Comparison of methods for quantification of cytochrome cd(1)-denitrifying bacteria in environmental marine samples
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A doubling of microphytobenthos biomass coincides with a tenfold increase in denitrifier and total bacterial abundances in intertidal sediments of a temperate estuaryMarinobacter hydrocarbonoclasticus NY-4, a novel denitrifying, moderately halophilic marine bacteriumReconstructing the Genetic Potential of the Microbially-Mediated Nitrogen Cycle in a Salt Marsh EcosystemSeasonality and resource availability control bacterial and archaeal communities in soils of a temperate beech forest.Climate change induces shifts in abundance and activity pattern of bacteria and archaea catalyzing major transformation steps in nitrogen turnover in a soil from a mid-European beech forestNitric oxide and nitrous oxide turnover in natural and engineered microbial communities: biological pathways, chemical reactions, and novel technologies.Different land use intensities in grassland ecosystems drive ecology of microbial communities involved in nitrogen turnover in soilQuantification of key genes steering the microbial nitrogen cycle in the rhizosphere of sorghum cultivars in tropical agroecosystemsNitrogen Metabolism Genes from Temperate Marine Sediments.Effect of sulfadiazine-contaminated pig manure on the abundances of genes and transcripts involved in nitrogen transformation in the root-rhizosphere complexes of maize and clover.Changes in diversity and functional gene abundances of microbial communities involved in nitrogen fixation, nitrification, and denitrification in a tidal wetland versus paddy soils cultivated for different time periodsPseudomonas stutzeri nitrite reductase gene abundance in environmental samples measured by real-time PCRDevelopment and application of a most-probable-number-pcr assay to quantify flagellate populations in soil samples.Combination of competitive quantitative PCR and constant-denaturant capillary electrophoresis for high-resolution detection and enumeration of microbial cells.Intensive nitrogen loss over the Omani Shelf due to anammox coupled with dissimilatory nitrite reduction to ammoniumSeasonal changes in nitrogen-cycle gene abundances and in bacterial communities in acidic forest soils.Community structures and distribution of anaerobic ammonium oxidizing and nirS-encoding nitrite-reducing bacteria in surface sediments of the South China Sea.Diversity, abundance, and distribution of NO-forming nitrite reductase-encoding genes in deep-sea subsurface sediments of the South China Sea.Molecular biological and isotopic biogeochemical prognoses of the nitrification-driven dynamic microbial nitrogen cycle in hadopelagic sediments.The different potential of sponge bacterial symbionts in N₂ release indicated by the phylogenetic diversity and abundance analyses of denitrification genes, nirK and nosZ.Response of the abundance of key soil microbial nitrogen-cycling genes to multi-factorial global changes.Abundances and potential activities of nitrogen cycling microbial communities along a chronosequence of a glacier forefieldNitric oxide reductase (norB) genes from pure cultures and environmental samples.Higher diversity and abundance of denitrifying microorganisms in environments than considered previously.Impact of Land Use Management and Soil Properties on Denitrifier Communities of Namibian Savannas.Denitrification likely catalyzed by endobionts in an allogromiid foraminifer.Concurrent activity of anammox and denitrifying bacteria in the Black Sea.Enrichment of denitratating bacteria from a methylotrophic denitrifying culture.Water Properties Influencing the Abundance and Diversity of Denitrifiers on Eichhornia crassipes Roots: A Comparative Study from Different Effluents around Dianchi Lake, ChinaResponse of Spatial Patterns of