# nutrient trait data: cell volumes # E. Litchman (MSU) # version: 2016-01-21 # These data were published in Table 3, Edwards et al (2015) Ecology # ========================= species isolate volume volume_citation ------------------------- Alexandrium_catenella nd 17724 Ou, L. J., D. Wang, B. Q. Huang, H. S. Hong, Y. Z. Qi, and S. H. Lu. 2008. Comparative study of phosphorus strategies of three typical harmful algae in Chinese coastal waters. Journal of Plankton Research 30:1007-1017. Alexandrium_minutum nd 14137.17 Tomas, C. [Ed.] 1997. Identifying marine phytoplankton. Academic Press, San Diego. Alexandrium_minutum RCC 1490 5000 Lippemeier, S., and D. Frampton. 2003. Influence of phosphorus limitation on toxicity and photosynthesis of Alexandrium minutum (Dinophyceae) monitored by in-line detection of variable chlorophyll fluorescence. Journal of Phycology 38:320-331. Alexandrium_tamarense nd 14137.17 Tomas, C. [Ed.] 1997. Identifying marine phytoplankton. Academic Press, San Diego. Anabaena_cylindrica nd 30 Dauta, A. 1982. Conditions de d_veloppement du phytoplancton: Etude comparative du comportement de huit esp_ces en culture. I. D_t_rmination des parametres de croissance en fonction de la lumi_re et de la temp_rature. Annales de limnologie 18:217-262. Anabaena_flos-aquae nd 27.4 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Anabaena_flos-aquae nd 132 Rhee, G. Y. and T. C. Lederman. 1983. Effects of nitrogen sources on P-limited growth of Anabaena flos-aquae. Journal of Phycology 19:179-185. Anabaena_planktonica nd 523.6 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. G_bel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Ankistrodesmus_falcatus nd 225 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of nitrate-limited growth and nitrate uptake in phytoplankton continuous culture. Journal of Phycology 17:309-314. Ankistrodesmus_falcatus nd 175 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Aphanizomenon_flos-aquae nd 12 Reynolds, C., and E. Bellinger. 1992. Patterns of abundance and dominance of the phytoplankton of Rostherne Mere, England: evidence from an 18-year data set. Aquatic Sciences 54:10-36. Aphanothece_stagnina nd 20 Caperon, J. and J. Meyer. 1972. Nitrogen-limited growth of marine phytoplankton. II. Uptake kinetics in nutrient limited growth of phytoplankton. Deep-Sea Research 19:619-632. Asterionella_formosa nd 163 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of nitrate-limited growth and nitrate uptake in phytoplankton continuous culture. Journal of Phycology 17:309-314. Asterionella_formosa nd 233 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Asterionella_formosa nd 402 Smith, R. E. H. and J. Kalff. 1982. Size-dependent phosphorus uptake kinetics and cell quota in phytoplankton. Journal of Phycology 18:275-284. Asterionella_glacialis nd 97.75 Romeo, A. J. and N. S. Fisher. 1982. Intraspecific comparisons of nitrate uptake in three marine diatoms. Journal of Phycology 18:220-225. Aureoumbra_lagunensis nd 24.46 Sunda, W., K. Shertzer, and D. Hardison. 2009. Ammonium uptake and growth models in marine diatoms: Monod and Droop revisited. Marine Ecology Progress Series 386:29-41. Chaetoceros_affinis nd 1957 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Chaetoceros_curvisetum nd 5020 Anonymous (2000) Biological atlas of the Arctic Seas 2000: Plankton of the Barents and Kara Seas. International Ocean Atlas Series. Available at http://www.nodc.noaa.gov/OC5/BARPLAK/start.html Chaetoceros_debilis nd 280 Harrison, P. J., H. L. Conway, R. W. Holmes, and C. O. Davis. 1977. Marine diatoms grown in chemostats under silicate or ammonium limitation. 3. Cellular chemical composition and morphology of Chaetoceros debilis, Skeletonema costatum, and Thalassiosira gravida. Marine Biology 43:19-31. Chaetoceros_lorenzianus nd 8000 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Chaetoceros_simplex nd 1056 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Chaetoceros_sp. nd 71 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Chattonella_antiqua nd 24000 Nakamura, Y. and M. M. Watanabe. 