Comparison of Nitrosospira strains isolated from terrestrial environments

Jiang, Qing; Bakken, Lars R.

doi:10.1111/j.1574-6941.1999.tb00646.x

Cited by 208 publications

(111 citation statements)

References 45 publications

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“…Electron microscopic investigations of the same cultures revealed characteristic cells with a morphology and ultrastructure of small Nitrosolobus sp. cells (Schnier, personal communication), which is in agreement with recent studies in which Nitrosolobus [32,49] and Nitrosospira [6,19,21,25] were the most abundant ammonia oxidizers in loamy and arable soils with neutral pH.…”

Section: Discussionsupporting

confidence: 89%

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

Fiencke

Bock

2004

Microb Ecol

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Polyclonal antibodies that recognize the two subunits AmoA and AmoB of the ammonia monooxygenase (AMO) were applied to identify ammonia-oxidizing bacteria by immunofluorescence (IF) labeling in pure, mixed, and enriched cultures. The antibodies against the AmoA were produced using a synthetic peptide of the AmoA of Nitrosomonas eutropha, whereas the antibodies against the AmoB had been developed previously is against the whole B-subunit of the AMO [Pinck et al. (2001) Appl Environ Microbiol 67:118-124]. Using IF labeling, the AmoA antibodies were specific for the detection of all species of the genus Nitrosomonas. In contrast, the antiserum against AmoB labeled all genera of ammonia oxidizers of the b-subclass of Proteobacteria (Nitrosomonas, Nitrosospira, Nitrosolobus, and Nitrosovibrio). The fluorescence signals of the AmoA antibodies were spread all over the cells, whereas the signals of the AmoB antibodies were associated with the cytoplasmic membranes. The specificity of the reactions of the antisera with ammonia oxidizers were proven in pure and mixed cultures, and the characteristic IF labeling and the morphology of the cells enabled their identification at the genus level. The genus-specific IF labeling could be used to identify ammonia oxidizers enriched from various habitats. In enrichment cultures of natural sandstone, cells of the genera Nitrosomonas, Nitrosovibrio, and Nitrosospira were detected. Members of the genus Nitrosovibrio and Nitrosolobus were most prominent in enriched garden soil samples, whereas members of the genus Nitrosomonas dominated in enriched activated sludge. The antibodies caused only slight background fluorescence on sandstone and soil particles compared to oligonucleotide probes, which could not be used to detect ammonia oxidizers on these materials because of strong nonspecific fluorescence.

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Section: Discussionsupporting

confidence: 89%

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

Fiencke

Bock

2004

Microb Ecol

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“…The results from this study do not provide the answer, but we can hypothesize that distinct phylogenetic groups may have distinct temperature optima. This has been demonstrated with Nitrosospira strains grown in pure culture [47] and with AOB communities from different soils [48]. If these observations are generalizable and there is minimal functional redundancy between taxa (i.e., phylogenetically distinct communities have distinct temperature sensitivities), it may explain why the temperature responses in nitrification activity can vary so widely across different soils [49,50] or sediment samples [51].…”

Section: Factors Correlated With the Observed Patterns In Aob Biogeogmentioning

confidence: 85%

The Biogeography of Ammonia-Oxidizing Bacterial Communities in Soil

Carney²,

et al. 2009

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Although ammonia-oxidizing bacteria (AOB) are likely to play a key role in the soil nitrogen cycle, we have only a limited understanding of how the diversity and composition of soil AOB communities change across ecosystem types. We examined 23 soils collected from across North America and used sequence-based analyses to compare the AOB communities in each of the distinct soils. Using 97% 16S rRNA sequence similarity groups, we identified only 24 unique AOB phylotypes across all of the soils sampled. The majority of the sequences collected were in the Nitrosospira lineages (representing 80% of all the sequences collected), and AOB belonging to Nitrosospira cluster 3 were particularly common in our clone libraries and ubiquitous across the soil types. Community composition was highly variable across the collected soils, and similar ecosystem types did not always harbor similar AOB communities. We did not find any significant correlations between AOB community composition and measures of N availability. From the suite of environmental variables measured, we found the strongest correlation between temperature and AOB community composition; soils exposed to similar mean annual temperatures tended to have similar AOB communities. This finding is consistent with previous studies and suggests that temperature selects for specific AOB lineages. Given that distinct AOB taxa are likely to have unique functional attributes, the biogeographical patterns exhibited by soil AOB may be directly relevant to understanding soil nitrogen dynamics under changing environmental conditions.

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“…(1) bacteria may use an additional energy source or stored energy reserves, (2) community composition of ammonium-oxidizing bacteria in the estuary may vary over time and/or space, and these different communities may have variable optimal N:C ratios; metabolic activity and growth rates can differ among cultures (Jiang & Bakken 1999b) and thus also among different communities, (3) our N:C ratios may have been biased towards low values because of our neglect of ammonium regeneration that caused dilution of 15 N, and (4) low N:C ratios coincided with low oxygen concentrations i.e. <100 µM.…”

Section: Discussionmentioning

confidence: 99%

Comparison of nitrifier activity versus growth in the Scheldt estuarya turbid, tidal estuary in northern Europe

Andersson¹,

Brion²,

Middelburg³

2006

Aquat. Microb. Ecol.

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Nitrifier activity and growth were measured in the Scheldt estuary over a salinity gradient. Measurements were made during all 4 seasons using 15 N enriched ammonium and 14 C labeled carbon incorporation. Established conversion ratios are often used to convert the growth of nitrifiers (measured as the incorporation of carbon) to nitrifying activity (i.e. oxidation of ammonium to nitrate). Our study demonstrated that the conversion of growth rates to nitrifying activity induces uncertainty because activity and growth of nitrifiers may be uncoupled. The C:N conversion ratio appears to be oxygen and temperature dependent. We advocate the use of 15 N stable isotope techniques to study nitrification: this technique measures the actual activity of nitrifiers without the disadvantages involved in using inhibitors, and thus allows light inhibition to be measured.

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Comparison of Nitrosospira strains isolated from terrestrial environments

Cited by 208 publications

References 45 publications

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

The Biogeography of Ammonia-Oxidizing Bacterial Communities in Soil

Comparison of nitrifier activity versus growth in the Scheldt estuarya turbid, tidal estuary in northern Europe

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Comparison of Nitrosospira strains isolated from terrestrial environments

Cited by 208 publications

References 45 publications

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

Genera-Specific Immunofluorescence Labeling of Ammonia Oxidizers with Polyclonal Antibodies Recognizing Both Subunits of the Ammonia Monooxygenase

The Biogeography of Ammonia-Oxidizing Bacterial Communities in Soil

Comparison of nitrifier activity versus growth in the Scheldt estuarya turbid, tidal estuary in northern Europe

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Comparison of nitrifier activity versus growth in the Scheldt estuarya turbid, tidal estuary in northern Europe