RCC references

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Drescher B, Dillaman RM, Taylor AR.  2012.  Coccolithogenesis in scyphosphaera apsteinii (prymnesiophyceae). Journal of Phycology. 48:1343–1361.
Reid EL, Worthy CA, Probert I, Ali ST, Love J, Napier J, Littlechild JA, Somerfield PJ, Allen MJ.  2011.  Coccolithophores: Functional biodiversity, enzymes and bioprospecting. Marine Drugs. 9:586–602.PDF icon Reid et al_2011_Coccolithophores.pdf (369.69 KB)
Guyon J-baptiste, Schatt P, Lozano J-C, Liennard M, Bouget F-Y.  2018.  Comparative analysis of culture conditions for the optimization of carotenoid production in several strains of the picoeukaryote ostreococcus. Marine Drugs. 16:76.PDF icon Guyon et al_2018_Comparative analysis of culture conditions for the optimization of carotenoid.pdf (1.45 MB)
Coutinho F, Tschoeke DAntonio, Thompson F, Thomson C.  2015.  Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus. PeerJ. :e–1522.PDF icon Coutinho et al_2015_Comparative genomics of Synechococcus and proposal of the new genus.pdf (7.66 MB)
Bombar D, Heller P, Sanchez-Baracaldo P, Carter BJ, Zehr JP.  2014.  Comparative genomics reveals surprising divergence of two closely related strains of uncultivated UCYN-A cyanobacteria. The ISME Journal. 8:2530–2542.PDF icon Bombar et al_2014_Comparative genomics reveals surprising divergence of two closely related.pdf (1.84 MB)
Fernandes T, Ferreira A, Cordeiro N.  2021.  Comparative lipidomic analysis of Chlorella stigmatophora and Hemiselmis cf. andersenii in response to nitrogen-induced changes. Algal Research. 58:102417.
Moore LR, Goericke R, Chisholm SW.  1995.  Comparative physiology of Synechococcus and Prochlorococcus: influence of light and temperature on growth, pigments, fluorescence and absorptive properties. Marine Ecology - Progress Series. 116:259–275.PDF icon Moore et al_1995_Comparative physiology of Synechococcus and Prochlorococcus.pdf (4.02 MB)
Robbens S, Derelle E, Ferraz C, Wuyts J, Moreau H, Van de Peer Y.  2007.  The complete chloroplast and mitochondrial DNA sequence of Ostreococcus tauri: organelle genomes of the smallest eukaryote are examples of compaction. Molecular Biology and Evolution. 24:956–968.
Romari K, Vaulot D.  2004.  Composition and temporal variability of picoeukaryote communities at a coastal site of the English Channel from 18S rDNA sequences. 49:784–798.PDF icon Romari_Vaulot_2004_Composition and temporal variability of picoeukaryote communities at a coastal.pdf (393.52 KB)
Balzano S, Marie D, Gourvil P, Vaulot D.  2012.  Composition of the summer photosynthetic pico and nanoplankton communities in the Beaufort Sea assessed by T-RFLP and sequences of the 18S rRNA gene from flow cytometry sorted samples. The ISME journal. 6:1480–1498.PDF icon Balzano et al_2012_Composition of the summer photosynthetic pico and nanoplankton communities in.pdf (1.01 MB)
Pittera J, Humily F, Thorel M, Grulois D, Garczarek L, Six C.  2014.  Connecting thermal physiology and latitudinal niche partitioning in marine Synechococcus. The ISME journal. 8:1221–1236.PDF icon Pittera et al_2014_Connecting thermal physiology and latitudinal niche partitioning in marine.pdf (1.62 MB)
Six C, Finkel ZV, Rodriguez F, Marie D, Partensky F, Campbell DA.  2008.  Contrasting photoacclimation strategies in ecotypes of the eukayotic picoplankter ¡i¿Ostreococcus¡/i¿. Limnology and Oceanography. 53:255–265.PDF icon Six et al_2008_Contrasting photoacclimation strategies in ecotypes of the eukayotic.pdf (486.58 KB)
Bellec L, Clerissi C, Edern R, Foulon E, Simon N, Grimsley N, Desdevises Y.  2014.  Cophylogenetic interactions between marine viruses and eukaryotic picophytoplankton. BMC Evolutionary Biology. 14:59.PDF icon Bellec et al_2014_Cophylogenetic interactions between marine viruses and eukaryotic.pdf (496.16 KB)
