A comparison of adenosine triphosphate with other metrics of microbial biomass in a gradient from the North Atlantic to the Chesapeake Bay

A new, simplified protocol for determining particulate adenosine triphosphate (ATP) levels allows for the assessment of microbial biomass distribution in aquatic systems at a high temporal and spatial resolution. A comparison of ATP data with related variables, such as particulate carbon, nitrogen,...

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Bibliographic Details
Published in:Frontiers in Marine Science 2024-01, Vol.11
Main Authors: Bochdansky, Alexander B., Beecher, Amber A., Calderon, Joshua R., Stouffer, Alison N., Washington, NyJaee N.
Format: Article
Language:English
Subjects:
Adenosine triphosphate
Aquatic environment
Aquatic habitats
ATP
ATP - adenosine triphosphate
beam attenuation
Biomass
Carbon
Chlorophyll
Chlorophylls
coastal ocean
Conversion factors
Cytoplasm
Deep sea
Estimates
estuary
Eutrophic environments
Eutrophication
Inland waters
Laboratories
Metabolism
microbial biomass
Microscopy
Nitrogen
Particulate organic carbon
Pore size
Prokaryotes
Sigma-T
Spatial discrimination
Turbidity
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Summary:A new, simplified protocol for determining particulate adenosine triphosphate (ATP) levels allows for the assessment of microbial biomass distribution in aquatic systems at a high temporal and spatial resolution. A comparison of ATP data with related variables, such as particulate carbon, nitrogen, chlorophyll, and turbidity in pelagic samples, yielded significant and strong correlations in a gradient from the tributaries of the Chesapeake Bay (sigma-t = 8) to the open North Atlantic (sigma-t = 29). Correlations varied between ATP and biomass depending on the microscopic method employed. Despite the much greater effort involved, biomass determined by microscopy correlated poorly with other indicator variables including carbon, nitrogen, and chlorophyll. The ATP values presented here fit well within the range of ATP biomass estimates in the literature for similar environments. A compilation of prior research data from a wide range of marine habitats demonstrated that ATP values can be ranked according to broad trophic gradients, from the deep sea to eutrophic inland waters. Using a mass-based conversion factor of 250, the contribution of biomass to overall particulate organic carbon (POC) ranged from 15% to 30% along the gradient, from the open ocean to locations in the Chesapeake Bay respectively. Our data corroborate the notion that ATP, due to its consistency and simplicity, is a promising high-throughput indicator of cytoplasm volume with distinct benefits over cell counts and measures of chlorophyll or POC.
ISSN:2296-7745
2296-7745
DOI:10.3389/fmars.2024.1288812