Unveiling of active diazotrophs in a flooded rice soil by combination of NanoSIMS and 15N2-DNA-stable isotope probing

The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based 15 N 2 -labeling technique, and the active diazotrophs of soil were assessed by 15 N 2 -DNA-stable isotope probing (SIP). In addition, the nanometer scale secondary ion mass spectrometry (Nano...

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Published in	Biology and fertility of soils Vol. 56; no. 8; pp. 1189 - 1199
Main Authors	Wang, Xiaojie, Bei, Qicheng, Yang, Wei, Zhang, Heng, Hao, Jialong, Qian, Li, Feng, Yucheng, Xie, Zubin
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2020
Subjects	Agriculture Biomedical and Life Sciences community structure DNA Life Sciences mass spectrometry nitrogen fixation nitrogen-fixing bacteria Nostocales Original Paper paddies rice rice soils Soil Science & Conservation Stigonematales ultracentrifugation NanoSIMS Rice soil labeling N Cyanobacteria DNA-SIP
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Abstract	The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based 15 N 2 -labeling technique, and the active diazotrophs of soil were assessed by 15 N 2 -DNA-stable isotope probing (SIP). In addition, the nanometer scale secondary ion mass spectrometry (NanoSIMS) was applied to analysis the 15 N-enrichment of soil DNA in SIP fractions. 15 N 2 -labeling experiment showed that BNF was 11.33 ± 1.90 kg N ha −1 in the rice-planted soil and 3.55 ± 1.18 kg N ha −1 in the nonplanted soil after 28-day labeling. The biologically fixed 15 N was mainly (> 95%) recovered in the surface layer (0–0.5 cm) in the rice-planted soil. High throughput sequencing of nifH genes extracted from surface soil showed that the presence of rice affected the community composition of diazotrophs. The relative abundance of Nostocales and Stigonematales was significantly higher in rice-planted soil than in nonplanted soil ( P < 0.05). After CsCl gradient ultracentrifugation, NanoSIMS images clearly showed that 15 N was incorporated into soil DNA in the 15 N 2 -labeling SIP gradient fractions. Analyses of nifH genes in 15 N-enriched SIP gradient fractions suggested that Nostocales and Stigonematales were the major contributors to BNF in the rice-soil system. Taken together, these results have highlighted the contributions of cyanobacteria to the BNF in paddy fields and improved our understanding of the close relationship between rice plants and cyanobacteria.
AbstractList	The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based 15 N 2 -labeling technique, and the active diazotrophs of soil were assessed by 15 N 2 -DNA-stable isotope probing (SIP). In addition, the nanometer scale secondary ion mass spectrometry (NanoSIMS) was applied to analysis the 15 N-enrichment of soil DNA in SIP fractions. 15 N 2 -labeling experiment showed that BNF was 11.33 ± 1.90 kg N ha −1 in the rice-planted soil and 3.55 ± 1.18 kg N ha −1 in the nonplanted soil after 28-day labeling. The biologically fixed 15 N was mainly (> 95%) recovered in the surface layer (0–0.5 cm) in the rice-planted soil. High throughput sequencing of nifH genes extracted from surface soil showed that the presence of rice affected the community composition of diazotrophs. The relative abundance of Nostocales and Stigonematales was significantly higher in rice-planted soil than in nonplanted soil ( P < 0.05). After CsCl gradient ultracentrifugation, NanoSIMS images clearly showed that 15 N was incorporated into soil DNA in the 15 N 2 -labeling SIP gradient fractions. Analyses of nifH genes in 15 N-enriched SIP gradient fractions suggested that Nostocales and Stigonematales were the major contributors to BNF in the rice-soil system. Taken together, these results have highlighted the contributions of cyanobacteria to the BNF in paddy fields and improved our understanding of the close relationship between rice plants and cyanobacteria. The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based ¹⁵N₂-labeling technique, and the active diazotrophs of soil were assessed by ¹⁵N₂-DNA-stable isotope probing (SIP). In addition, the nanometer scale secondary ion mass spectrometry (NanoSIMS) was applied to analysis the ¹⁵N-enrichment of soil DNA in SIP fractions. ¹⁵N₂-labeling experiment showed that BNF was 11.33 ± 1.90 kg N ha⁻¹ in the rice-planted soil and 3.55 ± 1.18 kg N ha⁻¹ in the nonplanted soil after 28-day labeling. The biologically fixed ¹⁵N was mainly (> 95%) recovered in the surface layer (0–0.5 cm) in the rice-planted soil. High throughput sequencing of nifH genes extracted from surface soil showed that the presence of rice affected the community composition of diazotrophs. The relative abundance of Nostocales and Stigonematales was significantly higher in rice-planted soil than in nonplanted soil (P < 0.05). After CsCl gradient ultracentrifugation, NanoSIMS images clearly showed that ¹⁵N was incorporated into soil DNA in the ¹⁵N₂-labeling SIP gradient fractions. Analyses of nifH genes in ¹⁵N-enriched SIP gradient fractions suggested that Nostocales and Stigonematales were the major contributors to BNF in the rice-soil system. Taken together, these results have highlighted the contributions of cyanobacteria to the BNF in paddy fields and improved our understanding of the close relationship between rice plants and cyanobacteria.
Author	Qian, Li Hao, Jialong Feng, Yucheng Xie, Zubin Wang, Xiaojie Zhang, Heng Bei, Qicheng Yang, Wei
Author_xml	– sequence: 1 givenname: Xiaojie surname: Wang fullname: Wang, Xiaojie organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences – sequence: 2 givenname: Qicheng surname: Bei fullname: Bei, Qicheng email: qcbei@issas.ac.cn organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences – sequence: 3 givenname: Wei surname: Yang fullname: Yang, Wei email: yangw@mail.iggcas.ac.cn organization: Key Laboratory of Earth and Planetary Physics, Institute of Geology and Geophysics, Chinese Academy of Sciences – sequence: 4 givenname: Heng surname: Zhang fullname: Zhang, Heng organization: Shanghai Center for Plant Stress Biology and CAS Center for Excellence in Molecular Plant Sciences, Chinese Academy of Sciences – sequence: 5 givenname: Jialong surname: Hao fullname: Hao, Jialong organization: Key Laboratory of Earth and Planetary Physics, Institute of Geology and Geophysics, Chinese Academy of Sciences – sequence: 6 givenname: Li surname: Qian fullname: Qian, Li organization: Institute of Resources, Ecosystem and Environment of Agriculture, Nanjing Agricultural University – sequence: 7 givenname: Yucheng surname: Feng fullname: Feng, Yucheng organization: Department of Crop, Soil and Environmental Sciences, Auburn University – sequence: 8 givenname: Zubin surname: Xie fullname: Xie, Zubin email: zbxie@issas.ac.cn organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences
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Snippet	The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based 15 N 2 -labeling technique, and the active... The biological nitrogen fixation in planted and nonplanted paddy soils was quantified using a chamber-based ¹⁵N₂-labeling technique, and the active diazotrophs...
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SubjectTerms	Agriculture Biomedical and Life Sciences community structure DNA Life Sciences mass spectrometry nitrogen fixation nitrogen-fixing bacteria Nostocales Original Paper paddies rice rice soils Soil Science & Conservation Stigonematales ultracentrifugation
Title	Unveiling of active diazotrophs in a flooded rice soil by combination of NanoSIMS and 15N2-DNA-stable isotope probing
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