1983. Nitrate and phosphate uptake kinetics of Chattonella antiqua grown in light/dark cycles. Journal of the Oceanographical Society of Japan 29:167-170. Chattonella_ovata nd 33510 Jeong, H., Y. Yoo, J. Park, and J. Song. 2005. Feeding by phototrophic red-tide dinoflagellates: five species newly revealed and six species previously known to be mixotrophic. Aquatic Microbial Ecology 40:133-150. Chlamydomonas_acidophila SAG 2045 114 Spijkerman, E. 2007. Phosphorus acquisition by Chlamydomonas acidophila under autotrophic and osmo-mixotrophic growth conditions. Journal of Experimental Botany 58:4195-4202. Chlamydomonas_sp. nd 44.87 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Chlorella_pyrenoidosa nd 37.6 Ketchum, B. H. and A. C. Redfield. 1949. Some physical and chemical characteristics of algae growth in mass culture. Journal of Cellular and Comparative Physiology 33:281-299. Chlorella_emersonii CCAP 211/8H 322 Nyholm, N. 1977. Kinetics of phosphate limited algal growth. Biotechnology and Bioengineering 19:467-492. Chlorella_sp. nd 6 Grover, J. P. 1991. Non-steady-state dynamics of algal population growth: Experiments with two chlorophytes. Journal of Phycology 27:70-79. Chlorella_vulgaris nd 6.05 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Chlorella_vulgaris nd 27 Passarge, J., S. Hol, M. Escher, and J. Huisman. 2006. Competition for nutrients and light: Stable coexistence, alternative stable states, or competitive exclusion? Ecological Monographs 76:57-72. Coelastrum_microporum nd 80 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Coscinodiscus_wailesii nd 600000 Mullin, M., P. Sloan, and R. Eppley. 1966. Relationship between carbon content, cell volume, and area in phytoplankton. Limnology and oceanography 11:307-311. Cosmarium_abbreviatum_var._planctonicum nd 2500 Spijkerman, E. and P. F. M. Coesel. 1996. Phosphorus uptake and growth kinetics of two planktonic desmid species. European Journal of Phycology 31:53-60. Cosmarium_subcostatum_var._subcostatum_f._minor nd 8181.22 http://protist.i.hosei.ac.jp/pdb/images/Chlorophyta/Cosmarium/Margaritiferae/index.html; assume sphere Cryptomonas_sp. nd 800 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Cyclotella_cryptica SAG 1070-1 700 Montagnes, D., and D. Franklin. 2001. Effect of temperature on diatom volume, growth rate, and carbon and nitrogen content: reconsidering some paradigms. Limnology and Oceanography 46:2008-2018. Cyclotella_meneghiniana nd 1058 Shafik, H. M., S. Herodek, M. Presing, L. Voros, and K. V. Balogh. 1997. Growth of Cyclotella meneghiniana Kutz. II. Growth and cell composition under different growth rates with different limiting nutrient. Annales De Limnologie-International Journal of Limnology 33:223-233. Diatoma_elongatum nd 500 Simola, H. 1983. Population in a 69-year dynamics of plankton diatoms sequence of annually laminated sediment. Oikos 43:30-40. Dictyosphaerium_pulchellum nd 140 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Dinobryon_sociale_var._americanum nd 215 Kamjunke, N., T. Henrichs, and U. Gaedke. 2006. Phosphorus gain by bacterivory promotes the mixotrophic flagellate Dinobryon spp. during re-oligotrophication. Journal of Plankton Research 29:39-46. Ditylum_brightwellii CCMP358 15500 Brussaard, C. P. D., A. A. M. Noordeloos, and R. Riegman. 1997. Autolysis kinetics of the marine diatom Ditylum brightwellii (Bacillariophyceae) under nitrogen and phosphorus limitation and starvation. Journal of Phycology 33:980-987. Dunaliella_tertiolecta nd 54 Caperon, J. and J. Meyer. 1972. Nitrogen-limited growth of marine phytoplankton. II. Uptake kinetics in nutrient limited growth of phytoplankton. Deep-Sea Research 19:619-632. Dunaliella_tertiolecta CCMP 1320 129 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Emiliania_huxleyi NIOZ strain L 46.61 Riegman, R., W. Stolte, A. A. M. Noordeloos, and D. Slezak. 