Ambient concentrations of acetate, glycerol, and mannitol measured from samples collected during R/V Endeavor cruise EN616 in the northwest Atlantic in July 2018

<p>This dataset is part of a larger study with the following goals:</p> <ul> <li>&nbsp;<strong>Goal #1</strong>: measure the mixotrophic uptake and assimilation of 14C-acetate, 14C-mannitol and 14C-glycerol as a carbon source by natural assemblages of coccolit...

Full description

Bibliographic Details
Main Authors: William M. Balch, Stephen D. Archer, David T. Drapeau, Jelena Godrijan
Format: Dataset
Language:unknown
Published: Biological and Chemical Oceanography Data Management Office (BCO-DMO) 2023
Subjects:
glycerol, mannitol, acetate, DOC uptake, Dissolved Organic Carbon, oceans
Northwest Atlantic
Online Access:https://search.dataone.org/view/sha256:335a0bc728d9c670b157c40ac0408395824f4d1fbe3b1b444723385159c40dd7
Description
Summary:<p>This dataset is part of a larger study with the following goals:</p> <ul> <li>&nbsp;<strong>Goal #1</strong>: measure the mixotrophic uptake and assimilation of 14C-acetate, 14C-mannitol and 14C-glycerol as a carbon source by natural assemblages of coccolithophores and compare it to their autotrophic uptake and assimilation of DIC. These three organics were chosen due to their high potential for significant osmotrophy by coccolithophores as seen in previous culture studies (Godrijan et al. (2020) and BCO-DMO dataset:&nbsp;https://www.bco-dmo.org/dataset/858771).&nbsp;The design of these experiments used radiochemical and single cell/flow cytometer methods to distinguish osmotrophy of coccolithophores from that by other naturally-occurring microalgae.</li> <li><strong>Goal #2</strong>: test for the fixation of 14C-labeled organics into both POC and PIC fractions in natural populations of coccolithophores, in order to examine the potential role of coccolithophore osmotrophy in the&nbsp;biological carbon pump and alkalinity carbon pump paradigms.</li> </ul>

Similar Items