RCC references

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Beaufort L, Probert I, de Garidel-Thoron T, Bendif EM, Ruiz-Pino D, Metzl N, Goyet C, Buchet N, Coupel P, Grelaud M et al..  2011.  Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature. 476:80–83.PDF icon Beaufort et al_2011_Sensitivity of coccolithophores to carbonate chemistry and ocean acidification.pdf (621.83 KB)
Beaufort L, Probert I, de Garidel-Thoron T, Bendif EM, Ruiz-Pino D, Metzl N, Goyet C, Buchet N, Coupel P, Grelaud M et al..  2011.  Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature. 476:80–83.PDF icon Beaufort et al_2011_Sensitivity of coccolithophores to carbonate chemistry and ocean acidification.pdf (621.83 KB)
Beaufort L, Probert I, de Garidel-Thoron T, Bendif EM, Ruiz-Pino D, Metzl N, Goyet C, Buchet N, Coupel P, Grelaud M et al..  2011.  Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature. 476:80–83.PDF icon Beaufort et al_2011_Sensitivity of coccolithophores to carbonate chemistry and ocean acidification.pdf (621.83 KB)
Parsy A, Sambusiti C, Baldoni-Andrey P, Périé F, Guyoneaud R.  2023.  Selection of photosynthetic microorganisms grown in artificial saline industrial effluents with liquid digestate: From screening to consortium cultures. Algal Research. :103061.PDF icon Parsy et al_2023_Selection of photosynthetic microorganisms grown in artificial saline.pdf (987.35 KB)
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.PDF icon de la Broise et al. - 2022 - Scale-Up to Pilot of a Non-Axenic Culture of Thrau.pdf (4.81 MB)
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.PDF icon de la Broise et al. - 2022 - Scale-Up to Pilot of a Non-Axenic Culture of Thrau.pdf (4.81 MB)
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Langer G, Taylor AR, Walker CE, Meyer EM, Ben Joseph O, Gal A, Harper GM, Probert I, Brownlee C, Wheeler GL.  2021.  Role of silicon in the development of complex crystal shapes in coccolithophores. New Phytologist. 231:1845–1857.PDF icon Langer et al. - 2021 - Role of silicon in the development of complex crys.pdf (2.03 MB)
Langer G, Taylor AR, Walker CE, Meyer EM, Ben Joseph O, Gal A, Harper GM, Probert I, Brownlee C, Wheeler GL.  2021.  Role of silicon in the development of complex crystal shapes in coccolithophores. New Phytologist. 231:1845–1857.PDF icon Langer et al. - 2021 - Role of silicon in the development of complex crys.pdf (2.03 MB)
Durak GM, Taylor AR, Probert I, de Vargas C, Audic S, Schroeder DC, Brownlee C, Wheeler GL.  2016.  A role for diatom-like silicon transporters in calcifying coccolithophores. Nature Communications. 7:10543.PDF icon Durak et al_2016_A role for diatom-like silicon transporters in calcifying coccolithophores.pdf (1.95 MB)
Royer C, Gypens N, Cardol P, Borges AV, Roberty S.  2021.  Response of dimethylsulfoniopropionate (DMSP) and dimethylsulfoxide (DMSO) cell quotas to oxidative stress in three phytoplankton species. Journal of Plankton Research. 43:673–690.PDF icon Royer et al. - 2021 - Response of dimethylsulfoniopropionate (DMSP) and .pdf (1.4 MB)
Walker CE, Taylor AR, Langer G, Durak GM, Heath S, Probert I, Tyrrell T, Brownlee C, Wheeler GL.  2018.  The requirement for calcification differs between ecologically important coccolithophore species. New Phytologist. in pressPDF icon Walker et al_2018_The requirement for calcification differs between ecologically important.pdf (1.97 MB)
Bendif EMahdi, Nevado B, Wong ELY, Hagino K, Probert I, Young JR, Rickaby REM, Filatov DA.  2019.  Repeated species radiations in the recent evolution of the key marine phytoplankton lineage Gephyrocapsa. Nature Communications. 10:4234.PDF icon Bendif et al. - 2019 - Repeated species radiations in the recent evolutio.pdf (830.15 KB)
Johnsen SAlexander, Bollmann J, Gebuehr C, Herrle JO.  2019.  Relationship between coccolith length and thickness in the coccolithophore species Emiliania huxleyi and Gephyrocapsa oceanica. PLOS ONE. 14:e0220725.
