RCC references

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1
Cheng S, Melkonian M, Smith SA, Brockington S, Archibald JM, Delaux P-M, Li F-W, Melkonian B, Mavrodiev EV, Sun W et al..  2018.  10KP: A phylodiverse genome sequencing plan. GigaScience. 7:1–9.PDF icon Cheng et al_2018_10KP.pdf (6.53 MB)
Cheng S, Melkonian M, Smith SA, Brockington S, Archibald JM, Delaux P-M, Li F-W, Melkonian B, Mavrodiev EV, Sun W et al..  2018.  10KP: A phylodiverse genome sequencing plan. GigaScience. 7:1–9.PDF icon Cheng et al_2018_10KP.pdf (6.53 MB)
Cheng S, Melkonian M, Smith SA, Brockington S, Archibald JM, Delaux P-M, Li F-W, Melkonian B, Mavrodiev EV, Sun W et al..  2018.  10KP: A phylodiverse genome sequencing plan. GigaScience. 7:1–9.PDF icon Cheng et al_2018_10KP.pdf (6.53 MB)
A
Simmons MP, Sudek S, Monier A, Limardo AJ, Jimenez V, Perle CR, Elrod VA, J. Pennington T, Worden AZ.  2016.  Abundance and biogeography of picoprasinophyte ecotypes and other phytoplankton in the eastern north pacific ocean. Applied and Environmental Microbiology. 82:1693–1705.PDF icon Simmons et al_2016_Abundance and biogeography of picoprasinophyte ecotypes and other phytoplankton.pdf (2.44 MB)
Mahmoud RM, Sanfilippo JE, Nguyen AA, Strnat JA, Partensky F, Garczarek L, Kassem NAbo El, Kehoe DM, Schluchter WM.  2017.  Adaptation to blue light in marine synechococcus requires MpeU, an enzyme with similarity to phycoerythrobilin lyase isomerases. Frontiers in Microbiology. 8:243.PDF icon Mahmoud et al_2017_Adaptation to blue light in marine synechococcus requires MpeU, an enzyme with.pdf (1.96 MB)
Decelle J, Stryhanyuk H, Gallet B, Veronesi G, Schmidt M, Balzano S, Marro S, Uwizeye C, Jouneau P-H, Lupette J et al..  2019.  Algal remodeling in a ubiquitous planktonic photosymbiosis. Current Biology. 29:968–978.e4.PDF icon Decelle et al_2019_Algal remodeling in a ubiquitous planktonic photosymbiosis.pdf (5.3 MB)
Decelle J, Stryhanyuk H, Gallet B, Veronesi G, Schmidt M, Balzano S, Marro S, Uwizeye C, Jouneau P-H, Lupette J et al..  2019.  Algal remodeling in a ubiquitous planktonic photosymbiosis. Current Biology. 29:968–978.e4.PDF icon Decelle et al_2019_Algal remodeling in a ubiquitous planktonic photosymbiosis.pdf (5.3 MB)
Decelle J, Stryhanyuk H, Gallet B, Veronesi G, Schmidt M, Balzano S, Marro S, Uwizeye C, Jouneau P-H, Lupette J et al..  2019.  Algal remodeling in a ubiquitous planktonic photosymbiosis. Current Biology. 29:968–978.e4.PDF icon Decelle et al_2019_Algal remodeling in a ubiquitous planktonic photosymbiosis.pdf (5.3 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)
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)
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)
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)
Bouquet A, Felix C, Masseret E, Reymond C, Abadie E, Laabir M, Rolland JLuc.  2023.  Artificial Substrates Coupled with qPCR (AS-qPCR) Assay for the Detection of the Toxic Benthopelagic Dinoflagellate Vulcanodinium rugosum. Toxins. 15:217.PDF icon Bouquet et al_2023_Artificial Substrates Coupled with qPCR (AS-qPCR) Assay for the Detection of.pdf (1.57 MB)
Pan YJu, Déposé E, Souissi A, Hénard S, Schaadt M, Mastro E, Souissi S.  2020.  Assessments of first feeding protocols on the larviculture of California grunion Leuresthes tenuis (Osteichthyes: Atherinopsidae). Aquaculture Research. 51:3054–3058.
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)
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)
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)
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)
Letscher RT, J. Moore K, Martiny AC, Lomas MW.  2023.  Biodiversity and stoichiometric plasticity increase pico-phytoplankton contributions to marine net primary productivity and the biological pump. Global Biogeochemical Cycles. n/a:e2023GB007756.PDF icon Letscher et al_Biodiversity and stoichiometric plasticity increase pico-phytoplankton.pdf (1.21 MB)
Letscher RT, J. Moore K, Martiny AC, Lomas MW.  2023.  Biodiversity and stoichiometric plasticity increase pico-phytoplankton contributions to marine net primary productivity and the biological pump. Global Biogeochemical Cycles. n/a:e2023GB007756.PDF icon Letscher et al_Biodiversity and stoichiometric plasticity increase pico-phytoplankton.pdf (1.21 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)
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)
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)

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