Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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Gebühr C, Sheward RM, Herrle JO, Bollmann J. 2021. Strain-specific morphological response of the dominant calcifying phytoplankton species Emiliania huxleyi to salinity change. PLOS ONE. 16:e0246745.

Gebuhr et al_2021_Strain-specific morphological response of the dominant calcifying phytoplankton.pdf (2.2 MB)

Langer G, Nehrke G, Probert I, Ly J, Ziveri P. 2009. Strain-specific responses of Emiliania huxleyi to changing seawater carbonate chemistry. Biogeosciences. 6:2637–2646.

Decelle J, Veronesi G, LeKieffre C, Gallet B, Chevalier F, Stryhanyuk H, Marro S, Ravanel S, Tucoulou R, Schieber N et al.. 2021. Subcellular architecture and metabolic connection in the planktonic photosymbiosis between Collodaria (radiolarians) and their microalgae. bioRxiv. :2021.03.13.435225.

Decelle et al. - 2021 - Subcellular architecture and metabolic connection .pdf (5.82 MB)

Vannier T, Leconte J, Seeleuthner Y, Mondy S, Pelletier E, Aury J-M, de Vargas C, Sieracki M, Iudicone D, Vaulot D et al.. 2016. Survey of the green picoalga Bathycoccus genomes in the global ocean. Scientific Reports. 6:37900.

Vannier et al_2016_Survey of the green picoalga Bathycoccus genomes in the global ocean.pdf (2.44 MB)

Wilson W, Zhang Q, Rickaby REM. 2019. Susceptibility of algae to Cr toxicity reveals contrasting metal management strategies. Limnology and Oceanography. 64:2271–2282.

Wilson et al_2019_Susceptibility of algae to Cr toxicity reveals contrasting metal management.pdf (1.9 MB)

Guillou L, Chrétiennot-Dinet M.-J., Boulben S, van der Staay SYMoon-, Vaulot D. 1999. Symbiomonas scintillans gen. et sp nov and Picophagus flagellatus gen. et sp nov (Heterokonta): Two new heterotrophic flagellates of picoplanktonic size. Protist. 150:383–398.

Guillou et al_1999_Symbiomonas scintillans gen.pdf (1.18 MB)

Toledo G, Palenik B. 1997. Synechococcus diversity in the California current as seen by RNA polymerase (rpoC1) gene sequences of isolated strains.. Applied and environmental microbiology. 63:4298–4303.

Toledo and Palenik - 1997 - Synechococcus diversity in the California current .pdf (141.37 KB)

Toledo G, Palenik B. 2003. A Synechococcus serotype is found preferentially in surface marine waters. Limnology and Oceanography. 48:1744–1755.

Toledo_Palenik_2003_A Synechococcus serotype is found preferentially in surface marine waters.pdf (508.2 KB)

Guyet U, Nguyen NA, Doré H, Haguait J, Pittera J, Conan M, Ratin M, Corre E, Le Corguillé G, Brillet-Guéguen L et al.. 2020. Synergic effects of temperature and irradiance on the physiology of the marine synechococcus strain WH7803. Frontiers in Microbiology. 11:1707.

Guyet et al_2020_Synergic effects of temperature and irradiance on the physiology of the marine.pdf (4.06 MB)

Derilus D, Rahman MZ, Pinero F, Massey SE. 2020. Synergism between the Black Queen effect and the proteomic constraint on genome size reduction in the photosynthetic picoeukaryotes. Scientific Reports. 10:8918.

Derilus et al_2020_Synergism between the Black Queen effect and the proteomic constraint on genome.pdf (2.27 MB)

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Storti M, Hsine H, Uwizeye C, Bastien O, Yee DP, Chevalier F, Decelle J, Giustini C, Béal D, Curien G et al.. 2023. Tailoring confocal microscopy for real-time analysis of photosynthesis at single-cell resolution. Cell Reports Methods. :100568.

Storti et al. - 2023 - Tailoring confocal microscopy for real-time analys.pdf (3.69 MB)

Kashiyama Y, Yokoyama A, Shiratori T, Hess S, Not F, Bachy C, Gutierrez-Rodriguez A, Kawahara J, Suzaki T, Nakazawa M et al.. 2019. Taming chlorophylls by early eukaryotes underpinned algal interactions and the diversification of the eukaryotes on the oxygenated Earth. The ISME Journal. :1.

Kashiyama et al_2019_Taming chlorophylls by early eukaryotes underpinned algal interactions and the.pdf (2.78 MB)

Blocka Z. 2023. Taxonomic profling of microbes co-cultured with protists in the Roscoﬀ Culture Collection.

