Diatoms respire nitrate to survive dark and anoxic conditions. - Wikidata - wikimedia - TriplyDB

Diatoms respire nitrate to survive dark and anoxic conditions.

Diatoms respire nitrate to survive dark and anoxic conditions.

http://www.wikidata.org/entity/Q34170699

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The discovery of stromatolites developing at 3570 m above sea level in a high-altitude volcanic lake Socompa, Argentinean Andes Nitrate Storage and Dissimilatory Nitrate Reduction by Eukaryotic Microbes Dark survival in a warming world Dissimilatory nitrogen reduction in intertidal sediments of a temperate estuary: small scale heterogeneity and novel nitrate-to-ammonium reducers A doubling of microphytobenthos biomass coincides with a tenfold increase in denitrifier and total bacterial abundances in intertidal sediments of a temperate estuary The challenge of ecophysiological biodiversity for biotechnological applications of marine microalgae Biochemistry and evolution of anaerobic energy metabolism in eukaryotes Sinks and Sources of Intracellular Nitrate in Gromiids.Red and green algal origin of diatom membrane transporters: insights into environmental adaptation and cell evolution Response of the ubiquitous pelagic diatom Thalassiosira weissflogii to darkness and anoxia.Dissimilatory nitrate reduction by Aspergillus terreus isolated from the seasonal oxygen minimum zone in the Arabian Sea.Microbial eukaryote diversity in the marine oxygen minimum zone off northern Chile Depth-related differences in organic substrate utilization by major microbial groups in intertidal marine sediment.Differences between aerobic and anaerobic degradation of microphytobenthic biofilm-derived organic matter within intertidal sediments.Role of diatoms in the spatial-temporal distribution of intracellular nitrate in intertidal sediment.Nitrate reduction functional genes and nitrate reduction potentials persist in deeper estuarine sediments. Why?The fate of nitrate in intertidal permeable sediments.Dynamics of Inorganic Nutrients in Intertidal Sediments: Porewater, Exchangeable, and Intracellular Pools.High rates of denitrification and nitrous oxide emission in arid biological soil crusts from the Sultanate of Oman.Putting the N in dinoflagellates Intracellular Nitrate of Marine Diatoms as a Driver of Anaerobic Nitrogen Cycling in Sinking Aggregates.Metabolism in anoxic permeable sediments is dominated by eukaryotic dark fermentation Fermentation metabolism and its evolution in algae.Anaerobic Nitrogen Turnover by Sinking Diatom Aggregates at Varying Ambient Oxygen Levels.Algae after dark: mechanisms to cope with anoxic/hypoxic conditions.Light as a key driver of freshwater biofouling surface roughness in an experimental hydrocanal pipe rig.Nitrate removal from drinking water with a focus on biological methods: a review.The long-term persistence of phytoplankton resting stages in aquatic 'seed banks'.Sulfide-Induced Dissimilatory Nitrate Reduction to Ammonium Supports Anammox in an Open-Water Unit Process Wetland.Influence of silicate on enrichment of highly productive microalgae from a mixed culture.Stratified Bacterial Diversity along Physico-chemical Gradients in High-Altitude Modern Stromatolites.Kinetic exploration of intracellular nitrate storage in marine microalgae.Lipid Biomarker and Isotopic Study of Community Distribution and Biomarker Preservation in a Laminated Microbial Mat from Shark Bay, Western Australia.Kinetic exploration of nitrate-accumulating microalgae for nutrient recovery.Effect of settled diatom-aggregates on benthic nitrogen cycling.Effect of settled diatom‐aggregates on benthic nitrogen cycling.Diatom-driven recolonization of microbial mat-dominated siliciclastic tidal flat sediments.Molecular evolution of nitrogen assimilatory enzymes in marine prasinophytes.Diatoms dominate the eukaryotic metatranscriptome during spring in coastal 'dead zone' sediments.Pluses and minuses of ammonium and nitrate uptake and assimilation by phytoplankton and implications for productivity and community composition, with emphasis on nitrogen-enriched conditions

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P2860

Diatoms respire nitrate to survive dark and anoxic conditions.

http://www.wikidata.org/entity/Q34170699

description

2011 nî lūn-bûn

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2011 թուականի Մարտին հրատարակուած գիտական յօդուած

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2011 թվականի մարտին հրատարակված գիտական հոդված

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2011年の論文

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2011年学术文章

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2011年学术文章

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2011年学术文章

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2011年學術文章

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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prefLabel

Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Proceedings of the National Academy of Sciences of the United States of America

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Diatoms respire nitrate to survive dark and anoxic conditions.

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Anja Kamp

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Jana L Nitsch

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P2860

The Genome of the Diatom Thalassiosira Pseudonana: Ecology, Evolution, and Metabolism

The Phaeodactylum genome reveals the evolutionary history of diatom genomes

Widespread occurrence of nitrate storage and denitrification among Foraminifera and Gromiida

Studies of marine planktonic diatoms. I. Cyclotella nana Hustedt, and Detonula confervacea (cleve) Gran

Revising the nitrogen cycle in the Peruvian oxygen minimum zone.

Oceanographic and biogeochemical insights from diatom genomes.

Nitrogen, carbon, and sulfur metabolism in natural thioploca samples

Massive nitrogen loss from the Benguela upwelling system through anaerobic ammonium oxidation.

Presence of nitrate-accumulating sulfur bacteria and their influence on nitrogen cycling in a shallow coastal marine sediment.

Denitrification by the fungus Fusarium oxysporum and involvement of cytochrome P-450 in the respiratory nitrite reduction.

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