RCC references

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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.
Corn M., Belviso S., Partensky F., Simon N., Christaki U..  1996.  Origin and Importance of Picoplanktonic DMSP. Biological and Environmental Chemistry of DMSP and Related Sulfonium Compounds. :191–201.PDF icon Corn et al_1996_Origin and Importance of Picoplanktonic DMSP.pdf (3.74 MB)
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.PDF icon 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.PDF icon 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.PDF icon Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)
Coleman B, Van Poucke C, De Witte B, Casciaro V, Moerdijk-Poortvliet T, Muylaert K, Robbens J.  2024.  The use of \textit{Tetraselmis chuii as seafood flavoring agent in a vegetable broth. Algal Research. 80:103538.PDF icon Coleman et al. - 2024 - The use of Tetraselmis chuii as seafood flavoring .pdf (532.42 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.PDF icon 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.PDF icon 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.PDF icon 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. PDF icon 2024.02.19.579948.full_.pdf (31.14 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.PDF icon Clerissi et al_2012_Prasinoviruses of the marine green alga Ostreococcus tauri are mainly species.pdf (894.33 KB)
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.PDF icon Clerissi et al_2014_Unveiling of the diversity of prasinoviruses (phycodnaviridae) in marine.pdf (1.24 MB)
Clark AJ, Torres-Romero I, Jaggi M, Bernasconi SM, Stoll HM.  2023.  Coccolithophorids precipitate carbonate in clumped isotope equilibrium with seawater. PDF icon 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.PDF icon Claquin et al_2008_Effects of temperature on photosynthetic parameters and TEP production in eight.pdf (548.15 KB)
Churakova Y, Aguilera A, Charalampous E, Conley DJ, Lundin D, Pinhassi J, Farnelid H.  2023.  Biogenic silica accumulation in picoeukaryotes: Novel players in the marine silica cycle. Environmental Microbiology Reports. n/aPDF icon Churakova et al_2023_Biogenic silica accumulation in picoeukaryotes.pdf (454.16 KB)
Chrétiennot-Dinet M.-J., Courties C, Vaquer A, Neveux J, Claustre H, Lautier J, Machado MC.  1995.  A new marine picoeucaryote: Ostreococcus tauri gen. et sp. nov. (Chlorophyta, Prasinophyceae). Phycologia. 34:285–292.
Cho A.  2024.  EVOLUTION AND DIVERSITY OF STRAMENOPILES. PDF icon Cho et al. - 2024 - Phylogenomic analyses of ochrophytes (stramenopile.pdf (3.77 MB)
Cho A, Lax G, Keeling PJ.  2024.  Phylogenomic analyses of ochrophytes (stramenopiles) with an emphasis on neglected lineages. Molecular Phylogenetics and Evolution. :108120.PDF icon Cho - EVOLUTION AND DIVERSITY OF STRAMENOPILES.pdf (12.52 MB)
Cho A, Tikhonenkov DV, Lax G, Prokina KI, Keeling PJ.  2023.  Phylogenomic position of genetically diverse phagotrophic stramenopile flagellates in the sediment-associated MAST-6 lineage and a potentially halotolerant placididean. Molecular Phylogenetics and Evolution. :107964.PDF icon Cho et al. - 2023 - Phylogenomic position of genetically diverse phago.pdf (2.71 MB)
Cho A, Lax G, Livingston SJ, Masukagami Y, Naumova M, Millar O, Husnik F, Keeling PJ.  2024.  Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic bacteria but does reveal the presence of giant viruses. PLOS Genetics. 20:e1011218.PDF icon Cho et al_2024_Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic.pdf (6.58 MB)
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.
Cheng S, Melkonian M, Smith SA, Brockington S, Archibald JM, Delaux P-M, Li F-W, Melkonian B, Mavrodiev EV, Sun W et al..  2018.  10KP: A phylodiverse genome sequencing plan. GigaScience. 7:1–9.PDF icon Cheng et al_2018_10KP.pdf (6.53 MB)
Chen H, Lin H, Jiang P, Li F, Qin S.  2013.  Genetic transformation of marine cyanobacterium Synechococcus sp. CC9311 (Cyanophyceae) by electroporation. Chinese Journal of Oceanology and Limnology. 31:416–420.PDF icon Chen et al_2013_Genetic transformation of marine cyanobacterium Synechococcus sp.pdf (360.8 KB)
Chauhan N, Rickaby REM.  2024.  Size-dependent dynamics of the internal carbon pool drive isotopic vital effects in calcifying phytoplankton. Geochimica et Cosmochimica Acta. 373:35–51.PDF icon Chauhan et Rickaby - 2024 - Size-dependent dynamics of the internal carbon poo.pdf (5.79 MB)

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