Two years of nitrogen addition altered soil microbial community structure and function in a desert steppe of northern China
Xiongkui Lin A # , Bo Wang A # , Xudong Wu B , Jing Liu A , Zihao Zhang A , Lingfei Xiang A and Zhigang Li A C *A School of Agriculture, Ningxia University, Yinchuan, Ningxia 7500021, China.
B Institute of Desertification Control, Ningxia Academy of Agricultural and Forestry Sciences, Yinchuan, Ningxia 750021, China.
C Ningxia Grassland and Animal Husbandry Engineering Technology Research Centre, Yinchuan, Ningxia 750021, China.
Handling Editor: Mark Farrell
Soil Research 61(4) 345-356 https://doi.org/10.1071/SR22139
Submitted: 9 June 2022 Accepted: 14 November 2022 Published: 1 December 2022
© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing
Abstract
Context: Although nitrogen (N) deposition application has resulted in excess N entering grassland ecosystems, our understanding of how short-term N enrichment affects soil microbial community in a desert steppe is incomplete.
Aims: This study assessed the effects of 2 years of N addition on structure and function of soil microbial community at the soil depth of 0–10 cm in a desert steppe.
Methods: Six addition rates of N (equivalent to 0, 5, 10, 15, 20 and 40 g N m−2 year−1) were applied in a desert steppe of northern China, and the 16S rRNA and ITS1 genes were sequenced for the prokaryotic and fungal communities, respectively.
Key results: N addition altered prokaryotic taxa composition, but not fungal taxa composition and α-diversities of prokaryotic and fungal communities. N shifted microbial β-diversities, and prokaryotic β-diversity was more sensitive than fungal β-diversity. Abundances of predicted prokaryotic functions decreased as N rates increased, whereas predicted fungal functions presented no obvious variations among N additions. Predicted enzyme activities related to N cycling in prokaryotes were similar to fungi, but variations of C and P cycling-related enzyme activities were opposite to fungi. Additionally, phylum abundance, α-diversity, and β-diversity of prokaryotes were more closely influenced by soil and plant properties than fungi.
Conclusions: Two years of N addition altered both microbial community structure and function, but the prokaryotic community responded more sensitive than the fungal community.
Implications: Topsoil should be considered when exploring the impact of short-term N addition on soil microbial community in the desert steppe.
Keywords: 2-year nitrogen addition, C cycling, desert steppe, microbial community composition, microbial community diversity, N cycling, P cycling, predicted enzyme activities, predicted microbial function.
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