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Denitrification dominates dissimilatory nitrate reduction across global natural ecosystems

Danli Deng, Gang He, Bangjing Ding, Wenzhi Liu, Zhengjian Yang, Lin Ma

2024Global Change Biology38 citationsDOIOpen Access PDF

Abstract

Denitrification, anaerobic ammonium oxidation (anammox), and dissimilatory nitrate reduction to ammonium (DNRA) are three competing processes of microbial nitrate reduction that determine the degree of ecosystem nitrogen (N) loss versus recycling. However, the global patterns and drivers of relative contributions of these N cycling processes to soil or sediment nitrate reduction remain unknown, limiting our understanding of the global N balance and management. Here, we compiled a global dataset of 1570 observations from a wide range of terrestrial and aquatic ecosystems. We found that denitrification contributed up to 66.1% of total nitrate reduction globally, being significantly greater in estuarine and coastal ecosystems. Anammox and DNRA could account for 12.7% and 21.2% of total nitrate reduction, respectively. The contribution of denitrification to nitrate reduction increased with longitude, while the contribution of anammox and DNRA decreased. The local environmental factors controlling the relative contributions of the three N cycling processes to nitrate reduction included the concentrations of soil organic carbon, ammonium, nitrate, and ferrous iron. Our results underline the dominant role of denitrification over anammox and DNRA in ecosystem nitrate transformation, which is crucial to improving the current global soil N cycle model and achieving sustainable N management.

Topics & Concepts

DenitrificationAnammoxNitrateEnvironmental scienceNitrogen cycleEcosystemEnvironmental chemistryEcologyNitrogenChemistryDenitrifying bacteriaBiologyOrganic chemistryWastewater Treatment and Nitrogen RemovalSoil and Water Nutrient DynamicsMicrobial Community Ecology and Physiology
Denitrification dominates dissimilatory nitrate reduction across global natural ecosystems | Litcius