RCC references

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Kuhlisch C, Deicke M, Ueberschaar N, Wichard T, Pohnert G.  2017.  A fast and direct liquid chromatography-mass spectrometry method to detect and quantify polyunsaturated aldehydes and polar oxylipins in diatoms. Limnology and Oceanography: Methods. 15:70–79.PDF icon Kuhlisch et al_2017_A fast and direct liquid chromatography-mass spectrometry method to detect and.pdf (311.11 KB)
Dupuy C, Vaquer A, LamHoai T, Rougier C, Mazouni N, Lautier J, Collos Y, LeGall S.  2000.  Feeding rate of the oyster Crassostrea gigas in a natural planktonic community of the Mediterranean Thau Lagoon. Marine Ecology - Progress Series. 205:171–184.PDF icon Dupuy et al_2000_Feeding rate of the oyster Crassostrea gigas in a natural planktonic community.pdf (228.35 KB)
Coleman B, Van Poucke C, Dewitte B, Casciaro V, Moerdijk-Poortvliet T, Muylaert K, Robbens J.  2023.  Fine-tuning the flavor of Tetraselmis chuii by modifying nitrogen supply. Algal Research. :103208.PDF icon Coleman et al_2023_Fine-tuning the flavor of Tetraselmis chuii by modifying nitrogen supply.pdf (1.59 MB)
Henry IA, Netzer R, Davies EJ, Brakstad OGunnar.  2020.  Formation and fate of oil-related aggregates (ORAs) in seawater at different temperatures. Marine Pollution Bulletin. 159:111483.PDF icon Henry et al_2020_Formation and fate of oil-related aggregates (ORAs) in seawater at different.pdf (3.32 MB)
Hackl T, Martin R, Barenhoff K, Duponchel S, Heider D, Fischer MG.  2020.  Four high-quality draft genome assemblies of the marine heterotrophic nanoflagellate Cafeteria roenbergensis. Scientific Data. 7:29.PDF icon Hackl et al_2020_Four high-quality draft genome assemblies of the marine heterotrophic.pdf (555.19 KB)
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Sands E, Davies S, Puxty RJohn, Vergé V, Bouget F-Y, Scanlan DJohn, Carré IAlice.  2023.  Genetic and physiological responses to light quality in a deep ocean ecotype of Ostreococcus, an ecologically important photosynthetic picoeukaryote. Journal of Experimental Botany. :erad347.PDF icon Sands et al. - 2023 - Genetic and physiological responses to light quali.pdf (1.84 MB)
Bendif EMahdi, Probert I, Carmichael M, Romac S, Hagino K, de Vargas C.  2014.  Genetic delineation between and within the widespread coccolithophore morpho-species Emiliania huxleyi and Gephyrocapsa oceanica (Haptophyta). Journal of Phycology. 50:140–148.PDF icon Bendif et al_2014_Genetic delineation between and within the widespread coccolithophore.pdf (722.8 KB)
Nézan E, Siano R, Boulben S, Six C, Bilien G, Chèze K, Duval A, Le Panse S, Quéré J, Chomérat N.  2014.  Genetic diversity of the harmful family Kareniaceae (Gymnodiniales, Dinophyceae) in France, with the description of ¡i¿Karlodinium gentienii¡/i¿ sp. nov.: A new potentially toxic dinoflagellate. Harmful Algae. 40:75–91.PDF icon Nezan et al_2014_Genetic diversity of the harmful family Kareniaceae (Gymnodiniales,.pdf (2.6 MB)
Derelle E, Ferraz C, Rombauts S, Rouze P, Worden AZ, Robbens S, Partensky F, Degroeve S, Echeynie S, Cooke R et al..  2006.  Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features. Proceedings of the National Academy of Sciences of the United States of America. 103:11647–11652.PDF icon Derelle et al_2006_Genome analysis of the smallest free-living eukaryote Ostreococcus tauri.pdf (1.01 MB)
Derelle E, Ferraz C, Rombauts S, Rouze P, Worden AZ, Robbens S, Partensky F, Degroeve S, Echeynie S, Cooke R et al..  2006.  Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features. Proceedings of the National Academy of Sciences of the United States of America. 103:11647–11652.PDF icon Derelle et al_2006_Genome analysis of the smallest free-living eukaryote Ostreococcus tauri.pdf (1.01 MB)
Derelle E, Ferraz C, Rombauts S, Rouze P, Worden AZ, Robbens S, Partensky F, Degroeve S, Echeynie S, Cooke R et al..  2006.  Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features. Proceedings of the National Academy of Sciences of the United States of America. 103:11647–11652.PDF icon Derelle et al_2006_Genome analysis of the smallest free-living eukaryote Ostreococcus tauri.pdf (1.01 MB)
Derelle E, Ferraz C, Rombauts S, Rouze P, Worden AZ, Robbens S, Partensky F, Degroeve S, Echeynie S, Cooke R et al..  2006.  Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features. Proceedings of the National Academy of Sciences of the United States of America. 103:11647–11652.PDF icon Derelle et al_2006_Genome analysis of the smallest free-living eukaryote Ostreococcus tauri.pdf (1.01 MB)
Derelle E, Ferraz C, Rombauts S, Rouze P, Worden AZ, Robbens S, Partensky F, Degroeve S, Echeynie S, Cooke R et al..  2006.  Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features. Proceedings of the National Academy of Sciences of the United States of America. 103:11647–11652.PDF icon Derelle et al_2006_Genome analysis of the smallest free-living eukaryote Ostreococcus tauri.pdf (1.01 MB)
Palenik B, Brahamsha B, Larimer FW, Land M, Hauser L, Chain P, Lamerdin J, Regala W, Allen EE, McCarren J et al..  2003.  The genome of a motile marine Synechococcus. Nature. 424:1037–1042.PDF icon Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences of the United States of America. 103:13555–13559.
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences of the United States of America. 103:13555–13559.
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences of the United States of America. 103:13555–13559.
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences of the United States of America. 103:13555–13559.
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.PDF icon Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.PDF icon Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.PDF icon Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)
Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al..  2006.  Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.PDF icon Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)
Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al..  2013.  Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.PDF icon Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)
Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al..  2013.  Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.PDF icon Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)
Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al..  2013.  Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.PDF icon Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

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