RCC references

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A
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.
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.
Gu H, Li X, Chomérat N, Luo Z, Sarno D, Gourvil P, Balzano S, Siano R.  2017.  Adenoides sinensis , a new sand-dwelling dinoflagellate species from China and reexamination of A. eludens from an Atlantic strain. Phycologia. 57:1–13.PDF icon Gu et al_2017_Adenoides sinensis , a new sand-dwelling dinoflagellate species from China and.pdf (1.97 MB)
Helliwell KE, Chrachri A, Koester JA, Wharam S, Verret F, Taylor AR, Wheeler GL, Brownlee C.  2019.  Alternative mechanisms for fast na + /ca 2+ signaling in eukaryotes via a novel class of single-domain voltage-gated channels. Current Biology. 29:1503–1511.e6.PDF icon Helliwell et al_2019_Alternative mechanisms for fast na + -ca 2+ signaling in eukaryotes via a novel.pdf (2.62 MB)
Stewart A, Rioux D, Boyer F, Gielly L, Pompanon F, Saillard A, Thuiller W, Valay J-G, Maréchal É, Coissac E.  2021.  Altitudinal Zonation of Green Algae Biodiversity in the French Alps. Frontiers in Plant Science. 12:1066.PDF icon Stewart et al. - 2021 - Altitudinal Zonation of Green Algae Biodiversity i.pdf (5.59 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)
Meng A, Corre E, Probert I, Gutierrez-Rodriguez A, Siano R, Annamale A, Alberti A, Da Silva C, Wincker P, Le Crom S et al..  2018.  Analysis of the genomic basis of functional diversity in dinoflagellates using a transcriptome-based sequence similarity network. Molecular Ecology. :0–2.PDF icon Meng et al_2018_Analysis of the genomic basis of functional diversity in dinoflagellates using.pdf (1.42 MB)
Trefault N, de la Iglesia R, Moreno-Pino M, Santos ALopes dos, Ribeiro CGérikas, Parada-Pozo G, Cristi A, Marie D, Vaulot D.  2021.  Annual phytoplankton dynamics in coastal waters from fildes bay, western antarctic peninsula. Scientific Reports. 11:1368.PDF icon Trefault et al. - Annual phytoplankton dynamics in coastal waters from Fildes Bay, Western Antarctic Peninsula.pdf (1.35 MB)
Nissimov JI, Campbell CN, Probert I, Wilson WH.  2020.  Aquatic virus culture collection: an absent (but necessary) safety net for environmental microbiologists. Applied Phycology. 00:1–15.PDF icon Nissimov et al_2020_Aquatic virus culture collection.pdf (1.66 MB)
Ni G, Zimbalatti G, Murphy CD, Barnett AB, Arsenault CM, Li G, Cockshutt AM, Campbell DA.  2017.  Arctic Micromonas uses protein pools and non-photochemical quenching to cope with temperature restrictions on Photosystem II protein turnover. Photosynthesis Research. 131:203–220.PDF icon Ni et al_2017_Arctic Micromonas uses protein pools and non-photochemical quenching to cope.pdf (1.52 MB)
Ni G, Zimbalatti G, Murphy CD, Barnett AB, Arsenault CM, Li G, Cockshutt AM, Campbell DA.  2017.  Arctic Micromonas uses protein pools and non-photochemical quenching to cope with temperature restrictions on Photosystem II protein turnover. Photosynthesis Research. 131:203–220.PDF icon Ni et al_2017_Arctic Micromonas uses protein pools and non-photochemical quenching to cope.pdf (1.52 MB)
B
Roux P, Siano R, Collin K, Bilien G, Sinquin C, Marchand L, Zykwinska A, Delbarre-Ladrat C, Schapira M.  2021.  Bacteria enhance the production of extracellular polymeric substances by the green dinoflagellate Lepidodinium chlorophorum. Scientific Reports. 11:1–15.PDF icon Roux et al_2021_Bacteria enhance the production of extracellular polymeric substances by the.pdf (2.88 MB)
Crenn K, Duffieux D, Jeanthon C.  2018.  Bacterial epibiotic communities of ubiquitous and abundant marine diatoms are distinct in short- and long-term associations. Frontiers in Microbiology. 9:1–12.PDF icon Crenn et al_2018_Bacterial epibiotic communities of ubiquitous and abundant marine diatoms are.pdf (670.57 KB)
Pollara SB, Becker JW, Nunn BL, Boiteau R, Repeta D, Mudge MC, Downing G, Chase D, Harvey EL, Whalen KE.  2021.  Bacterial Quorum-Sensing Signal Arrests Phytoplankton Cell Division and Impacts Virus-Induced Mortality. mSphere. 6:e00009–21,/msphere/6/3/mSph.00009–21.atom.PDF icon Pollara et al. - 2021 - Bacterial Quorum-Sensing Signal Arrests Phytoplank.pdf (1.49 MB)
Strauss J, Choi CJae, Grone J, Wittmers F, Jimenez V, Makareviciute-Fichtner K, Bachy C, Jaeger GSpiro, Poirier C, Eckmann C et al..  2023.  The Bay of Bengal exposes abundant photosynthetic picoplankton and newfound diversity along salinity-driven gradients. Environmental Microbiology. PDF icon Strauss et al_2023_The Bay of Bengal exposes abundant photosynthetic picoplankton and newfound.pdf (7.31 MB)
Annunziata R, Ritter A, Fortunato AEmidio, Cheminant-Navarro S, Agier N, Huysman MJJ, Winge P, Bones A, Bouget F-Y, Lagomarsino MCosentino et al..  2018.  A bHLH-PAS protein regulates light-dependent rhythmic processes in the marine diatom Phaeodactylum tricornutum. bioRxiv. :271445.PDF icon Annunziata et al_2018_A bHLH-PAS protein regulates light-dependent rhythmic processes in the marine.pdf (2.83 MB)
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)
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)
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)
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)
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)
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)

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