Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments

Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments

Predicting nitrous oxide emissions (N2O) remains difficult due to the numerous N2O production pathways. Here, the authors use incubations simulating high nitrate inputs to show that, in intertidal sediments, increases in N2O flux are largely mediated by fungal denitrification and/or chemodenitrifica...

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Main Authors: Scott D. Wankel, Wiebke Ziebis, Carolyn Buchwald, Chawalit Charoenpong, Dirk de Beer, Jane Dentinger, Zhenjiang Xu, Karsten Zengler
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms15595
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spelling doaj-459cf382eb8c439a986b75d60eaac4682021-05-11T07:57:33ZengNature Publishing GroupNature Communications2041-17232017-06-018111110.1038/ncomms15595Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sedimentsScott D. Wankel0Wiebke Ziebis1Carolyn Buchwald2Chawalit Charoenpong3Dirk de Beer4Jane Dentinger5Zhenjiang Xu6Karsten Zengler7Department of Marine Chemistry and Geochemistry, Woods Hole Oceanographic InstitutionDepartment of Biology, University of Southern CaliforniaDepartment of Marine Chemistry and Geochemistry, Woods Hole Oceanographic InstitutionDepartment of Marine Chemistry and Geochemistry, Woods Hole Oceanographic InstitutionMax Planck Institute for Marine MicrobiologyDepartment of Biology, University of Southern CaliforniaDepartment of Pediatrics, University of CaliforniaDepartment of Pediatrics, University of CaliforniaPredicting nitrous oxide emissions (N2O) remains difficult due to the numerous N2O production pathways. Here, the authors use incubations simulating high nitrate inputs to show that, in intertidal sediments, increases in N2O flux are largely mediated by fungal denitrification and/or chemodenitrification.https://doi.org/10.1038/ncomms15595
collection DOAJ
language English
format Article
sources DOAJ
author Scott D. Wankel
Wiebke Ziebis
Carolyn Buchwald
Chawalit Charoenpong
Dirk de Beer
Jane Dentinger
Zhenjiang Xu
Karsten Zengler
spellingShingle Scott D. Wankel
Wiebke Ziebis
Carolyn Buchwald
Chawalit Charoenpong
Dirk de Beer
Jane Dentinger
Zhenjiang Xu
Karsten Zengler
Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
Nature Communications
author_facet Scott D. Wankel
Wiebke Ziebis
Carolyn Buchwald
Chawalit Charoenpong
Dirk de Beer
Jane Dentinger
Zhenjiang Xu
Karsten Zengler
author_sort Scott D. Wankel
title Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
title_short Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
title_full Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
title_fullStr Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
title_full_unstemmed Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments
title_sort evidence for fungal and chemodenitrification based n2o flux from nitrogen impacted coastal sediments
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-06-01
description Predicting nitrous oxide emissions (N2O) remains difficult due to the numerous N2O production pathways. Here, the authors use incubations simulating high nitrate inputs to show that, in intertidal sediments, increases in N2O flux are largely mediated by fungal denitrification and/or chemodenitrification.
url https://doi.org/10.1038/ncomms15595
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