2000. Nutrient uptake, and alkaline phosphate (EC 3 : 1 : 3 : 1) activity of Emiliania huxleyi (Prymnesiophyceae) during growth under N and P limitation in continuous cultures. Journal of Phycology 36:87-96. Eucampia_zodiacus nd 20000 Sommer, U. 1989. Maximal growth rates of Antarctic phytoplankton: only weak dependence on cell size. Limnology and oceanography 34:1109-1112. Euglena_gracilis nd 4000 Cook, J. 1963. Adaptations in growth and division in Euglena effected by energy supply. Journal of Eukaryotic Microbiology 10:436-444. Fragilaria_bidens nd 280 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Fragilaria_capucina nd 857.14 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Fragilaria_crotonensis nd 233 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of nitrate-limited growth and nitrate uptake in phytoplankton continuous culture. Journal of Phycology 17:309-314. Fragilaria_crotonensis nd 258 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Fragilaria_pinnata nd 131 Charles, Don. Algal biovolumes for USGS NAWQA samples. 2001. Gymnodinium_catenatum nd 74000 Yamamoto, T., S. J. Oh, and Y. Kataoka. 2004. Growth and uptake kinetics for nitrate, ammonium and phosphate by the toxic dinoflagellate Gymnodinium catenatum isolated from Hiroshima Bay, Japan. Fisheries Science 70:108-115. Gymnodinium_mikimotoi nd 5575.28 Yamaguchi, M. and S. Itakura. 1999. Nutrition and growth kinetics in nitrogen- or phosphorus-limited cultures of the noxious red tide dinoflagellate Gymnodinium mikimotoi. Fisheries Science 65:367-373. Heterocapsa_circularisquama nd 2200 Yamaguchi, M., S. Itakura, and T. Uchida. 2001. Nutrition and growth kinetics in nitrogen- or phosphorus-limited cultures of the 'novel red tide' dinoflagellate Heterocapsa circularisquama (Dinophyceae). Phycologia 40:313-318. Heterocapsa_triquetra nd 1570.8 Tomas, C. [Ed.] 1997. Identifying marine phytoplankton. Academic Press, San Diego. Heterosigma_akashiwo nd 1103 Thompson, P., P. Harrison, and J. Parslow. 1991. Influence of irradiance on cell volume and carbon quota for ten species of marine phytoplankton. Journal of Phycology 27:351-360. Isochrysis_galbana CCAP 927/14 30 Sayegh, F. a Q., and D. J. S. Montagnes. 2011. Temperature shifts induce intraspecific variation in microalgal production and biochemical composition. Bioresource technology 102:3007-3013. Karenia_brevis nd 4200 Van Dolah, F. M., T. a. Leighfield, D. Kamykowski, and G. J. Kirkpatrick. 2008. Cell cycle behavior of laboratory and field populations of the Florida red tide dinoflagellate, Karenia brevis. Continental Shelf Research 28:11_23. Limnothrix_redekei nd 27.78 Wernicke, P. and A. Nicklisch. 1986. Light dark cycle and temperature: their impact on phosphate-limited growth of Oscillatoria redekei Vangoor in semicontinuous culture. Internationale Revue Der Gesamten Hydrobiologie 71:297-313. Microcystis_aeruginosa nd 66 Robarts, R., and T. Zohary. 1984. Microcystis aeruginosa and underwater light attenuation in a hypertrophic lake. Journal of Ecology 72:1001-1017. Microcystis_sp._ nd 7.11 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Micromonas_pusilla NEPCC 29 2.25 Cochlan, W. P. and P. J. Harrison. 1991. Kinetics of nitrogen (nitrate, ammonium and urea) uptake by the picoflagellate Micromonas pusilla (Prasinophyceae). Journal of Experimental Marine Biology and Ecology 153:129-141. Monodus_subterraneus nd 66 Passarge, J., S. Hol, M. Escher, and J. Huisman. 2006. Competition for nutrients and light: Stable coexistence, alternative stable states, or competitive exclusion? Ecological Monographs 76:57-72. Monoraphidium_griffithii nd 151 Passarge, J., S. Hol, M. Escher, and J. Huisman. 2006. Competition for nutrients and light: Stable coexistence, alternative stable states, or competitive exclusion? Ecological Monographs 76:57-72. Monoraphidium_minutum nd 21 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Nitzschia_acicularis nd 360.47 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Nitzschia_closterium nd 78 Carpenter, E. J. 1970. Phosphorus requirements of two planktonic diatoms in steady state culture. Journal of Phycology 6:28-30. Nitzschia_linearis nd 875 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Nitzschia_longissima nd 50.75 Romeo, A. J. and N. S. Fisher. 