K-strategic ammonia-oxidizing bacteria capitalize on biological nitrogen fixation in a flooded, unfertilized rice soil

Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH 3 ) oxidation in terrestrial soils. To shed light into this ecologically important relationship, a 15 N 2 -DNA-stable isotope probing (SIP) technique was appli...

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Published in	Biology and fertility of soils Vol. 55; no. 7; pp. 713 - 722
Main Authors	Bei, Qicheng, Xie, Zubin, Cadisch, Georg, Rasche, Frank
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2019 Springer Nature B.V
Subjects	Agriculture Ammonia Ammonia-oxidizing bacteria AmoA gene Archaea Bacteria Biological effects Biomedical and Life Sciences Clusters Deoxyribonucleic acid DNA Ecology Ecosystems energy enzymes Flooded soils Genes Genomes isotope labeling Life Sciences Microorganisms Monooxygenase nitrifying bacteria nitrogen Nitrogen fixation Nitrogen isotopes nitrogen-fixing bacteria Nitrogenation Nitrosospira Nucleotide sequence Original Paper oxidants Oxidation Oxidizing agents PCR Polymorphism quantitative polymerase chain reaction Restriction fragment length polymorphism Rice rice soils sequence analysis Soil Soil Science & Conservation Stable isotopes Terrestrial ecosystems Stable isotope probing Ammonia oxidation labeling N K-strategy Paddy soil
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Abstract	Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH 3 ) oxidation in terrestrial soils. To shed light into this ecologically important relationship, a 15 N 2 -DNA-stable isotope probing (SIP) technique was applied to explore the incorporation of 15 N fixed by BNF into the genome of NH 3 oxidizers in planted and non-planted flooded rice soils, using the α-subunit of NH 3 monooxygenase ( amoA gene) as a functional marker. The abundance and structural composition of archaeal and bacterial amoA genes in density-resolved fractions obtained from SIP were investigated by quantitative PCR, as well as terminal-restriction fragment length polymorphism and sequence analyses. Results revealed that bacterial rather than archaeal NH 3 oxidizers assimilated 15 N derived from BNF in both planted and non-planted flooded rice soils. The amoA genes in 15 N-enriched “heavy” SIP gradient fractions were closely related to K-strategic Nitrosospira cluster 10, including Nitrosospira sp. AF-like bacteria, suggesting an ecological linkage of these two metabolically distinct processes. It remains unsolved from our study why exactly Nitrosospira cluster 10 was capitalizing on BNF. It could be suggested that K-strategy is the underlying ecological mechanism of sustainable, self-regulating terrestrial ecosystems such as traditional, unfertilized flooded rice soils. In this regard, it needs to be assayed if some rice-associated diazotrophs might also be classified as K-strategists, since BNF is an energy demanding metabolic process.
AbstractList	Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH₃) oxidation in terrestrial soils. To shed light into this ecologically important relationship, a ¹⁵N₂-DNA-stable isotope probing (SIP) technique was applied to explore the incorporation of ¹⁵N fixed by BNF into the genome of NH₃ oxidizers in planted and non-planted flooded rice soils, using the α-subunit of NH₃ monooxygenase (amoA gene) as a functional marker. The abundance and structural composition of archaeal and bacterial amoA genes in density-resolved fractions obtained from SIP were investigated by quantitative PCR, as well as terminal-restriction fragment length polymorphism and sequence analyses. Results revealed that bacterial rather than archaeal NH₃ oxidizers assimilated ¹⁵N derived from BNF in both planted and non-planted flooded rice soils. The amoA genes in ¹⁵N-enriched “heavy” SIP gradient fractions were closely related to K-strategic Nitrosospira cluster 10, including Nitrosospira sp. AF-like bacteria, suggesting an ecological linkage of these two metabolically distinct processes. It remains unsolved from our study why exactly Nitrosospira cluster 10 was capitalizing on BNF. It could be suggested that K-strategy is the underlying ecological mechanism of sustainable, self-regulating terrestrial ecosystems such as traditional, unfertilized flooded rice soils. In this regard, it needs to be assayed if some rice-associated diazotrophs might also be classified as K-strategists, since BNF is an energy demanding metabolic process. Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH 3 ) oxidation in terrestrial soils. To shed light into this ecologically important relationship, a 15 N 2 -DNA-stable isotope probing (SIP) technique was applied to explore the incorporation of 15 N fixed by BNF into the genome of NH 3 oxidizers in planted and non-planted flooded rice soils, using the α-subunit of NH 3 monooxygenase ( amoA gene) as a functional marker. The abundance and structural composition of archaeal and bacterial amoA genes in density-resolved fractions obtained from SIP were investigated by quantitative PCR, as well as terminal-restriction fragment length polymorphism and sequence analyses. Results revealed that bacterial rather than archaeal NH 3 oxidizers assimilated 15 N derived from BNF in both planted and non-planted flooded rice soils. The amoA genes in 15 N-enriched “heavy” SIP gradient fractions were closely related to K-strategic Nitrosospira cluster 10, including Nitrosospira sp. AF-like bacteria, suggesting an ecological linkage of these two metabolically distinct processes. It remains unsolved from our study why exactly Nitrosospira cluster 10 was capitalizing on BNF. It could be suggested that K-strategy is the underlying ecological mechanism of sustainable, self-regulating terrestrial ecosystems such as traditional, unfertilized flooded rice soils. In this regard, it needs to be assayed if some rice-associated diazotrophs might also be classified as K-strategists, since BNF is an energy demanding metabolic process. Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH3) oxidation in terrestrial soils. To shed light into this ecologically important relationship, a 15N2-DNA-stable isotope probing (SIP) technique was applied to explore the incorporation of 15N fixed by BNF into the genome of NH3 oxidizers in planted and non-planted flooded rice soils, using the α-subunit of NH3 monooxygenase (amoA gene) as a functional marker. The abundance and structural composition of archaeal and bacterial amoA genes in density-resolved fractions obtained from SIP were investigated by quantitative PCR, as well as terminal-restriction fragment length polymorphism and sequence analyses. Results revealed that bacterial rather than archaeal NH3 oxidizers assimilated 15N derived from BNF in both planted and non-planted flooded rice soils. The amoA genes in 15N-enriched “heavy” SIP gradient fractions were closely related to K-strategic Nitrosospira cluster 10, including Nitrosospira sp. AF-like bacteria, suggesting an ecological linkage of these two metabolically distinct processes. It remains unsolved from our study why exactly Nitrosospira cluster 10 was capitalizing on BNF. It could be suggested that K-strategy is the underlying ecological mechanism of sustainable, self-regulating terrestrial ecosystems such as traditional, unfertilized flooded rice soils. In this regard, it needs to be assayed if some rice-associated diazotrophs might also be classified as K-strategists, since BNF is an energy demanding metabolic process.
Author	Rasche, Frank Cadisch, Georg Xie, Zubin Bei, Qicheng
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Snippet	Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH 3 ) oxidation in... Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH3) oxidation in... Less attention has been devoted to the understanding of the sequential effect of biological nitrogen fixation (BNF) on microbial ammonia (NH₃) oxidation in...
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StartPage	713
SubjectTerms	Agriculture Ammonia Ammonia-oxidizing bacteria AmoA gene Archaea Bacteria Biological effects Biomedical and Life Sciences Clusters Deoxyribonucleic acid DNA Ecology Ecosystems energy enzymes Flooded soils Genes Genomes isotope labeling Life Sciences Microorganisms Monooxygenase nitrifying bacteria nitrogen Nitrogen fixation Nitrogen isotopes nitrogen-fixing bacteria Nitrogenation Nitrosospira Nucleotide sequence Original Paper oxidants Oxidation Oxidizing agents PCR Polymorphism quantitative polymerase chain reaction Restriction fragment length polymorphism Rice rice soils sequence analysis Soil Soil Science & Conservation Stable isotopes Terrestrial ecosystems
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Title	K-strategic ammonia-oxidizing bacteria capitalize on biological nitrogen fixation in a flooded, unfertilized rice soil
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