Roesler C, Uitz J, Claustre H, Boss E, Xing X, Organelli E, Briggs N, Bricaud A, Schmechtig C, Poteau A et al..  2017.  Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors. Limnology and Oceanography: Methods. 15:572–585.PDF icon Roesler et al_2017_Recommendations for obtaining unbiased chlorophyll estimates from in situ.pdf (686.25 KB)
Roesler C, Uitz J, Claustre H, Boss E, Xing X, Organelli E, Briggs N, Bricaud A, Schmechtig C, Poteau A et al..  2017.  Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors. Limnology and Oceanography: Methods. 15:572–585.PDF icon Roesler et al_2017_Recommendations for obtaining unbiased chlorophyll estimates from in situ.pdf (686.25 KB)
Roesler C, Uitz J, Claustre H, Boss E, Xing X, Organelli E, Briggs N, Bricaud A, Schmechtig C, Poteau A et al..  2017.  Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors. Limnology and Oceanography: Methods. 15:572–585.PDF icon Roesler et al_2017_Recommendations for obtaining unbiased chlorophyll estimates from in situ.pdf (686.25 KB)
Roesler C, Uitz J, Claustre H, Boss E, Xing X, Organelli E, Briggs N, Bricaud A, Schmechtig C, Poteau A et al..  2017.  Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors. Limnology and Oceanography: Methods. 15:572–585.PDF icon Roesler et al_2017_Recommendations for obtaining unbiased chlorophyll estimates from in situ.pdf (686.25 KB)
Bendif EMahdi, Probert I, Díaz-Rosas F, Thomas D, van den Engh G, Young JR, von Dassow P.  2016.  Recent reticulate evolution in the ecologically dominant lineage of coccolithophores. Frontiers in Microbiology. 7PDF icon Bendif et al_2016_Recent reticulate evolution in the ecologically dominant lineage of.pdf (4.89 MB)
Kawachi M, Nakayama T, Kayama M, Nomura M, Miyashita H, Bojo O, Rhodes L, Sym S, Pienaar RN, Probert I et al..  2021.  Rappemonads are haptophyte phytoplankton. Current Biology. PDF icon Kawachi et al. - 2021 - Rappemonads are haptophyte phytoplankton.pdf (6.09 MB)
Farhat S, Le P, Kayal E, Noel B, Bigeard E, Corre E, Maumus F, Florent I, Alberti A, Aury J-M et al..  2021.  Rapid protein evolution, organellar reductions, and invasive intronic elements in the marine aerobic parasite dinoflagellate Amoebophrya spp.. BMC Biology. :1–21.PDF icon Farhat et al_2021_Rapid protein evolution, organellar reductions, and invasive intronic elements.pdf (2.01 MB)
Farhat S, Le P, Kayal E, Noel B, Bigeard E, Corre E, Maumus F, Florent I, Alberti A, Aury J-M et al..  2021.  Rapid protein evolution, organellar reductions, and invasive intronic elements in the marine aerobic parasite dinoflagellate Amoebophrya spp.. BMC Biology. :1–21.PDF icon Farhat et al_2021_Rapid protein evolution, organellar reductions, and invasive intronic elements.pdf (2.01 MB)
Bendif EMahdi, Probert I, Archontikis OA, Young JR, Beaufort L, Rickaby RE, Filatov D.  2023.  Rapid diversification underlying the global dominance of a cosmopolitan phytoplankton. The ISME Journal. :1–11.PDF icon Bendif et al_2023_Rapid diversification underlying the global dominance of a cosmopolitan.pdf (2.88 MB)
Bendif EMahdi, Probert I, Archontikis OA, Young JR, Beaufort L, Rickaby RE, Filatov D.  2023.  Rapid diversification underlying the global dominance of a cosmopolitan phytoplankton. The ISME Journal. :1–11.PDF icon Bendif et al_2023_Rapid diversification underlying the global dominance of a cosmopolitan.pdf (2.88 MB)
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Domínguez-Martín MAgustina, Gómez-Baena G, Díez J, López-Grueso MJosé, Beynon RJ, García-Fernández JManuel.  2017.  Quantitative proteomics shows extensive remodeling induced by nitrogen limitation in prochlorococcus marinus SS120. mSystems. 2:e00008–17.PDF icon Dominguez-Martin et al_2017_Quantitative proteomics shows extensive remodeling induced by nitrogen.pdf (3.74 MB)
Limardo AJ, Sudek S, Choi CJae, Poirier C, Rii YM, Blum M, Roth R, Goodenough U, Church MJ, Worden AZ.  2017.  Quantitative biogeography of picoprasinophytes establishes ecotype distributions and significant contributions to marine phytoplankton. Environmental Microbiology. PDF icon Limardo et al_2017_Quantitative biogeography of picoprasinophytes establishes ecotype.pdf (2.02 MB)

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