Biodegradation: Updating the Concepts of Control for Microbial Cleanup in Contaminated Aquifers

Rainer U. Meckenstock; Martin Elsner; Christian Griebler; Tillmann Lueders; Christine Stumpp; Jens Aamand; Spiros N. Agathos; Hans‐Jørgen Albrechtsen; Leen Bastiaens; Poul Løgstrup Bjerg; Nico Boon; Winnie Dejonghe; Wei E. Huang; Susanne I. Schmidt; Erik Smolders; Sebastian R. Sørensen; Dirk Springael; Boris M. van Breukelen

doi:10.1021/acs.est.5b00715

Biodegradation: Updating the Concepts of Control for Microbial Cleanup in Contaminated Aquifers

Rainer U. Meckenstock(University of Duisburg-Essen), Martin Elsner(Institute of Groundwater Ecology), Christian Griebler(Institute of Groundwater Ecology), Tillmann Lueders(Helmholtz Zentrum München), Christine Stumpp(Institute of Groundwater Ecology), Jens Aamand(Geological Survey of Denmark and Greenland), Spiros N. Agathos(UCLouvain), Hans‐Jørgen Albrechtsen(Technical University of Denmark), Leen Bastiaens(Flemish Institute for Technological Research), Poul Løgstrup Bjerg(Technical University of Denmark), Nico Boon(Ghent University), Winnie Dejonghe(Flemish Institute for Technological Research), Wei E. Huang(University of Oxford), Susanne I. Schmidt(University of Birmingham), Erik Smolders(KU Leuven), Sebastian R. Sørensen(Geological Survey of Denmark and Greenland), Dirk Springael(KU Leuven), Boris M. van Breukelen(Vrije Universiteit Amsterdam)

Environmental Science & Technology

May 22, 2015

10.1021/acs.est.5b00715

Cited by 289Open Access

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Abstract

Biodegradation is one of the most favored and sustainable means of removing organic pollutants from contaminated aquifers but the major steering factors are still surprisingly poorly understood. Growing evidence questions some of the established concepts for control of biodegradation. Here, we critically discuss classical concepts such as the thermodynamic redox zonation, or the use of steady state transport scenarios for assessing biodegradation rates. Furthermore, we discuss if the absence of specific degrader populations can explain poor biodegradation. We propose updated perspectives on the controls of biodegradation in contaminant plumes. These include the plume fringe concept, transport limitations, and transient conditions as currently underestimated processes affecting biodegradation.

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