Litcius/Paper detail

Nitrogen input decreases microbial nitrogen use efficiency in surface soils of a temperate forest in northeast China

Lifei Sun, Yanci Qiao, Wolfgang Wanek, Daryl Moorhead, Yongxing Cui, Yujiao Peng, Liquan Song, Baoqing Hu, Tuo Zhang, Shuailin Li

2024Geoderma12 citationsDOIOpen Access PDF

Abstract

• N addition decreases microbial NUE by decreasing phosphorus availability and soil pH. • Microbial NUE is positively related to microbial biomass formation and negatively related to soil inorganic N cycling. • Microbial NUE controls the branchpoint between soil microbial N immobilization and inorganic N cycling. Microbial nitrogen use efficiency (NUE) reflects the allocation of microbially-acquired N between growth (anabolism) and the release of inorganic N to the environment (catabolism), and is central to understanding soil N cycling. However, the effects of N addition on microbial NUE are unclear. We determined microbial NUE in surface (0–10 cm) and subsurface (10–20 cm) soils in a temperate forest by the combined substrate-independent 18 O-H 2 O tracer technique and 15 N isotope pool dilution in a multi-level N addition experiment. We found that high N treatment (75 kg N ha −1 yr −1 as urea fertilizer) significantly decreased NUE in surface soil, but not in the subsurface soil. The decrease in NUE in surface soil was related to soil acidification, likely induced by N addition, and to reduced phosphorus availability, suggesting increased phosphorus limitation to microbial metabolism with N addition. Microbial NUE was inversely related to inorganic N flux (as NH 4 + ) in both surface and subsurface soils and positively related to microbial biomass in surface soil. Our empirical evidence confirms that microbial NUE is a sensitive proxy and controlling branchpoint between soil microbial N immobilization and inorganic N cycling, which should be explicitly included in biogeochemical models to better predict soil N dynamics.

Topics & Concepts

Temperate forestNitrogenTemperate climateEnvironmental scienceSoil waterTemperate rainforestNitrogen cycleChinaEnvironmental chemistrySoil scienceEcologyChemistryEcosystemGeographyBiologyArchaeologyOrganic chemistrySoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Water Nutrient Dynamics