Uwizeye C, Brisbin MMars, Gallet B, Chevalier F, LeKieffre C, Schieber NL, Falconet D, Wangpraseurt D, Schertel L, Stryhanyuk H et al..  2021.  Cytoklepty in the plankton: A host strategy to optimize the bioenergetic machinery of endosymbiotic algae. Proceedings of the National Academy of Sciences. 118PDF icon Uwizeye et al. - 2021 - Cytoklepty in the plankton A host strategy to opt.pdf (3.9 MB)
D
Bolton CT, Hernández-Sánchez MT, Fuertes M-Á, González-Lemos S, Abrevaya L, Méndez-Vicente A, Flores J-A, Probert I, Giosan L, Johnson J et al..  2016.  Decrease in coccolithophore calcification and CO2 since the middle Miocene. Nature Communications. 7:10284.PDF icon Bolton et al_2016_Decrease in coccolithophore calcification and CO2 since the middle Miocene.pdf (9.1 MB)
Bendif EMahdi, Probert I, Schroeder DC, de Vargas C.  2013.  On the description of Tisochrysis lutea gen . nov . sp . nov . and Isochrysis nuda sp. nov. in the Isochrysidales, and the transfer of Dicrateria to the Prymnesiales (Haptophyta). Journal of Applied Phycology. 25:1763–1776.PDF icon Bendif et al. - On the description of Tisochrysis lutea gen . nov . sp . nov . and Isochrysis nuda sp. nov. in the Isochrysidales, and t.pdf (944.03 KB)
Robla J., García-Hierrro J., Alguacil F.J, Dittami S.M, Marie D., Villa E., Deragon E., Guillebault D., Mengs G., Medlin L.K.  2021.  Determination of the efficiency of filtration of cultures from microalgae and bacteria using hollow fiber filters. Environmental Science: Water Research & Technology. 7:1230–1239.
Jacquet S, Partensky F, Lennon JF, Vaulot D.  2001.  Diel patterns of growth and division in marine picoplankton in culture. Journal of Phycology. 37:357–369.PDF icon Jacquet et al_2001_Diel patterns of growth and division in marine picoplankton in culture.pdf (707.85 KB)
Bruyant F, Babin M, Genty B, Prasil O, Behrenfeld MJ, Claustre H, Bricaud A, Holtzendorff J, Koblizek M, Garczareck L et al..  2005.  Diel variations in the photosynthetic parameters of Prochlorococcus strain PCC 9511: combined effects of light and cell cycle. Limnology and Oceanography. 50:850–863.PDF icon Bruyant et al_2005_Diel variations in the photosynthetic parameters of Prochlorococcus strain PCC.pdf (2.06 MB)
Dadaglio L, Dinasquet J, Obernosterer I, Joux F.  2018.  Differential responses of bacteria to diatom-derived dissolved organic matter in the Arctic Ocean. Aquatic Microbial Ecology. 82:59–72.PDF icon Dadaglio et al_2018_Differential responses of bacteria to diatom-derived dissolved organic matter.pdf (254.5 KB)
Franklin DJ, Steinke M, Young J, Probert I, Malin G.  2010.  Dimethylsulphoniopropionate (DMSP), DMSP-lyase activity (DLA) and dimethylsulphide (DMS) in 10 species of coccolithophore. Marine Ecology-Progress Series. 410:13–23.PDF icon Franklin et al_2010_Dimethylsulphoniopropionate (DMSP), DMSP-lyase activity (DLA) and.pdf (682.88 KB)
Lepelletier F, Karpov SA, Alacid E, Le Panse S, Bigeard E, Garcés E, Jeanthon C, Guillou L.  2014.  Dinomyces arenysensis gen. et sp. nov. (rhizophydiales, dinomycetaceae fam. nov.), a chytrid infecting marine dinoflagellates. Protist. 165:230–244.PDF icon Lepelletier et al_2014_Dinomyces arenysensis gen.pdf (16.28 MB)
Long M, Marie D, Szymczak J, Toullec J, Bigeard E, Sourisseau M, Le Gac M, Guillou L, Jauzein C.  2021.  Dinophyceae can use exudates as weapons against the parasite Amoebophrya sp. (Syndiniales). ISME Communications. 1:1–10.PDF icon Long et al. - 2021 - Dinophyceae can use exudates as weapons against th.pdf (1.72 MB)
Marc L, Dominique M, Jeremy S, Jordan T, Estelle B, Marc S, Mickael LGac, Laure G, Cécile J.  2021.  Dinophyceae use exudates as weapons against the parasite Amoebophrya sp. (Syndiniales). :2021.01.05.425281.PDF icon Marc et al. - 2021 - Dinophyceae use exudates as weapons against the pa.pdf (906.58 KB)
Xie E, Xu K, Li Z, Li W, Yi X, Li H, Han Y, Zhang H, Zhang Y.  2021.  Disentangling the Effects of Ocean Carbonation and Acidification on Elemental Contents and Macromolecules of the Coccolithophore Emiliania huxleyi. Frontiers in Microbiology. 12:3188.PDF icon Xie et al. - 2021 - Disentangling the Effects of Ocean Carbonation and.pdf (3.38 MB)

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