RCC references

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Gile GH, Stern RF, James ER, Keeling PJ.  2010.  Dna Barcoding of Chlorarachniophytes Using Nucleomorph Its Sequences1. Journal of Phycology. 46:743–750.PDF icon Gile et al_2010_Dna Barcoding of Chlorarachniophytes Using Nucleomorph Its Sequences1.pdf (213.35 KB)
Gerecht A.C., Šupraha L., Edvardsen B., Langer G., Henderiks J..  2015.  Phosphorus availability modifies carbon production in Coccolithus pelagicus (Haptophyta). Journal of Experimental Marine Biology and Ecology. 472:24–31.PDF icon Gerecht et al_2015_Phosphorus availability modifies carbon production in Coccolithus pelagicus.pdf (850.49 KB)
Geffroy S, Lechat M-M, Le Gac M, Rovillon G-A, Marie D, Bigeard E, Malo F, Amzil Z, Guillou L, Caruana AMN.  2021.  From the sxtA4 Gene to Saxitoxin Production: What Controls the Variability Among Alexandrium minutum and Alexandrium pacificum Strains? Frontiers in Microbiology. 12:613199.PDF icon Geffroy et al. - 2021 - From the sxtA4 Gene to Saxitoxin Production What .pdf (1.11 MB)
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.PDF icon Gebuhr et al_2021_Strain-specific morphological response of the dominant calcifying phytoplankton.pdf (2.2 MB)
Gebser B, Thume K, Steinke M, Pohnert G.  2020.  Phytoplankton-derived zwitterionic gonyol and dimethylsulfonioacetate interfere with microbial dimethylsulfoniopropionate sulfur cycling. MicrobiologyOpen. :e1014.PDF icon Gebser et al_2020_Phytoplankton-derived zwitterionic gonyol and dimethylsulfonioacetate interfere.pdf (1.24 MB)
Garrido JL, Brunet C, Rodríguez F.  2016.  Pigment variations in Emiliania huxleyi (CCMP370) as a response to changes in light intensity or quality. Environmental Microbiology. 18:4412–4425.PDF icon Garrido et al_2016_Pigment variations in Emiliania huxleyi (CCMP370) as a response to changes in.pdf (1.75 MB)
Garcia NS, Sexton J, Riggins T, Brown J, Lomas MW, Martiny AC.  2018.  High variability in cellular stoichiometry of carbon, nitrogen, and phosphorus within classes of marine eukaryotic phytoplankton under sufficient nutrient conditions. Frontiers in Microbiology. 9:1–10.PDF icon Garcia et al_2018_High variability in cellular stoichiometry of carbon, nitrogen, and phosphorus.pdf (2.18 MB)
Gaignard C., Laroche C., Pierre G., Dubessay P., Delattre C., Gardarin C., Gourvil P., Probert I., Dubuffet A., Michaud P..  2019.  Screening of marine microalgae: Investigation of new exopolysaccharide producers. Algal Research. 44:101711.PDF icon Gaignard et al_2019_Screening of marine microalgae.pdf (2.59 MB)
Gafar N.A, Eyre B.D, Schulz K.G.  2019.  Particulate inorganic to organic carbon production as a predictor for coccolithophorid sensitivity to ongoing ocean acidification. Limnology and Oceanography Letters. 4:62–70.PDF icon Gafar et al_2019_Particulate inorganic to organic carbon production as a predictor for.pdf (552.24 KB)
Gadler P, Reiter TC, Hoelsch K, Weuster-Botz D, Fabe K.  2009.  Enantiocomplementary inverting sec-alkylsulfatase activity in cyano- and thio-bacteria Synechococcus and Paracoccus spp.: selectivity enhancement by medium engineering. Tetrahedron: Asymmetry. 20:115–118.
