Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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de la Broise D, Ventura M, Chauchat L, Guerreiro M, Michez T, Vinet T, Gautron N, Le Grand F, Bideau A, Le Goïc N et al.. 2022. Scale-Up to Pilot of a Non-Axenic Culture of Thraustochytrids Using Digestate from Methanization as Nitrogen Source. Marine Drugs. 20:499.

de la Broise et al. - 2022 - Scale-Up to Pilot of a Non-Axenic Culture of Thrau.pdf (4.81 MB)

Dayras P, Bialais C, Sadovskaya I, Lee M-C, Lee J-S, Souissi S. 2021. Microalgal Diet Influences the Nutritive Quality and Reproductive Investment of the Cyclopoid Copepod Paracyclopina nana. Frontiers in Marine Science. 8:1147.

Dayras et al. - 2021 - Microalgal Diet Influences the Nutritive Quality a.pdf (1.99 MB)

Das S, Lizon F, Gevaert F, Bialais C, Duong G, Ouddane B, Souissi S. 2023. Assessing indicators of arsenic toxicity using variable fluorescence in a commercially valuable microalgae: physiological and toxicological aspects. Journal of Hazardous Materials. :131215.

Das et al_2023_Assessing indicators of arsenic toxicity using variable fluorescence in a.pdf (2.11 MB)

Das S, Gevaert F, Ouddane B, Duong G, Souissi S. 2021. Single toxicity of arsenic and combined trace metal exposure to a microalga of ecological and commercial interest: Diacronema lutheri. Chemosphere. :132949.

Das et al. - 2021 - Single toxicity of arsenic and combined trace meta.pdf (2.29 MB)

Das S, Souissi A, Ouddane B, Hwang J-S, Souissi S. 2022. Trace metals exposure in three different coastal compartments show specific morphological and reproductive traits across generations in a sentinel copepod. Science of The Total Environment. :160378.

Das et al. - 2022 - Trace metals exposure in three different coastal c.pdf (1.41 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.

Dadaglio et al_2018_Differential responses of bacteria to diatom-derived dissolved organic matter.pdf (254.5 KB)

C

Cuvelier ML, Guo J, Ortiz AC, van Baren MJ, Tariq MAkram, Partensky F, Worden AZ. 2017. Responses of the picoprasinophyte Micromonas commoda to light and ultraviolet stress. PLOS ONE. 12:e0172135.

Cuvelier et al_2017_Responses of the picoprasinophyte Micromonas commoda to light and ultraviolet.pdf (3.4 MB)

Cruz JDiogo, Delattre C, Felpeto ABarreiro, Pereira H, Pierre G, Morais J, Petit E, Silva J, Azevedo J, Elboutachfaiti R et al.. 2023. Bioprospecting for industrially relevant exopolysaccharide-producing cyanobacteria under Portuguese simulated climate. Scientific Reports. 13:13561.

Cruz et al_2023_Bioprospecting for industrially relevant exopolysaccharide-producing.pdf (2.12 MB)

Croteau D, Guérin S, Bruyant F, Ferland J, Campbell DA, Babin M, Lavaud J. 2021. Contrasting nonphotochemical quenching patterns under high light and darkness aligns with light niche occupancy in Arctic diatoms. Limnology and Oceanography. 66:S231–S245.

Croteau et al. - 2021 - Contrasting nonphotochemical quenching patterns un.pdf (1.19 MB)

Croteau D., Lacour T., Schiffrine N., Morin P.-I., Forget M.-H., Bruyant F., Ferland J., Lafond A., Campbell D.A, Tremblay J.-E. et al.. 2022. Shifts in growth light optima among diatom species support their succession during the spring bloom in the Arctic. Journal of Ecology. n/a

Croteau et al. - Shifts in growth light optima among diatom species.pdf (1.52 MB)

Crenn K, Duffieux D, Jeanthon C. 2018. Bacterial epibiotic communities of ubiquitous and abundant marine diatoms are distinct in short- and long-term associations. Frontiers in Microbiology. 9:1–12.

Crenn et al_2018_Bacterial epibiotic communities of ubiquitous and abundant marine diatoms are.pdf (670.57 KB)

Coutinho F, Tschoeke DAntonio, Thompson F, Thomson C. 2015. Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus. PeerJ. :e–1522.

