RCC references

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Guillou L.  2011.  Characterization of the Parmales: much more than the resolution of a taxonomic enigma. Journal of Phycology. 47:2–4.PDF icon Guillou_2011_Characterization of the Parmales.pdf (245.73 KB)
Simon N, Barlow RG, Marie D, Partensky F, Vaulot D.  1994.  Characterization of oceanic photosynthetic picoeukaryotes by flow cytometry analysis. Journal of Phycology. 30:922–935.PDF icon Simon et al_1994_Characterization of oceanic photosynthetic picoeukaryotes by flow cytometry.pdf (2.42 MB)
Simon N, Barlow RG, Marie D, Partensky F, Vaulot D.  1994.  Characterization of oceanic photosynthetic picoeukaryotes by flow cytometry analysis. Journal of Phycology. 30:922–935.PDF icon Simon et al_1994_Characterization of oceanic photosynthetic picoeukaryotes by flow cytometry.pdf (2.42 MB)
Rousseau V, Lantoine F, Rodriguez F, Le Gall F, Chrétiennot-Dinet M.-J., Lancelot C.  2013.  Characterization of ¡i¿Phaeocystis globosa¡/i¿ (haptophyceae), the blooming species in the southern north sea. Journal of Sea Research. 76:105–113.PDF icon Rousseau et al_2013_Characterization of ¡i¿Phaeocystis globosa¡-i¿ (haptophyceae), the blooming.pdf (1.17 MB)
Foresi N, Correa-Aragunde N, Parisi G, Calo G, Salerno G, Lamattina L.  2010.  Characterization of a nitric oxide synthase from the plant kingdom: NO generation from the green alga Ostreococcus tauri is light irradiance and growth phase dependent. The Plant Cell. 22:3816–3830.PDF icon Foresi et al_2010_Characterization of a nitric oxide synthase from the plant kingdom.pdf (1.99 MB)
Mucko M, Padisák J, Udovič MGligora, Pálmai T, Novak T, Medić N, Gašparović B, Štefanić PPeharec, Orlić S, Ljubešić Z.  2020.  Characterization of a lipid-producing thermotolerant marine photosynthetic pico-alga in the genus Picochlorum (Trebouxiophyceae). European Journal of Phycology. 00:1–16.PDF icon Mucko et al_2020_Characterization of a lipid-producing thermotolerant marine photosynthetic.pdf (3.24 MB)
Palacio AS, Cabello AMaría, García FC, Labban A, Morán XAnxelu G, Garczarek L, Alonso-Sáez L, López-Urrutia Á.  2020.  Changes in population age-structure obscure the temperature-size rule in marine cyanobacteria. Frontiers in Microbiology. 11:2059.PDF icon Palacio et al_2020_Changes in population age-structure obscure the temperature-size rule in marine.pdf (1.72 MB)
Gnouma A, Sadovskaya I, Souissi A, Sebai K, Medhioub A, Grard T, Souissi S.  2017.  Changes in fatty acids profile, monosaccharide profile and protein content during batch growth of Isochrysis galbana (T.iso). Aquaculture Research. 48:4982–4990.
Alacid E, Richards TA.  2021.  A cell–cell atlas approach for understanding symbiotic interactions between microbes. Current Opinion in Microbiology. 64:47–59.
