RCC1198

Coccolithus_braarudii

Distributed

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IDENTITY

Coccolithus_braarudii

Domain: 
Eukaryota
Division: 
Haptophyta
Class: 
Prymnesiophyceae
Order: 
Coccolithales
Family: 
Coccolithaceae
Genus: 
Coccolithus
Strain name: 
AC387
Strain name synonyms: 
PLY182g
Authentic culture: 
STATUS
Clonal: 
Axenic: 
Pure: 
Heterotrophic: 
Toxic: 
Symbiotic: 
Transformed: 
MORPHOLOGY
Cell shape: 
coccoid
Cell motility: 
non-motile
ORIGIN
Sampling ocean: 
Atlantic Ocean
Sampling regional sea: 
English Channel
Sampling country: 
UK
Sampling ecosystem: 
pelagic
Sampling comment: 
Sampling date not known ( pre-1998).
Sampling station: 
L4
Isolation by: 
Parke M.
Isolation method: 
Micropipette (1 cell)
CULTURE CONDITIONS
RCC medium: 
RCC temperature: 
13.00
RCC transfer period weeks: 
4.00
RCC light: 
25
RCC light color: 
white
RCC Staff >
Details for RCC staff only
Date entered catalog: 
Wednesday, December 5, 2007
Identification by: 
I. Probert
Isolation medium: 
K/5 (ian)
Deposit to RCC date: 
Saturday, December 1, 2007
Deposit to rcc by: 
Caen_A

Sequences available for this RCC strain

GenBank Accession Gene name Gene location Genbank organism Genbank taxonomy Description
LN735230 16S rRNA plastid Coccolithus braarudii Eukaryota; Haptophyceae; Coccolithales; Coccolithaceae; Coccolithus Coccolithus braarudii chloroplast partial 16S rRNA gene, strain RCC 1198
MH843569 28S rRNA nucleus Coccolithus braarudii Eukaryota; Haptophyceae; Coccolithales; Coccolithaceae; Coccolithus Coccolithus braarudii strain RCC1198 large subunit ribosomal RNA gene, partial sequence

Associated references

Displaying 1 - 6 of 6
Gafar N.A, Eyre B.D, Schulz K.G.  2019.  Particulate inorganic to organic carbon production as a predictor for coccolithophorid sensitivity to ongoing ocean acidification. Limnology and Oceanography Letters. 4:62–70. PDF icon Download pdf (552.24 KB)
Faucher G, Hoffmann L, Bach LT, Bottini C, Erba E, Riebesell U.  2017.  Impact of trace metal concentrations on coccolithophore growth and morphology: laboratory simulations of Cretaceous stress. Biogeosciences. 14:3603–3613. PDF icon Download pdf (13.72 MB)
Bottini C, Dapiaggi M, Erba E, Faucher G, Rotiroti N.  2020.  High resolution spatial analyses of trace elements in coccoliths reveal new insights into element incorporation in coccolithophore calcite. Scientific Reports. 10:9825. PDF icon Download pdf (9.04 MB)
Yang M, Batchelor-McAuley C, Barton S, Rickaby REM, Bouman HA, Compton RG.  2021.  Opto-Electrochemical Dissolution Reveals Coccolith Calcium Carbonate Content. Angewandte Chemie International Edition. 60:20999–21006. PDF icon Download pdf (1.54 MB)
Fan X, Batchelor-McAuley C, Yang M, Barton S, Rickaby REM, Bouman HA, Compton RG.  2022.  Quantifying the Extent of Calcification of a Coccolithophore Using a Coulter Counter. Analytical Chemistry. :acs.analchem.2c01971. PDF icon Download pdf (2.95 MB)
Barton S, Yang M, Chen H, Batchelor-McAuley C, Compton R, Bouman H, Rickaby R.  2023.  A novel fluoro-electrochemical technique for classifying diverse marine nanophytoplankton. PDF icon Download pdf (1.5 MB)