Coutinho et al_2015_Comparative genomics of Synechococcus and proposal of the new genus.pdf (7.66 MB)

Courties C, Perasso R, Chrétiennot-Dinet M.-J., Gouy M, Guillou L, Troussellier M. 1998. Phylogenetic analysis and genome size of Ostreococcus tauri (Chlorophyta, Prasinophyceae). Journal of Phycology. 34:844–849.

Countway PD, Caron DA. 2006. Abundance and distribution of Ostreococcus sp in the San Pedro Channel, California, as revealed by quantitative PCR. Applied and Environmental Microbiology. 72:2496–2506.

Connell PE, Ribalet F, Armbrust EV, White A, Caron DA. 2020. Diel oscillations in the feeding activity of heterotrophic and mixotrophic nanoplankton in the North Pacific Subtropical Gyre. Aquatic Microbial Ecology. 85:167–181.

Connell et al_2020_Diel oscillations in the feeding activity of heterotrophic and mixotrophic.pdf (1.35 MB)

Concórdio-Reis P, Cardeira M, Macedo ACatarina, Ferreira SS, Serra ATeresa, Coimbra MA, Amorim A, Reis MAM, Freitas F. 2023. Novel exopolysaccharide produced by the marine dinoflagellate Heterocapsa AC210: Production, characterization, and biological properties. Algal Research. 70:103014.

Concordio-Reis et al_2023_Novel exopolysaccharide produced by the marine dinoflagellate Heterocapsa AC210.pdf (992.03 KB)

Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al.. 2013. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.

Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

Coleman B, Van Poucke C, Dewitte B, Casciaro V, Moerdijk-Poortvliet T, Muylaert K, Robbens J. 2023. Fine-tuning the flavor of Tetraselmis chuii by modifying nitrogen supply. Algal Research. :103208.

Coleman et al_2023_Fine-tuning the flavor of Tetraselmis chuii by modifying nitrogen supply.pdf (1.59 MB)

Coello-Camba A, Díaz-Rúa R, Agusti S. 2023. Design and use of a new primer pair for the characterization of the cyanobacteria Synechococcus and Prochlorococcus communities targeting petB gene through metabarcoding approaches.. MethodsX. :102444.

Coello-Camba et al_2023_Design and use of a new primer pair for the characterization of the.pdf (1003.58 KB)

Coelho SM, Peters AF, Müller D, J Cock M. 2020. Ectocarpus: an evo-devo model for the brown algae. EvoDevo. 11:19.

Coelho et al_2020_Ectocarpus.pdf (1.53 MB)

J Cock M. 2024. Evolutionary genomics of the emergence of brown algae as key components of coastal ecosystems \textbar bioRxiv.

2024.02.19.579948.full_.pdf (31.14 MB)

Clerissi C, Grimsley N, Ogata H, Hingamp P, Poulain J, Desdevises Y. 2014. Unveiling of the diversity of prasinoviruses (phycodnaviridae) in marine samples by using high-throughput sequencing analyses of PCR-Amplified DNA polymerase and major capsid protein genes. Applied and Environmental Microbiology. 80:3150–3160.

Clerissi et al_2014_Unveiling of the diversity of prasinoviruses (phycodnaviridae) in marine.pdf (1.24 MB)

Clerissi C, Desdevises Y, Grimsley N. 2012. Prasinoviruses of the marine green alga Ostreococcus tauri are mainly species specific. Journal of Virology. 86:4611–4619.

Clerissi et al_2012_Prasinoviruses of the marine green alga Ostreococcus tauri are mainly species.pdf (894.33 KB)

Clark AJ, Torres-Romero I, Jaggi M, Bernasconi SM, Stoll HM. 2023. Coccolithophorids precipitate carbonate in clumped isotope equilibrium with seawater.

Clark et al. - 2023 - Coccolithophorids precipitate carbonate in clumped.pdf (1.42 MB)

Claquin P, Probert I, Lefebvre S, Veron B. 2008. Effects of temperature on photosynthetic parameters and TEP production in eight species of marine microalgae. Aquatic Microbial Ecology. 51:1–11.

Claquin et al_2008_Effects of temperature on photosynthetic parameters and TEP production in eight.pdf (548.15 KB)

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