Short exposure to oxygen and sulfide alter nitrification, denitrification, and DNRA activity in seasonally hypoxic estuarine sediments

Caffrey, Jane M.; Bonaglia, Stefano; Conley, Daniel J.

Short exposure to oxygen and sulfide alter nitrification, denitrification, and DNRA activity in seasonally hypoxic estuarine sediments

Mark

Caffrey, Jane M. ^LU ; Bonaglia, Stefano ^LU and Conley, Daniel J. ^LU (2019) In FEMS Microbiology Letters 366(1).

Abstract: Increased organic loading to sediments from eutrophication often results in hypoxia, reduced nitrification and increased production of hydrogen sulfide, altering the balance between nitrogen removal and retention. We examined the effect of short-term exposure to various oxygen and sulfide concentrations on sediment nitrification, denitrification and DNRA from a chronically hypoxic basin in Roskilde Fjord, Denmark. Surprisingly, nitrification rates were highest in the hypoxic and anoxic treatments (about 5 μmol cm-3 d-1) and the high sulfide treatment was not significantly different than the oxic treatment. Denitrification in the hypoxic treatment was highest at 1.4 μmol cm-3 d-1 and significantly higher than the high sulfide treatment.... (More); Increased organic loading to sediments from eutrophication often results in hypoxia, reduced nitrification and increased production of hydrogen sulfide, altering the balance between nitrogen removal and retention. We examined the effect of short-term exposure to various oxygen and sulfide concentrations on sediment nitrification, denitrification and DNRA from a chronically hypoxic basin in Roskilde Fjord, Denmark. Surprisingly, nitrification rates were highest in the hypoxic and anoxic treatments (about 5 μmol cm-3 d-1) and the high sulfide treatment was not significantly different than the oxic treatment. Denitrification in the hypoxic treatment was highest at 1.4 μmol cm-3 d-1 and significantly higher than the high sulfide treatment. For DNRA, the rate in high sulfide treatment was 2 μmol cm-3 d-1. This was significantly higher than all oxygen treatments that were near zero. In this system, nitrifiers rapidly recovered from conditions typically considered inhibiting, while denitrifiers had a more muted response. DNRA bacteria appear to depend on sulfide for nitrate reduction. Anammox was insignificant. Thus, in estuaries and coastal systems that experience short-term variations in oxygen and sulfide, capabilities of microbial communities are more diverse and tolerant of suboptimal conditions than some paradigms suggest.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/3bab46b6-0394-435e-a822-7267e243d92e

author

Caffrey, Jane M. ^LU ; Bonaglia, Stefano ^LU and Conley, Daniel J. ^LU

organization

Quaternary Sciences

publishing date

2019

type

Contribution to journal

publication status

published

subject

in

FEMS Microbiology Letters

volume

366

issue

1

article number

fny288

publisher

Oxford University Press

external identifiers

pmid:30596977
scopus:85060616610

ISSN

1574-6968

DOI

10.1093/femsle/fny288

language

English

LU publication?

yes

id

3bab46b6-0394-435e-a822-7267e243d92e

date added to LUP

2019-02-06 15:38:28

date last changed

2024-07-09 05:41:17

@article{3bab46b6-0394-435e-a822-7267e243d92e,
  abstract     = {{<p>Increased organic loading to sediments from eutrophication often results in hypoxia, reduced nitrification and increased production of hydrogen sulfide, altering the balance between nitrogen removal and retention. We examined the effect of short-term exposure to various oxygen and sulfide concentrations on sediment nitrification, denitrification and DNRA from a chronically hypoxic basin in Roskilde Fjord, Denmark. Surprisingly, nitrification rates were highest in the hypoxic and anoxic treatments (about 5 μmol cm-3 d-1) and the high sulfide treatment was not significantly different than the oxic treatment. Denitrification in the hypoxic treatment was highest at 1.4 μmol cm-3 d-1 and significantly higher than the high sulfide treatment. For DNRA, the rate in high sulfide treatment was 2 μmol cm-3 d-1. This was significantly higher than all oxygen treatments that were near zero. In this system, nitrifiers rapidly recovered from conditions typically considered inhibiting, while denitrifiers had a more muted response. DNRA bacteria appear to depend on sulfide for nitrate reduction. Anammox was insignificant. Thus, in estuaries and coastal systems that experience short-term variations in oxygen and sulfide, capabilities of microbial communities are more diverse and tolerant of suboptimal conditions than some paradigms suggest.</p>}},
  author       = {{Caffrey, Jane M. and Bonaglia, Stefano and Conley, Daniel J.}},
  issn         = {{1574-6968}},
  language     = {{eng}},
  number       = {{1}},
  publisher    = {{Oxford University Press}},
  series       = {{FEMS Microbiology Letters}},
  title        = {{Short exposure to oxygen and sulfide alter nitrification, denitrification, and DNRA activity in seasonally hypoxic estuarine sediments}},
  url          = {{http://dx.doi.org/10.1093/femsle/fny288}},
  doi          = {{10.1093/femsle/fny288}},
  volume       = {{366}},
  year         = {{2019}},
}

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Short exposure to oxygen and sulfide alter nitrification, denitrification, and DNRA activity in seasonally hypoxic estuarine sediments