Zuzanna_SemesterProject_Report.pdf (741.63 KB)

Ribeiro CGérikas, Santos ALopes dos, Probert I, Vaulot D, Edvardsen B. 2020. Taxonomic reassignment of \textit{Pseudohaptolina birgeri comb. nov . (Haptophyta). Phycologia. in press:1–10.

Arin L, Reñé A, Gallisai R, Sarno D, Garcés E, Estrada M. 2022. Taxonomic relationship between two small-sized Chaetoceros species (Bacillariophyta): C. tenuissimus and C. salsugineus , and comparison with C. olympicus sp. nov. from Catalan coastal waters (NW Mediterranean). European Journal of Phycology. 57:277–296.

Arin et al. - 2022 - Taxonomic relationship between two small-sized .pdf (8.01 MB)

Medlin L, Zingone A. 2007. A taxonomic review of the genus Phaeocystis. Biogeochemistry. 83:3–18.

Medlin_Zingone_2007_A taxonomic review of the genus Phaeocystis.pdf (720.21 KB)

Schmitt M, Telusma A, Bigeard E, Guillou L, Alves-de-Souza C. 2022. Temperature Affects the Biological Control of Dinoflagellates by the Generalist Parasitoid Parvilucifera rostrata. Microorganisms. 10:385.

Schmitt et al_2022_Temperature Affects the Biological Control of Dinoflagellates by the Generalist.pdf (3.08 MB)

Rosas-Navarro A, Langer G, Ziveri P. 2016. Temperature affects the morphology and calcification of Emiliania huxleyi strains. Biogeosciences. 13:2913–2926.

Rosas-Navarro et al_2016_Temperature affects the morphology and calcification of Emiliania huxleyi.pdf (8.45 MB)

Rosas-Navarro A, Langer G, Ziveri P. 2018. Temperature effects on sinking velocity of different Emiliania huxleyi strains. PLOS ONE. 13:e0194386.

Rosas-Navarro et al_2018_Temperature effects on sinking velocity of different Emiliania huxleyi strains.pdf (2.23 MB)

Müller MN, Blanco-Ameijeiras S, Stoll HM, Méndez-Vicente A, Lebrato M. 2021. Temperature Induced Physiological Reaction Norms of the Coccolithophore Gephyrocapsa oceanica and Resulting Coccolith Sr/Ca and Mg/Ca Ratios. Frontiers in Earth Science. 9:273.

Müller et al. - 2021 - Temperature Induced Physiological Reaction Norms o.pdf (1.37 MB)

Demory D, Arsenieff L, Simon N, Six C, Rigaut-jalabert F, Marie D, Ge P, Bigeard E, Jacquet S, Sciandra A et al.. 2017. Temperature is a key factor in Micromonas–virus interactions. The ISME Journal. 11:601–612.

Demory et al_2017_Temperature is a key factor in Micromonas–virus interactions.pdf (694.6 KB)

Labban A, Palacio AS, García FC, Hadaidi G, Ansari MI, López-Urrutia Á, Alonso-Sáez L, Hong P-Y, Morán XAnxelu G. 2021. Temperature Responses of Heterotrophic Bacteria in Co-culture With a Red Sea Synechococcus Strain. Frontiers in Microbiology. 12:612732.

Labban et al. - 2021 - Temperature Responses of Heterotrophic Bacteria in.pdf (2.12 MB)

Kulk G, De Vries P, Van De Poll WH, Visser RJW, Buma AGJ. 2012. Temperature-dependent growth and photophysiology of prokaryotic and eukaryotic oceanic picophytoplankton. Marine Ecology Progress Series. 466:43–55.

Kulk et al_2012_Temperature-dependent growth and photophysiology of prokaryotic and eukaryotic.pdf (506.33 KB)

Chisholm SW, Frankel SL, Goericke R, Olson RJ, Palenik B, Waterbury JB, West-Johnsrud L, Zettler ER. 1992. \textit{Prochlorococcus marinus nov. gen. nov. sp.: an oxyphototrophic marine prokaryote containing divinyl chlorophyll a and b. Archives of Microbiology. 157:297–300.

Barbeyron T, Le Duff N, Duchaud E, Thomas F. 2023. \textit{Zobellia alginiliquefaciens sp. nov., a novel member of the flavobacteria isolated from the epibiota of the brown alga Ericaria zosteroides (C. Agardh) Molinari & Guiry 2020. International Journal of Systematic and Evolutionary Microbiology. 73:005924.

Barbeyron et al_2023_Zobellia alginiliquefaciens sp.pdf (1.01 MB)

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