1982. Intraspecific comparisons of nitrate uptake in three marine diatoms. Journal of Phycology 18:220-225. Nitzschia_palea nd 216.67 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Nitzschia_sp._3 nd 187.5 Yamamoto, T., M. Suzuki, K. Kim, and S. Asaoka. 2012. Growth and uptake kinetics of phosphate by benthic microalga Nitzschia sp isolated from Hiroshima Bay, Japan. Phycological Research 60:223-228. Oocystis_pusilla nd 97.56 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Pavlova_lutheri nd 36 Burmaster, D. E. 1979. Unsteady continuous culture of phosphate limited Monochrysis lutheri Droop: Experimental and theoretical analysis. Journal of Experimental Marine Biology and Ecology 39:167-186. Pavlova_lutheri CCMP 1325 37 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Pediastrum_boryanum nd 350 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Pelagomonas_calceolata CCMP 1756 14.14 Timmermans, K. R., B. van der Wagt, M. J. W. Veldhuis, A. Maatman, and H. J. W. de Baar. 2005. Physiological responses of three species of marine pico-phytoplankton to ammonium, phosphate, iron and light limitation. Journal of Sea Research 53:109-120. Phaeocystis_pouchetii nd 166 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Phaeodactylum_tricornutum CCMP 630 126 Strathmann, R. 1967. Estimating the organic carbon content of phytoplankton from cell volume or plasma volume. Limnology and oceanography 12:411-418. Planktothrix_agardhii nd 85 Akcaalan, R., F. M. Young, J. S. Metcalf, L. F. Morrison, M. Albay, and G. A. Codd. 2006. Microcystin analysis in single filaments of Planktothrix spp. in laboratory cultures and environmental blooms. Water research 40:1583-90. Planktothrix_agardhii nd 50 Montealegre, R. J., J. Verreth, K. Steenbergen, J. Moed, and M. Machiels. 1995. A dynamic simulation model for the blooming of Oscillatoria agardhii in a monomictic lake. Ecological Modelling 78:17-24. Prasinomonas_capsulatus CCMP 1617 33.51 Timmermans, K. R., B. van der Wagt, M. J. W. Veldhuis, A. Maatman, and H. J. W. de Baar. 2005. Physiological responses of three species of marine pico-phytoplankton to ammonium, phosphate, iron and light limitation. Journal of Sea Research 53:109-120. Prochlorococcus nd 0.113 Campbell, L., and H. A. Nolla. 1993. The importance of Prochlorococcus to community structure in the central North Pacific Ccean. Limnology and Oceanography 39:954-961. Prochlorothrix_hollandica PCC 9006 20.42 Burger-wiersma, T., L. J. Stal, and L. R. Mur. 1989. Prochlorothrix hollandica gen. nov., sp. nov., a Filamentous Oxygenic Photoautotrophic Procaryote Containing Chlorophylls a and b: Assignment to Prochlovotrichaceae fam. nov. and Order Prochlorales Florenzano, Balloni, and Materassi 1986, with Emendation. International Journal of Systematic Bateriology 39:250-257. Prorocentrum_donghaiense nd 1799 Ou, L. J., D. Wang, B. Q. Huang, H. S. Hong, Y. Z. Qi, and S. H. Lu. 2008. Comparative study of phosphorus strategies of three typical harmful algae in Chinese coastal waters. Journal of Plankton Research 30:1007-1017. Prorocentrum_micans nd 21250 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Prorocentrum_minimum nd 907 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Pseudo-nitzschia_pungens nd 2266 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Pyrocystis_fusiformis nd 8000000 Shuter, B. 1978. Size dependence of phosphorus and nitrogen subsistence quotas in unicellular microorganisms. Limnology and Oceanography 23:1248-1255. Pyrocystis_lunula nd 195000 Shuter, B. 1978. Size dependence of phosphorus and nitrogen subsistence quotas in unicellular microorganisms. Limnology and Oceanography 23:1248-1255. Pyrocystis_noctiluca nd 14000000 Rivkin, R. B. and E. Swift. 