

Authors :
Guillemette, R.
Kaneko, R.
Blanton, J.
Tan, J.
Witt, M.
Hamilton, S.
Allen, E.
Medina, M.
Hamasaki, K.
Koch, B. P.
Azam, F.
Guillemette, R.
Kaneko, R.
Blanton, J.
Tan, J.
Witt, M.
Hamilton, S.
Allen, E.
Medina, M.
Hamasaki, K.
Koch, B. P.
Azam, F.
Source :
EPIC3Isme Journal, NATURE PUBLISHING GROUP, 12(9), pp. 2238-2251, ISSN: 1751-7362
Publication Year :
2018

Abstract

Coral reef ecosystems are highly sensitive to microbial activities that result from dissolved organic matter (DOM) enrichment of their surrounding seawater. However, the response to particulate organic matter (POM) enrichment is less studied. In a microcosm experiment, we tested the response of bacterioplankton to a pulse of POM from the mass-spawning of Orbicella franksi coral off the Caribbean coast of Panama. Particulate organic carbon (POC), a proxy measurement for POM, increased by 40-fold in seawater samples collected during spawning; 68% degraded within 66 h. The elevation of multiple hydrolases presumably solubilized the spawn-derived POM into DOM. A carbon budget constructed for the 275 µM of degraded POC showed negligible change to the concentration of dissolved organic carbon (DOC), indicating that the DOM was readily utilized. Fourier transform ion cyclotron resonance mass spectrometry shows that the DOM pool became enriched with heteroatom-containing molecules, a trend that suggests microbial alteration of organic matter. Our sensitivity analysis demonstrates that bacterial carbon demand could have accounted for a large proportion of the POC degradation. Further, using bromodeoxyuridine immunocapture in combination with 454 pyrosequencing of the 16S ribosomal RNA gene, we surmise that actively growing bacterial groups were the primary degraders. We conclude that coral gametes are highly labile to bacteria and that such large capacity for bacterial degradation and alteration of organic matter has implications for coral reef health and coastal marine biogeochemistry.

Details

Database :
OAIster
Journal :
EPIC3Isme Journal, NATURE PUBLISHING GROUP, 12(9), pp. 2238-2251, ISSN: 1751-7362
Notes :
application/pdf
Publication Type :
Electronic Resource
Accession number :
edsoai.on1057901299
Document Type :
Electronic Resource