RCC references

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Suchéras-Marx B, Viseur S, Walker CE, Beaufort L, Probert I, Bolton C.  2022.  Coccolith size rules – What controls the size of coccoliths during coccolithogenesis? Marine Micropaleontology. 170:102080.
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)
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)
Hachicha R, Dammak M, Hachicha R, Dubessay P, Abdelkafi S, Michaud P, Fendri I.  2024.  Combined biological treatments of olive mill wastewater using fungi and microalgae. Euro-Mediterranean Journal for Environmental Integration. PDF icon Hachicha et al. - 2024 - Combined biological treatments of olive mill waste.pdf (1.47 MB)
Thomy J, Sanchez F, Gut M, Cruz F, Alioto T, Piganeau G, Grimsley N, Yau S.  2021.  Combining Nanopore and Illumina Sequencing Permits Detailed Analysis of Insertion Mutations and Structural Variations Produced by PEG-Mediated Transformation in Ostreococcus tauri. PDF icon Thomy et al. - 2021 - Combining Nanopore and Illumina Sequencing Permits.pdf (1.99 MB)
Thomy J, Sanchez F, Gut M, Cruz F, Alioto T, Piganeau G, Grimsley N, Yau S.  2021.  Combining Nanopore and Illumina Sequencing Permits Detailed Analysis of Insertion Mutations and Structural Variations Produced by PEG-Mediated Transformation in Ostreococcus tauri. Cells. 10:664.PDF icon Thomy et al. - 2021 - Combining Nanopore and Illumina Sequencing Permits.pdf (1.99 MB)
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)
Satjarak A, Graham LE.  2017.  Comparative DNA sequence analyses of Pyramimonas parkeae (Prasinophyceae) chloroplast genomes. Journal of Phycology. 53:415–424.PDF icon Satjarak_Graham_2017_Comparative DNA sequence analyses of Pyramimonas parkeae (Prasinophyceae).pdf (762.37 KB)
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)
Ferrieux M, Dufour L, Doré H, Ratin M, Guéneuguès A, Chasselin L, Marie D, Rigaut-jalabert F, Le Gall F, Sciandra T et al..  2022.  Comparative Thermophysiology of Marine Synechococcus CRD1 Strains Isolated From Different Thermal Niches in Iron-Depleted Areas. Frontiers in Microbiology. 13PDF icon Ferrieux et al_2022_Comparative Thermophysiology of Marine Synechococcus CRD1 Strains Isolated From.pdf (2.17 MB)
Farhat S, Florent I, Noel B, Kayal E, Da Silva C, Bigeard E, Alberti A, Labadie K, Corre E, Aury J-M et al..  2018.  Comparative time-scale gene expression analysis highlights the infection processes of two amoebophrya strains. Frontiers in Microbiology. 9:1–19.PDF icon Farhat et al_2018_Comparative time-scale gene expression analysis highlights the infection.pdf (2.61 MB)
Kenworthy JM, Davoult D, Lejeusne C.  2018.  Compared stress tolerance to short-term exposure in native and invasive tunicates from the NE Atlantic: when the invader performs better. Marine Biology. 165:164.PDF icon Kenworthy et al_2018_Compared stress tolerance to short-term exposure in native and invasive.pdf (949.42 KB)
Arnaldo MDianne Gra, Gamage NDehel, Jaffrenou A, Rabesaotra V, Mossion A, Wielgosz-Collin G, Méléder V.  2023.  Comparison of different small-scale cultivation methods towards the valorization of a marine benthic diatom strain for lipid production. Algal Research. :103327.PDF icon Arnaldo et al. - 2023 - Comparison of different small-scale cultivation me.pdf (1.37 MB)
Partensky F, Mella-Flores D, Six C, Garczarek L, Czjzek M, Marie D, Kotabová E, Felcmanová K, Prášil O.  2018.  Comparison of photosynthetic performances of marine picocyanobacteria with different configurations of the oxygen-evolving complex. Photosynthesis Research. 138:57–71.PDF icon Partensky et al_2018_Comparison of photosynthetic performances of marine picocyanobacteria with.pdf (2.83 MB)
Edullantes B, Low-Decarie E, Steinke M, Cameron T.  2023.  Comparison of thermal traits between non-toxic and potentially toxic marine phytoplankton: Implications to their responses to ocean warming. Journal of Experimental Marine Biology and Ecology. 562:151883.PDF icon Edullantes et al. - 2023 - Comparison of thermal traits between non-toxic and.pdf (6.9 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)
Graeff JE, Leblond JD.  2023.  Composition of galactolipids, betaine lipids and triglyceride-associated fatty acids of the symbiotic dinoflagellate Zooxanthella (Brandtodinium) nutricula: A glimpse into polyunsaturated fatty acids available to its polycystine radiolarian host. Phycological Research. n/aPDF icon Graeff_Leblond_Composition of galactolipids, betaine lipids and triglyceride-associated fatty.pdf (437.41 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)
van Tol HM.  2019.  Computational and experimental models of diatom-bacteria interaction. PDF icon van Tol et al_2017_Ubiquitous marine bacterium inhibits diatom cell division.pdf (848.2 KB)
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)

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