1982. Phosphate uptake by the oceanic dinoflagellate Pyrocystis noctiluca. Journal of Phycology 18:113-120. Pyrocystis_noctiluca nd 17000000 Shuter, B. 1978. Size dependence of phosphorus and nitrogen subsistence quotas in unicellular microorganisms. Limnology and Oceanography 23:1248-1255. Rhabdoderma_lineare nd 43 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Scenedesmus_crassus nd 100 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Scenedesmus_quadricauda nd 180 Dauta, A. 1982. Conditions de developpement du phytoplancton: Etude comparative du comportement de huit especes en culture. I. Determination des parametres de croissance en fonction de la lumere et de la temperature. Annales de limnologie 18:217-262. Scenedesmus_quadricauda nd 93.02 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Scenedesmus_quadricauda UTEX 76 1125 Lang, D. S. and E. J. Brown. 1981. Phosphorus-limited growth of a green alga and a blue-green alga. Applied and Environmental Microbiology 42:1002-1009. Scenedesmus_quadricauda nd 276.21 Rocha, O., A. Duncan, D. S. Carlos, and S. Carlos. 1985. The relationship between cell carbon and cell volume in freshwater algal species used in zooplanktonic studies. Journal of Plankton Research 7:279-294. Scenedesmus_sp. nd 110 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of nitrate-limited growth and nitrate uptake in phytoplankton continuous culture. Journal of Phycology 17:309-314. Scenedesmus_sp. nd 245 Gotham, I. J. and G. Y. Rhee. 1981. Comparative kinetic studies of phosphate-limited growth and phosphate uptake in phytoplankton continuous culture. Journal of Phycology 17:257-265. Selenastrum_capricornutum nd 106 Passarge, J., S. Hol, M. Escher, and J. Huisman. 2006. Competition for nutrients and light: Stable coexistence, alternative stable states, or competitive exclusion? Ecological Monographs 76:57-72. Selenastrum_minutum nd 12.2 Butler, N., C. Suttle, and W. Neill. 1989. Discrimination by freshwater zooplankton between single algal cells differing in nutritional status. Oecologia 78:368-372. Skeletonema_costatum nd 173 Harrison, P. J., H. L. Conway, R. W. Holmes, and C. O. Davis. 1977. Marine diatoms grown in chemostats under silicate or ammonium limitation. 3. Cellular chemical composition and morphology of Chaetoceros debilis, Skeletonema costatum, and Thalassiosira gravida. Marine Biology 43:19-31. Skeletonema_costatum CCMP 1332 406 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Skeletonema_costatum nd 113 Ou, L. J., D. Wang, B. Q. Huang, H. S. Hong, Y. Z. Qi, and S. H. Lu. 2008. Comparative study of phosphorus strategies of three typical harmful algae in Chinese coastal waters. Journal of Plankton Research 30:1007-1017. Skeletonema_costatum nd 52 Romeo, A. J. and N. S. Fisher. 1982. Intraspecific comparisons of nitrate uptake in three marine diatoms. Journal of Phycology 18:220-225. Sphaerocystis_schroeteri nd 217.65 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Staurastrum_chaetoceros nd 1500 Spijkerman, E. and P. F. M. Coesel. 1996. Phosphorus uptake and growth kinetics of two planktonic desmid species. European Journal of Phycology 31:53-60. Staurastrum_luetkemuellerii nd 2691 Olsen, Y. 1989. Evaluation of competitive ability of Staurastrum leutkemuellerii (Chlorophyceae) and Microcystic aeruginosa (Cyanophyceae) under P limitation. Journal of Phycology 25:486-499. Staurastrum_paradoxum nd 2727 Healey, F. P. and L. L. Hendzel. 1988. Competition for phosphorus between desmids. Journal of Phycology 24:287-292. Staurastrum_pingue nd 2000 Spijkerman, E. and P. F. M. Coesel. 1996. Phosphorus uptake and growth kinetics of two planktonic desmid species. European Journal of Phycology 31:53-60. Synechococcus_sp. nd 2.4 Lang, D. S. and E. J. Brown. 1981. Phosphorus-limited growth of a green alga and a blue-green alga. Applied and Environmental Microbiology 42:1002-1009. Synechococcus_sp. WH7803 0.46 Morel, A., Y.-H. Ahn, F. Partensky, D. Vaulot, and H. Claustre. 1993. Prochlorococcus and Synechococcus: A comparative study of their optical properties in relation to their size and pigmentation. Journal of Marine Research 51:617-649. Synechococcus_sp. CCMP 893 14.14 Timmermans, K. R., B. van der Wagt, M. J. W. Veldhuis, A. Maatman, and H. J. W. de Baar. 2005. Physiological responses of three species of marine pico-phytoplankton to ammonium, phosphate, iron and light limitation. Journal of Sea Research 53:109-120. Synechocystis PCC 6803 8 Passarge, J., S. Hol, M. Escher, and J. Huisman. 