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Isotopic Elucidation of Microbial Nitrogen Transformations in Forest Soils

Shi‐Qi Xu, Xueyan Liu, Zhongcong Sun, Chao‐Chen Hu, Wolfgang Wanek, Keisuke Koba

2021Global Biogeochemical Cycles22 citationsDOI

Abstract

Abstract Soil nitrogen (N) transformations between labile N forms (extractable organic N [EON], ammonium [NH 4 + ], and nitrate [NO 3 − ]) regulate soil N availability. However, it has long been difficult to quantify the transformations of total soil organic and labile N forms in soils, which has left large uncertainties in evaluating atmospheric N deposition effects on soil N dynamics. Based on concentrations and natural abundances of N isotopes of soil organic N, EON, NH 4 + , and NO 3 − across 11 forests with variant N deposition levels, we established a quantitative isotopic framework to estimate the fractions of soil N depolymerization ( f D ), mineralization ( f M ), nitrification ( f N ), and of NO 3 − losses ( f L ) via denitrification and leaching. Based on the fractions, the gross production and storage of corresponding soil labile N were estimated for forests of China and Japan. We found that f D , f M , and f N increased, while f L decreased with the increase of N deposition among the study forests. And the contribution of denitrification (relative to the NO 3 − leaching) to total NO 3 − losses also increased with increasing N deposition. Our method provides new and straightforward insights into the present soil N transformations and allows to evaluate the soil N status. These findings are useful for modeling forest N cycles under different N deposition regimes.

Topics & Concepts

Leaching (pedology)Mineralization (soil science)Soil waterEnvironmental chemistryDenitrificationAmmoniumNitrificationNitrogenDeposition (geology)ChemistryNitrateNitrogen cycleEnvironmental scienceSoil scienceGeologySedimentPaleontologyOrganic chemistrySoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsGroundwater and Isotope Geochemistry
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