Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico

Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico

Dispersant application is a primary emergency oil spill response strategy and yet the efficacy and unintended consequences of this approach in marine ecosystems remain controversial. To address these uncertainties, ex situ incubations were conducted to quantify the impact of dispersant on petroleum...

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Main Authors: Xiaoxu Sun, Lena Chu, Elisa Mercando, Isabel Romero, David Hollander, Joel E. Kostka
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-10-01
Series:Frontiers in Microbiology
Subjects:
hydrocarbon degradation
Deepwater Horizon
dispersant
microbial community
hydrocarbon analysis
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2019.02387/full
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spelling doaj-dc9dfccb1cbe496ba4258aa34dad678b2020-11-24T21:39:28ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2019-10-011010.3389/fmicb.2019.02387456103Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of MexicoXiaoxu Sun0Xiaoxu Sun1Lena Chu2Elisa Mercando3Isabel Romero4David Hollander5Joel E. Kostka6Joel E. Kostka7School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA, United StatesGuangdong Key Laboratory of Agricultural Environment Pollution Integrated Control, Guangdong Institute of Eco-Environmental Science and Technology, Guangzhou, ChinaSchool of Biological Sciences, Georgia Institute of Technology, Atlanta, GA, United StatesSchool of Biological Sciences, Georgia Institute of Technology, Atlanta, GA, United StatesCollege of Marine Science, University of South Florida, St. Petersburg, St. Petersburg, FL, United StatesCollege of Marine Science, University of South Florida, St. Petersburg, St. Petersburg, FL, United StatesSchool of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA, United StatesSchool of Biological Sciences, Georgia Institute of Technology, Atlanta, GA, United StatesDispersant application is a primary emergency oil spill response strategy and yet the efficacy and unintended consequences of this approach in marine ecosystems remain controversial. To address these uncertainties, ex situ incubations were conducted to quantify the impact of dispersant on petroleum hydrocarbon (PHC) biodegradation rates and microbial community structure at as close as realistically possible to approximated in situ conditions [2 ppm v/v oil with or without dispersant, at a dispersant to oil ratio (DOR) of 1:15] in surface seawater. Biodegradation rates were not substantially affected by dispersant application at low mixing conditions, while under completely dispersed conditions, biodegradation was substantially enhanced, decreasing the overall half-life of total PHC compounds from 15.4 to 8.8 days. While microbial respiration and growth were not substantially altered by dispersant treatment, RNA analysis revealed that dispersant application resulted in pronounced changes to the composition of metabolically active microbial communities, and the abundance of nitrogen-fixing prokaryotes, as determined by qPCR of nitrogenase (nifH) genes, showed a large increase. While the Gammaproteobacteria were enriched in all treatments, the Betaproteobacteria and different families of Alphaproteobacteria predominated in the oil and dispersant treatment, respectively. Results show that mixing conditions regulate the efficacy of dispersant application in an oil slick, and the quantitative increase in the nitrogen-fixing microbial community indicates a selection pressure for nitrogen fixation in response to a readily biodegradable, nitrogen-poor substrate.https://www.frontiersin.org/article/10.3389/fmicb.2019.02387/fullhydrocarbon degradationDeepwater Horizondispersantmicrobial communityhydrocarbon analysis
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoxu Sun
Xiaoxu Sun
Lena Chu
Elisa Mercando
Isabel Romero
David Hollander
Joel E. Kostka
Joel E. Kostka
spellingShingle Xiaoxu Sun
Xiaoxu Sun
Lena Chu
Elisa Mercando
Isabel Romero
David Hollander
Joel E. Kostka
Joel E. Kostka
Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
Frontiers in Microbiology
hydrocarbon degradation
Deepwater Horizon
dispersant
microbial community
hydrocarbon analysis
author_facet Xiaoxu Sun
Xiaoxu Sun
Lena Chu
Elisa Mercando
Isabel Romero
David Hollander
Joel E. Kostka
Joel E. Kostka
author_sort Xiaoxu Sun
title Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
title_short Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
title_full Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
title_fullStr Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
title_full_unstemmed Dispersant Enhances Hydrocarbon Degradation and Alters the Structure of Metabolically Active Microbial Communities in Shallow Seawater From the Northeastern Gulf of Mexico
title_sort dispersant enhances hydrocarbon degradation and alters the structure of metabolically active microbial communities in shallow seawater from the northeastern gulf of mexico
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2019-10-01
description Dispersant application is a primary emergency oil spill response strategy and yet the efficacy and unintended consequences of this approach in marine ecosystems remain controversial. To address these uncertainties, ex situ incubations were conducted to quantify the impact of dispersant on petroleum hydrocarbon (PHC) biodegradation rates and microbial community structure at as close as realistically possible to approximated in situ conditions [2 ppm v/v oil with or without dispersant, at a dispersant to oil ratio (DOR) of 1:15] in surface seawater. Biodegradation rates were not substantially affected by dispersant application at low mixing conditions, while under completely dispersed conditions, biodegradation was substantially enhanced, decreasing the overall half-life of total PHC compounds from 15.4 to 8.8 days. While microbial respiration and growth were not substantially altered by dispersant treatment, RNA analysis revealed that dispersant application resulted in pronounced changes to the composition of metabolically active microbial communities, and the abundance of nitrogen-fixing prokaryotes, as determined by qPCR of nitrogenase (nifH) genes, showed a large increase. While the Gammaproteobacteria were enriched in all treatments, the Betaproteobacteria and different families of Alphaproteobacteria predominated in the oil and dispersant treatment, respectively. Results show that mixing conditions regulate the efficacy of dispersant application in an oil slick, and the quantitative increase in the nitrogen-fixing microbial community indicates a selection pressure for nitrogen fixation in response to a readily biodegradable, nitrogen-poor substrate.
topic hydrocarbon degradation
Deepwater Horizon
dispersant
microbial community
hydrocarbon analysis
url https://www.frontiersin.org/article/10.3389/fmicb.2019.02387/full
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