Jacquet S, Partensky F, Marie D, Casotti R, Vaulot D.  2001.  Cell cycle regulation by light in Prochlorococcus strains. Applied and Environmental Microbiology. 67:782–790.PDF icon Jacquet et al_2001_Cell cycle regulation by light in Prochlorococcus strains.pdf (176.7 KB)
Paerl RW, Bertrand EM, Rowland E, Schatt P, Mehiri M, Niehaus TD, Hanson AD, Riemann L, Yves-Bouget F.  2018.  Carboxythiazole is a key microbial nutrient currency and critical component of thiamin biosynthesis. Scientific Reports. 8:5940.PDF icon Paerl et al_2018_Carboxythiazole is a key microbial nutrient currency and critical component of.pdf (1.9 MB)
McQuaid JB, Kustka AB, Obornik M, Horak A, McCrow JP, Karas BJ, Zheng H, Kindeberg T, Andersson AJ, Barbeau KA et al..  2018.  Carbonate-sensitive phytotransferrin controls high-affinity iron uptake in diatoms. Nature. 555:534–537.PDF icon McQuaid et al_2018_Carbonate-sensitive phytotransferrin controls high-affinity iron uptake in.pdf (2.97 MB)
Phelps SR, Hennon GMM, Dyhrman ST, Limón MDHernán, Williamson OM, Polissar PJ.  2021.  Carbon Isotope Fractionation in Noelaerhabdaceae Algae in Culture and a Critical Evaluation of the Alkenone Paleobarometer. Geochemistry, Geophysics, Geosystems. 22:e2021GC009657.PDF icon Phelps et al. - 2021 - Carbon Isotope Fractionation in Noelaerhabdaceae A.pdf (807.47 KB)
Benner I, Irwin AJ, Finkel ZV.  2020.  Capacity of the common Arctic picoeukaryote Micromonas to adapt to a warming ocean. Limnology and Oceanography Letters. 5:221–227.PDF icon Benner et al_2020_Capacity of the common Arctic picoeukaryote Micromonas to adapt to a warming.pdf (456.03 KB)
Fox E, Meyer E, Panasiak N, Taylor AR.  2018.  Calcein staining as a tool to investigate coccolithophore calcification. Frontiers in Marine Science. 5PDF icon Fox et al_2018_Calcein staining as a tool to investigate coccolithophore calcification.pdf (2.53 MB)
Liao S, Yao Y, Wang L, Wang KJ, Amaral-Zettler L, Longo WM, Huang Y.  2020.  C41 methyl and C42 ethyl alkenones are biomarkers for Group II Isochrysidales. Organic Geochemistry. 147:104081.
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Probert I, Siano R, Poirier C, Decelle J, Biard T, Tuji A, Suzuki N, Not F.  2014.  Brandtodinium gen. nov. and B. nutricula comb. Nov. (Dinophyceae), a dinoflagellate commonly found in symbiosis with polycystine radiolarians. Journal of Phycology. 50:388–399.PDF icon Probert et al_2014_Brandtodinium gen.pdf (625.03 KB)
Kuwata A, Yamada K, Ichinomiya M, Yoshikawa S, Tragin M, Vaulot D, Santos ALopes dos.  2018.  Bolidophyceae, a sister picoplanktonic group of diatoms – a review. Frontiers in Marine Science. 5:370.PDF icon Kuwata et al_2018_Bolidophyceae, a sister picoplanktonic group of diatoms – a review.pdf (8.84 MB)
Guillou L, Chrétiennot-Dinet M.-J., Medlin LK, Claustre H, S de Goër L-, Vaulot D.  1999.  Bolidomonas: a new genus with two species belonging to a new algal class, the Bolidophyceae (Heterokonta). Journal of Phycology. 35:368–381.PDF icon Guillou et al_1999_Bolidomonas.pdf (518.23 KB)
Abida H, Ruchaud S, Rios L, Humeau A, Probert I, de Vargas C, Bach S, Bowler C.  2013.  Bioprospecting marine plankton. Marine Drugs. 11:4594–4611.PDF icon Abida et al_2013_Bioprospecting marine plankton.pdf (892.28 KB)
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.PDF icon Cruz et al_2023_Bioprospecting for industrially relevant exopolysaccharide-producing.pdf (2.12 MB)
Park SAh, Jeong HJin, Ok J, Kang H, You J, Eom S, Yoo Y, Lee MJoon.  2021.  Bioluminescence capability and intensity in the dinoflagellate Alexandrium species. ALGAE. 36PDF icon Park et al_2021_Bioluminescence capability and intensity in the dinoflagellate Alexandrium.pdf (6.4 MB)
Dennu L, Devic M, Rigonato J, Falciatore A, Lozano J-C, Vergé V, Mariac C, Jaillon O, Team TDark Edge, Sabot F et al..  2023.  Biological and genomic resources for the cosmopolitan phytoplankton Bathycoccus: Insights into genetic diversity and major structural variations. PDF icon Dennu et al_2023_Biological and genomic resources for the cosmopolitan phytoplankton Bathycoccus.pdf (7.52 MB)
Waterbury JB, Watson SW, Valois FW, Franks DG.  1986.  Biological and ecological characterization of the marine unicellular cyanobacterium Synechococcus. Photosynthetic picoplankton. 214:71–120.
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)

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