Nitrite isotope characteristics and associated soil N transformations

Nitrite isotope characteristics and associated soil N transformations

Abstract Nitrite (NO2 −) is a crucial compound in the N soil cycle. As an intermediate of nearly all N transformations, its isotopic signature may provide precious information on the active pathways and processes. NO2 − analyses have already been applied in 15N tracing studies, increasing their inte...

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Main Authors: Dominika Lewicka-Szczebak, Anne Jansen-Willems, Christoph Müller, Jens Dyckmans, Reinhard Well
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-83786-w
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spelling doaj-538226dc98954924b2da4ff0321cd0f12021-03-11T12:25:35ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111110.1038/s41598-021-83786-wNitrite isotope characteristics and associated soil N transformationsDominika Lewicka-Szczebak0Anne Jansen-Willems1Christoph Müller2Jens Dyckmans3Reinhard Well4Centre for Stable Isotope Research and Analysis, University of GöttingenInstitute of Plant Ecology, Justus Liebig UniversityInstitute of Plant Ecology, Justus Liebig UniversityCentre for Stable Isotope Research and Analysis, University of GöttingenThünen-Institut of Climate-Smart AgricultureAbstract Nitrite (NO2 −) is a crucial compound in the N soil cycle. As an intermediate of nearly all N transformations, its isotopic signature may provide precious information on the active pathways and processes. NO2 − analyses have already been applied in 15N tracing studies, increasing their interpretation perspectives. Natural abundance NO2 − isotope studies in soils were so far not applied and this study aims at testing if such analyses are useful in tracing the soil N cycle. We conducted laboratory soil incubations with parallel natural abundance and 15N treatments, accompanied by isotopic analyses of soil N compounds (NO3 −, NO2 −, NH4 +). The double 15N tracing method was used as a reference method for estimations of N transformation processes based on natural abundance nitrite dynamics. We obtained a very good agreement between the results from nitrite isotope model proposed here and the 15N tracing approach. Natural abundance nitrite isotope studies are a promising tool to our understanding of soil N cycling.https://doi.org/10.1038/s41598-021-83786-w
collection DOAJ
language English
format Article
sources DOAJ
author Dominika Lewicka-Szczebak
Anne Jansen-Willems
Christoph Müller
Jens Dyckmans
Reinhard Well
spellingShingle Dominika Lewicka-Szczebak
Anne Jansen-Willems
Christoph Müller
Jens Dyckmans
Reinhard Well
Nitrite isotope characteristics and associated soil N transformations
Scientific Reports
author_facet Dominika Lewicka-Szczebak
Anne Jansen-Willems
Christoph Müller
Jens Dyckmans
Reinhard Well
author_sort Dominika Lewicka-Szczebak
title Nitrite isotope characteristics and associated soil N transformations
title_short Nitrite isotope characteristics and associated soil N transformations
title_full Nitrite isotope characteristics and associated soil N transformations
title_fullStr Nitrite isotope characteristics and associated soil N transformations
title_full_unstemmed Nitrite isotope characteristics and associated soil N transformations
title_sort nitrite isotope characteristics and associated soil n transformations
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Nitrite (NO2 −) is a crucial compound in the N soil cycle. As an intermediate of nearly all N transformations, its isotopic signature may provide precious information on the active pathways and processes. NO2 − analyses have already been applied in 15N tracing studies, increasing their interpretation perspectives. Natural abundance NO2 − isotope studies in soils were so far not applied and this study aims at testing if such analyses are useful in tracing the soil N cycle. We conducted laboratory soil incubations with parallel natural abundance and 15N treatments, accompanied by isotopic analyses of soil N compounds (NO3 −, NO2 −, NH4 +). The double 15N tracing method was used as a reference method for estimations of N transformation processes based on natural abundance nitrite dynamics. We obtained a very good agreement between the results from nitrite isotope model proposed here and the 15N tracing approach. Natural abundance nitrite isotope studies are a promising tool to our understanding of soil N cycling.
url https://doi.org/10.1038/s41598-021-83786-w
work_keys_str_mv AT dominikalewickaszczebak nitriteisotopecharacteristicsandassociatedsoilntransformations
AT annejansenwillems nitriteisotopecharacteristicsandassociatedsoilntransformations
AT christophmuller nitriteisotopecharacteristicsandassociatedsoilntransformations
AT jensdyckmans nitriteisotopecharacteristicsandassociatedsoilntransformations
AT reinhardwell nitriteisotopecharacteristicsandassociatedsoilntransformations
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