2006. Competition for nutrients and light: Stable coexistence, alternative stable states, or competitive exclusion? Ecological Monographs 76:57-72. Synedra_acus nd 158 Smith, R. E. H. and J. Kalff. 1982. Size-dependent phosphorus uptake kinetics and cell quota in phytoplankton. Journal of Phycology 18:275-284. Synedra_radians nd 369.57 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Synedra_rumpens nd 352.94 Grover, J. P. 1989. Phorphorus-dependent growth kinetics of 11 species of freshwater algae. Limnology and Oceanography 34:341-348. Synedra_ulna nd 5100 Smith, R. E. H. and J. Kalff. 1982. Size-dependent phosphorus uptake kinetics and cell quota in phytoplankton. Journal of Phycology 18:275-284. Tetraselmis_subcordiformis nd 236 Dickson, D. M., and G. O. Kirst. 1986. The role of Beta-dimethylsulphoniopropionate, glycine betaine and homarine in the osmoacclimation of Platymonas subcordiformis. Planta 167:536-43. Thalassiosira_gravida nd 5620 Harrison, P. J., H. L. Conway, R. W. Holmes, and C. O. Davis. 1977. Marine diatoms grown in chemostats under silicate or ammonium limitation. 3. Cellular chemical composition and morphology of Chaetoceros debilis, Skeletonema costatum, and Thalassiosira gravida. Marine Biology 43:19-31. Thalassiosira_oceanica CCMP 1005 14 Caperon, J. and J. Meyer. 1972. Nitrogen-limited growth of marine phytoplankton. II. Uptake kinetics in nutrient limited growth of phytoplankton. Deep-Sea Research 19:619-632. Thalassiosira_oceanica CCMP 1005 102 Eppley, R. W. and E. H. Renger. 1974. Nitrogen assimilation of an oceanic diatom in nitrogen-limited continuous culture. Journal of Phycology 10:15-23. Thalassiosira_pseudonana CCMP 1335 81 Carpenter, E. J. 1970. Phosphorus requirements of two planktonic diatoms in steady state culture. Journal of Phycology 6:28-30. Thalassiosira_pseudonana nd 77.5 Fuhs, G. W., S. D. Demmerle, E. Canelli, and M. Chen. 1972. Characterization of phosphorus-limited algae.in G. E. Likens, editor. Nutrients and eutrophication. Allen Press Inc., Lawrence, Kansas. Thalassiosira_pseudonana CCMP 1335 30 Zehr, J. P., P. G. Falkowski, J. Fowler, and D. G. Capone. 1988. Coupling between ammonium uptake and incorporation in a marine diatom: experiments with the short-lived radioisotope N-13. Limnology and Oceanography 33:518-527. Thalassiosira_rotula nd 15072 Olenin, I., S. Hadju, L. Edler, A. Andersson, N. Wasmun, S. Busch, J. Gobel, S. Gromisz, S. Huseby, M. Huttunen, A. Jaanus, P. Kokoonen, I. Ledaine, and E. Niemkiewicz. 2006. Biovolumes and size-classes of phytoplankton in the Baltic Sea. HELCOM Balt. Sea Environ. Proc. No. 106. Thalassiosira_weissflogii nd 1570 Fuhs, G. W., S. D. Demmerle, E. Canelli, and M. Chen. 1972. Characterization of phosphorus-limited algae.in G. E. Likens, editor. Nutrients and eutrophication. Allen Press Inc., Lawrence, Kansas. Thalassiosira_weissflogii CCMP 1047 2132 Lomas, M. W. and P. M. Glibert. 2000. Comparisons of nitrate uptake, storage, and reduction in marine diatoms and flagellates. Journal of Phycology 36:903-913. Thalassiosira_weissflogii CCMP 1336 2254 Mullin, M., P. Sloan, and R. Eppley. 1966. Relationship between carbon content, cell volume, and area in phytoplankton. Limnology and oceanography 11:307-311. Trichodesmium_erythraeum IMS101 950 Fu, F.-X., Y. Zhang, P. R. F. Bell, and D. A. Hutchins. 2005. Phosphate Uptake and Growth Kinetics of Trichodesmium (Cyanobacteria) Isolates From the North Atlantic Ocean and the Great Barrier Reef, Australia. Journal of Phycology 41:62-73. Volvox_aureus nd 588.98 Solari, C. a, J. O. Kessler, and R. E. Michod. 2006. A hydrodynamics approach to the evolution of multicellularity: flagellar motility and germ-soma differentiation in volvocalean green algae. The American naturalist 167:537-54. Volvox_globator UTEX LB955 44.6 Celekli, A., M. Albay, and M. Dugel. 2007. Phytoplankton (except Bacillariophyceae) Flora of Lake Golkoy (Bolu). Turk. J. Bot 31:49-65.