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Bacterial Diversity and Potential Functions in Response to Long-Term Nitrogen Fertilizer on the Semiarid Loess Plateau.

Aixia XuLingling LiJunhong XieRenzhi ZhangZhuzhu LuoLiqun CaiChang LiuLinlin WangSumera AnwarYuji Jiang
Published in: Microorganisms (2022)
Bacterial diversity and its functions are essential to soil health. N fertilization changes bacterial communities and interferes with the soil biogeochemical N cycle. In this study, bacterial community and soil physicochemical properties were studied in 2018 after applying N fertilizers (0, 52.5, 105, 157.5, and 210 kg N ha -1 ) for a long (2003-2018) and a short (2003-2004) duration in a wheat field on the Loess Plateau of China. Soil bacteria were determined using 16S rRNA Illumina-MiSeq ® , and the prediction function was analyzed through PICRUSt. The study showed that N fertilizer significantly changed the diversity and abundance of bacterial communities. The phyla Proteobacteria , Actinobacteria , Acidobacteria , and Chloroflexi were most abundant, accounting for 74-80% of the bacterial community abundance. The optimum rates of N fertilizer application (N105) maintain soil health by promoting soil microbial diversity and abundance. The bacterial population abundance was higher after short-term N application than after N application for a long duration and lowest with the high N-fertilizer treatment (N210). High N enrichment led to more heterotrophic N-fixing microorganisms ( Alphaproteobacteria ), in which metabolism and genetic information processing dominated, while cellular processes, genetic information processing, metabolism, and organismal systems were the main functional categories under low N. The phyla Gemmatimonadetes , Actinobacteria , Bacteroidetes , and Chloroflexi were the key bacteria in the co-occurrence network. The genus Saccharimonadales of the superphylum Patescibacteria has a more significant impact under low N treatment. Long-term N fertilization affected the soil pH, NO 3 -N, and other physicochemical properties, and soil NO 3 -N was the highest indicator, contributing 81% of the bacterial community function under different N fertilizer treatments.
Keyphrases
  • plant growth
  • healthcare
  • sewage sludge
  • mental health
  • antibiotic resistance genes
  • dna methylation
  • genome wide
  • combination therapy
  • wastewater treatment
  • amino acid
  • replacement therapy