Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
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Differential nutrient limitation of soil microbial biomass and metabolic quotients (qCO2): is there a biological stoichiometry of soil microbes?Environmental and stoichiometric controls on microbial carbon-use efficiency in soils.Climate-related changes of soil characteristics affect bacterial community composition and function of high altitude and latitude lakesTranscriptomic and proteomic analyses of Desulfovibrio vulgaris biofilms: carbon and energy flow contribute to the distinct biofilm growth state.A trait-based approach for modelling microbial litter decomposition.Carbon use efficiency of microbial communities: stoichiometry, methodology and modelling.Transcriptional changes underlying elemental stoichiometry shifts in a marine heterotrophic bacteriumPhosphate and ATP uptake by lake bacteria: does taxonomical identity matter?A genomic perspective on stoichiometric regulation of soil carbon cycling.How interactions between microbial resource demands, soil organic matter stoichiometry, and substrate reactivity determine the direction and magnitude of soil respiratory responses to warming.Rate of warming affects temperature sensitivity of anaerobic peat decomposition and greenhouse gas production.Land-use and soil depth affect resource and microbial stoichiometry in a tropical mountain rainforest region of southern Ecuador.Bridging Food Webs, Ecosystem Metabolism, and Biogeochemistry Using Ecological Stoichiometry Theory.Evolution of organismal stoichiometry in a long-term experiment with Escherichia coli.Phylogenetic constraints on elemental stoichiometry and resource allocation in heterotrophic marine bacteria.Optimal metabolic regulation along resource stoichiometry gradients.Changes in nutrient stoichiometry, elemental homeostasis and growth rate of aquatic litter-associated fungi in response to inorganic nutrient supply.Size evolution in microorganisms masks trade-offs predicted by the growth rate hypothesis.Biodegradation of Crystal Violet dye by bacteria isolated from textile industry effluents.Above- and belowground linkages of a nitrogen and phosphorus co-limited tropical mountain pasture system – responses to nutrient enrichmentThe return of an experimentally N-saturated boreal forest to an N-limited state: observations on the soil microbial community structure, biotic N retention capacity and gross N mineralisation
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P2860
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
description
article
@en
im Februar 2011 veröffentlichter wissenschaftlicher Artikel
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wetenschappelijk artikel
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наукова стаття, опублікована в лютому 2011
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ലേഖനം
@ml
name
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@en
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@nl
type
label
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@en
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@nl
prefLabel
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@en
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@nl
P50
P356
P1476
Optimization of Biomass Composition Explains Microbial Growth-Stoichiometry Relationships
@en
P2093
Edward K. Hall
Tom J. Battin
P304
P356
10.1086/657684
P577
2011-02-01T00:00:00Z