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Contrasting effects of altered precipitation regimes on soil nitrogen cycling at the global scale

Qiqian Wu, Kai Yue, Yuandan Ma, Petr Hědenec, Yanjiang Cai, Jian Chen, Hui Zhang, Junjiong Shao, Scott X. Chang, Yan Li

2022Global Change Biology73 citationsDOI

Abstract

Changes in precipitation regimes can strongly affect soil nitrogen (N) cycling in terrestrial ecosystems. However, whether altered precipitation regimes may differentially affect soil N cycling between arid and humid biomes at the global scale is unclear. We conducted a meta-analysis using 1036 pairwise observations collected from 194 publications to assess the effects of increased and decreased precipitation on the input (N return from plants), storage (various forms of N in soil), and output (gaseous N emissions) of soil N in arid versus humid biomes at the global scale. We found that (1) increased precipitation significantly increased N input (+12.1%) and output (+34.9%) but decreased N storage (-13.7%), while decreased precipitation significantly decreased N input (-10.7%) and output (-34.8%) but increased N storage (+11.1%); (2) the sensitivity of soil N cycling to increased precipitation was higher in arid regions than in humid regions, while that to decreased precipitation was lower in arid regions than in humid regions; (3) the effect of altered precipitation regimes on soil N cycling was independent of precipitation type (i.e., rainfall vs. snowfall); and (4) the mean annual precipitation regulated soil N cycling in precipitation alteration experiments at the global scale. Overall, our results clearly show that the response of soil N cycling to increased versus decreased precipitation differs between arid and humid regions, indicating the uneven effect of climate change on soil N cycling between these two contrasting climate regions. This implies that ecosystem models need to consider the differential responses of N cycling to altered precipitation regimes in different climatic conditions under future global change scenarios.

Topics & Concepts

CyclingEnvironmental scienceNitrogen cycleScale (ratio)PrecipitationNitrogenGlobal changeAtmospheric sciencesClimate changeSoil scienceEcologyGeographyGeologyChemistryForestryMeteorologyBiologyOrganic chemistryCartographySoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Water Nutrient Dynamics
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