Journal
SOIL BIOLOGY & BIOCHEMISTRY
Volume 116, Issue -, Pages 171-178Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.soilbio.2017.10.012
Keywords
Black soil; Fertilization; Particle-size fraction; Urease; Ureolytic microbial community
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Funding
- National Basic Research Program of China (973) [2015CB150504]
- Fundamental Research Funds for the Central Universities [2662015PY016, 2662015PY116]
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Ureolytic microbes are important contributors to N cycling in soil. The distribution of the ureolytic microbial community in different particle-size fractions (2000-250, 250-53, < 53 inn) was determined by high-throughput sequencing and q-PCR analyses in 35-year-old fertilization experiment on Black soil. Fertilizer treatments included an unfertilized control, chemical NPK fertilizer, horse manure and NPK fertilizer plus horse manure. Each fertilizer treatment harbored a structurally distinct ureolytic microbial community. The dominant ureolytic microbes were putatively associated with Rhizobicdes, Burkholderiales, Rhodocyclodes, Pasteurellales, Pseudomonadales, Oceanospirdlales, Myxococcales, Micrococcales and Cotynebacteriale species. The OTUs associated with the same fertilizer treatment or particle-size fraction were scattered across the phylogenetic tree, and only sequences related to Rhizobiales showed a similar increase in response to manure application. The abtmdances of ureC genes ranged from 1.5 +/- 0.38 x 10(7) to 9.1 +/- 0.91 x 10(7) g(-1) dry soil and accounted for 0.4% to 2.9% of the total bacteria (represented by the copy numbers of the 16SrRNA genes). Significantly lower ureC gene abundance was observed in manure-amended soil, whereas the macro- and microaggregates had higher ureC gene abundances than the silt + clay fraction. The abundance of ureolytic microorganisms was significantly correlated with soil NH4, total nitrogen (TN) and carbon (TC) concentrations. This indicates that variation in ureolytic microbial communities was associated with soil nutrient levels. Urease activities in the particle-size fractions were as follows: microaggregate > macroaggregate > silt + clay. Additionally, urease activities were correlated with the TN, TC and soil organic carbon (SOC) concentrations, but not with the abundances of the ureC genes. In summary, our study first revealed the heterogeneity in the ureolytic microbial communities and activities across different particle-size fractions under long-term fertilization. Microaggregates seems to be a hotspot for nutrients, ureolytic microorganisms and urease activity.
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