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Fuller NJ, Marie D, Partensky F, Vaulot D, Post AF, Scanlan DJ.  2003.  Clade-specific 16S ribosomal DNA oligonucleotides reveal the predominance of a single marine Synechococcus clade throughout a stratified water column in the Red Sea. Applied and Environmental Microbiology. 69:2430–2443.PDF icon Fuller et al_2003_Clade-specific 16S ribosomal DNA oligonucleotides reveal the predominance of a.pdf (1.03 MB)
Fuller NJ, Campbell C, Allen DJ, Pitt FD, Le Gall F, Vaulot D, Scanlan DJ.  2006.  Analysis of photosynthetic picoeukaryote diversity at open ocean sites in the Arabian Sea using a PCR biased towards marine algal plastids. Aquatic Microbial Ecology. 43:79–93.PDF icon Fuller et al_2006_Analysis of photosynthetic picoeukaryote diversity at open ocean sites in the.pdf (427.42 KB)
Franklin DJ, Steinke M, Young J, Probert I, Malin G.  2010.  Dimethylsulphoniopropionate (DMSP), DMSP-lyase activity (DLA) and dimethylsulphide (DMS) in 10 species of coccolithophore. Marine Ecology-Progress Series. 410:13–23.PDF icon Franklin et al_2010_Dimethylsulphoniopropionate (DMSP), DMSP-lyase activity (DLA) and.pdf (682.88 KB)
Frada MJ, Bidle KD, Probert I, de Vargas C.  2012.  In situ survey of life cycle phases of the coccolithophore Emiliania huxleyi (Haptophyta). Environmental Microbiology. 14:1558–1569.PDF icon Frada et al_2012_In situ survey of life cycle phases of the coccolithophore Emiliania huxleyi.pdf (888.67 KB)
Frada M, Young J, Cachão M, Lino S, Martins A, Narciso Á, Probert I, de Vargas C.  2010.  A guide to extant coccolithophores (Calcihaptophycidae, Haptophyta) using light microscopy.. Journal of Nannoplankton Research. 31:58–112.PDF icon Frada et al_2010_A guide to extant coccolithophores (Calcihaptophycidae, Haptophyta) using light.pdf (2.52 MB)
Frada M, Probert I, Allen MJ, Wilson WH, de Vargas C.  2008.  The “Cheshire Cat” escape strategy of the coccolithophore Emiliania huxleyi in response to viral infection. Proceedings of the National Academy of Sciences of the United States of America. 105:15944–15949.PDF icon Frada et al_2008_The “Cheshire Cat” escape strategy of the coccolithophore Emiliania huxleyi in.pdf (886.03 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)
Fountain SJ, Cao LS, Young MT, North RA.  2008.  Permeation properties of a P2X receptor in the green algae Ostreococcus tauri. Journal of Biological Chemistry. 283:15122–15126.PDF icon Fountain et al_2008_Permeation properties of a P2X receptor in the green algae Ostreococcus tauri.pdf (251.25 KB)
Foulon E, Not F, Jalabert F, Cariou T, Massana R, Simon N.  2008.  Ecological niche partitioning in the picoplanktonic green alga Micromonas pusilla: evidence from environmental surveys using phylogenetic probes. Environmental Microbiology. 10:2433–2443.PDF icon Foulon et al_2008_Ecological niche partitioning in the picoplanktonic green alga Micromonas.pdf (2.02 MB)
Foresi N, De Marco MAgustina, Del Castello F, Ramirez L, Nejamkin A, Caló G, Grimsley N, Correa-Aragunde N, Martinez-Noel G.  2024.  "The Tiny Giant of the Sea, Ostreococcus’s Unique Adaptations". Plant Physiology and Biochemistry. :108661.PDF icon Foresi et al. - 2024 - The Tiny Giant of the Sea, Ostreococcus’s Unique .pdf (4.63 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)
Florenza J, Bertilsson S.  2023.  Choice of methodology and surrogate prey are decisive for the quality of protistan bacterivory rate estimates. Aquatic Microbial Ecology. 89:43–53.PDF icon Florenza et Bertilsson - 2023 - Choice of methodology and surrogate prey are decis.pdf (500.56 KB)
Fitzsimons MF, Probert I, Gaillard F, Rees AP.  2020.  Dissolved organic phosphorus uptake by marine phytoplankton is enhanced by the presence of dissolved organic nitrogen. Journal of Experimental Marine Biology and Ecology. 530-531:151434.PDF icon Fitzsimons et al_2020_Dissolved organic phosphorus uptake by marine phytoplankton is enhanced by the.pdf (790.37 KB)
Fischer R, HA G, Ptacnik R.  2017.  Identity of the limiting nutrient (N vs. P) affects the competitive success of mixotrophs. Marine Ecology Progress Series. 563:51–63.
Fischer R, Giebel H-A, Hillebrand H, Ptacnik R.  2017.  Importance of mixotrophic bacterivory can be predicted by light and loss rates. Oikos. 126:713–722.

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