Denitrifying Bacteria Communities to Water Properties in the Stream Inlets at Dianchi Lake, ChinaCapturing Compositional Variation in Denitrifying Communities: a Multiple-Primer Approach That Includes Epsilonproteobacteria.Benthic nitrogen loss in the arabian sea off pakistanTidal pumping facilitates dissimilatory nitrate reduction in intertidal marshes.Methods for measuring denitrification: diverse approaches to a difficult problem.High rates of denitrification and nitrous oxide emission in arid biological soil crusts from the Sultanate of Oman.Functional genes to assess nitrogen cycling and aromatic hydrocarbon degradation: primers and processing matter.Stratification of activity and bacterial community structure in biofilms grown on membranes transferring oxygen.Field-Scale Pattern of Denitrifying Microorganisms and N2O Emission Rates Indicate a High Potential for Complete Denitrification in an Agriculturally Used Organic Soil.Design and evaluation of primers targeting genes encoding NO-forming nitrite reductases: implications for ecological inference of denitrifying communities.Detection and diversity of expressed denitrification genes in estuarine sediments after reverse transcription-PCR amplification from mRNA
P2860
Q28647716-B8992BFC-1518-4109-8025-4FAF7652D3ECQ28649575-7D49BAAE-9FF3-41E8-838B-F0C1B0AD461BQ28830220-B08527E7-5B2E-499A-B792-17300E34346DQ30500789-CBD19779-C4FD-44CF-9BCB-32D8D8C0DD38Q30873679-6E027B1A-7C9A-4E0E-8637-A2B1EEF1FC8FQ31105894-24B3855D-C26C-4AA8-80DD-6E2EC88B95FAQ31139269-96F1143A-281B-4638-8033-B098DAE7C194Q33462603-85C85715-8371-44FB-9CEF-CB7B2D93544FQ33603408-1C8BDFB2-B224-4B7F-BAAE-70BEB3892132Q33726753-AA5BBFDA-990D-40F5-AA20-58B3ABFD1413Q33963367-BF9D5C35-2E60-487E-811B-625F3EAEF3E9Q33988874-6ADE3FB2-C1C8-4F4B-8C4A-E966229B028DQ33989278-706E99E6-D447-4DE0-A76E-9544A072D01AQ33990183-B0F90C51-05B0-43B2-A819-F241E44D675BQ34179753-DA179961-6BB3-4DDE-BFD6-FE3E68830824Q34323685-8E0C3562-E90C-436B-B175-B1ED40E11C63Q34564703-6ADDD5D0-3575-4825-A1E1-D9FC22B75347Q34582411-DC75EE9C-9918-4B63-805E-ADC68B277531Q34747021-C5308960-0956-4583-B8E4-A00593397C97Q34769646-63CDB73C-F736-4A06-8585-4CDB425C874BQ35017000-29D2B52D-1614-4F5F-B46F-BBA964E4D17CQ35092516-7641F976-F3A4-47EC-9205-D5D26432B480Q35095974-248C52A6-05D4-491D-A940-87B702BA0456Q35574549-D37AB18F-91F3-4454-AD87-181FB56A2E83Q35632457-78A3AF5B-6D9C-48E8-9016-19D09002A589Q35896290-7FF598F6-6FFC-4DE2-85B3-72B1754542DFQ36104300-CBBEDD20-66B3-4FC4-9B08-4393A324289EQ36154609-8005B9EE-4E8D-450C-A7FE-AC3E04324E29Q36162758-0D895A1F-A0AB-4EDB-AF4F-CDDAAF8588B0Q36173171-894C2DB0-3D54-4D8B-A5E5-FAFDD35DF56DQ36249635-93918B9F-51B0-4903-B750-FBA91E8DAF06Q36429198-F7C91CC6-19B1-45D5-A7F4-538494CCFAF2Q36588548-30877ECA-D187-4433-9C90-E36344C049BCQ36700424-495614FA-FC0F-465B-BE53-CE1ABF71DCBCQ37110995-C28AC0B8-2C8D-4794-926B-3DD30D095034Q37177470-59BED00D-98F8-42B4-9408-85F78D13D90CQ37318874-D886541A-E574-4FF7-838C-6BC67BD08A69Q38792653-9082B1AE-4524-456E-9AF9-C95E1EA296B5Q39038140-4393DAE6-8B1C-4F01-88C0-17ECC43D22EBQ39648851-33C9C59D-615D-4CAE-B259-1516926F46D4
P2860
Comparison of methods for quantification of cytochrome cd(1)-denitrifying bacteria in environmental marine samples
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh
2000年學術文章
@zh-hant
name
Comparison of methods for quantification of cytochrome cd
@nl
Comparison of methods for quan ...... n environmental marine samples
@en
type
label
Comparison of methods for quantification of cytochrome cd
@nl
Comparison of methods for quan ...... n environmental marine samples
@en
prefLabel
Comparison of methods for quantification of cytochrome cd
@nl
Comparison of methods for quan ...... n environmental marine samples
@en
P2093
P2860
P1476
Comparison of methods for quan ...... n environmental marine samples
@en
P2093
P2860
P304
P356
10.1128/AEM.66.4.1564-1571.2000
P407
P577
2000-04-01T00:00:00Z