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  • Bailey RG & Nursten HE (1993) The chemical oxidation of catechins and other phenolics: a study of the formation of black tea pigments. J Sci Food Agric 63: 455464.
  • Buchner O, Lütz C & Holzinger A (2007) Design and construction of a new temperature controlled chamber for light- and confocal microscopy under monitored conditions: biological application for plant samples. J Microsc 225: 183191.
  • Cannell RJ, Farmer P & Walker JM (1988a) Purification and characterization of pentagalloylglucose, an alpha-glucosidase inhibitor/antibiotic from the freshwater green alga Spirogyra varians. Biochem J 255: 937941.
  • Cannell RJP, Owsianka AM & Walker JM (1988b) Results of a large-scale screening programme to detect antibacterial activity from freshwater algae. Eur J Phycol 23: 4144.
  • Chapman BE, Roser DJ & Seppelt RD (1994) 13C NMR analysis of Antarctic cryptogam extracts. Antarct Sci 6: 295305.
  • Ettl H & Gärtner G (1995) Syllabus der Boden-, Luft- und Flechtenalgen. Fischer Verlag, Stuttgart.
  • Friedl T (1997) The evolution of the Green Algae. Plant Syst Evol 11: 87101.
  • Fujii M, Takano Y, Kojima H, Hoshino T, Tanaka R & Fukui M (2010) Microbial community structure, pigment composition, and nitrogen source of red snow in Antarctica. Microb Ecol 59: 466475.
  • Hagerman AE (2002) The Tannin Handbook. Miami University, Oxford. http://www.users.muohio.edu/hagermae
  • Han JW, Yoon M, Lee KP & Kim GH (2007) Isolation of total RNA from a freshwater green algae, Zygnema cruciatum, containing high levels of pigments. Algae 22: 125129.
  • Hodson A, Anesio AM, Tranter M, Fountain A, Osborn M, Priscu J, Laybourn-Parry J & Sattler B (2008) Glacial ecosystems. Ecol Monogr 78: 4167.
  • Hodson A, Cameron K, Boggild C, Irvine-Fynn T, Langford H, Pearce D & Banwart S (2010) The structure, biological activity and biogeochemistry of cryoconite aggregates upon an Arctic valley glacier: Longyearbreen, Svalbard. J Glaciol 56: 349362.
  • Hoham RW (1975) Optimum temperatures and temperature ranges for growth of snow algae. Arct Antarct Alp Res 7: 1324.
  • Hoham RW & Duval B (2001) Microbial ecology of snow and freshwater ice with emphasis on snow algae. Snow Ecology (Jones HG, Pomeroy JW, Walker DA & Hoham RW, eds), pp. 168228. Cambridge University Press, New York, NY.
  • Holzinger A, Tschaikner A & Remias D (2010) Cytoarchitecture of the desiccation-tolerant green alga Zygogonium ericetorum. Protoplamsa 243: 1524.
  • Imai K, Mitsunaga T, Takemoto H, Yamada T, Ito S & Ohashi H (2009) Extractives of Quercus crispula sapwood infected by the pathogenic fungi Raffaelea quercivora I: comparison of sapwood extractives from noninfected and infected samples. J Wood Sci 55: 126132.
  • Karsten U, Friedl T, Schumann R, Hoyer K & Lembcke S (2005) Mycosporine like amino acids (MAAs) and phylogenies in green algae: Prasiola and its relatives from the Trebouxiophyceae (Chlorophyta). J Phycol 41: 557566.
  • Kol E (1942) The snow and ice algae of Alaska. Smithsonian Misc Collect 101: 136.
  • Kol E (1968) Kryobiologie. Biologie und Limnologie des Schnees und Eises. I. Kryovegetation. Die Binnengewässer, Band XXIV (Elster HJ & Ohle W, eds), pp. 216. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart.
  • Komárek J & Nedbalová L (2007) Green cryosestic algae. Cellular origin, life in extreme habitats and astrobiology (Volume 11): Algae and cyanobacteria in extreme environments, part 4: phototrophs in cold environments (Seckbach J, ed), pp. 323344. Springer, Dordrecht.
  • Kvíderová J (2010) Characterization of the community of snow algae and their photochemical performance in situ in the Giant Mountains, Czech Republic. Arct Antarct Alp Res 42: 210218.
  • Leya T (2004) Feldstudien und genetische Untersuchungen zur Kryophilie der Schneealgen Nordwestspitzbergens. Shaker Verlag, Aachen.
  • Li YG, Tanner G & Larkin P (1996) The DMACA-HCl protocol and the threshold proanthocyanidin content for bloat safety in forage legumes. J Sci Food Agric 70: 89101.
  • Ling HU & Seppelt RD (1990) Snow algae of the Windmill Islands, continental Antarctica. Mesotaenium berggrenii (Zygnematales, Chlorophyta) the alga of grey snow. Antarct Sci 2: 143148.
  • Makkar HPS, Bluemmel M, Borowy NK & Becker K (1993) Gravimetric determination of tannins and their correlations with chemical and protein precipitation methods. J Sci Food Agric 61: 161165.
  • McCourt RM, Karol KG, Bell J, Helm-Bychowski KM, Grajewska A, Wojciechowski MF & Hoshaw RW (2000) Phylogeny of the conjugating green algae (Zygnemophyceae) based on rbcL sequences. J Phycol 36: 747758.
  • Mueller DR, Vincent WF, Pollard WH & Fritsen CH (2001) Glacial cryoconite ecosystems: a bipolar comparison of algal communities and habitats. Nova Hedwig Beih 123: 173197.
  • Mueller DR, Vincent WF, Bonilla S & Laurion I (2005) Extremotrophs, extremophiles and broadband pigmentation strategies in a high arctic ice shelf ecosystem. FEMS Microbiol Ecol 53: 7387.
  • Müller T, Bleiß W, Martin C-D, Rogaschewski S & Fuhr G (1998) Snow algae from northwest Svalbard: their identification, distribution, pigment and nutrient content. Polar Biol 20: 1432.
  • Posada D & Crandall KA (1998) Modeltest: testing the model of DNA substitution. Bioinformatics 14: 817818.
  • Price ML & Butler LG (1977) Rapid visual estimation and spectrophotometric determination of tannin content of sorghum grain. J Agric Food Chem 25: 12681273.
  • Remias D (2012) Cell structure and physiology of alpine snow and ice algae. Plants in alpine regions. Cell Physiology of Adaption and Survival Strategies (Lütz C, ed), pp. 175186. Springer Wien, Dordrecht.
  • Remias D, Lütz-Meindl U & Lütz C (2005) Photosynthesis, pigments and ultrastructure of the alpine snow alga Chlamydomonas nivalis. Eur J Phycol 40: 259268.
  • Remias D, Holzinger A & Lütz C (2009) Physiology, ultrastructure and habitat of the ice alga Mesotaenium berggrenii (Zygnemaphyceae, Chlorophyta) from glaciers in the European Alps. Phycologia 48: 302312.
  • Remias D, Karsten U, Lütz C & Leya T (2010a) Physiological and morphological processes in the Alpine snow alga Chloromonas nivalis (Chlorophyceae) during cyst formation. Protoplasma 243: 7386.
  • Remias D, Albert A & Lütz C (2010b) Effects of realistically simulated, elevated UV irradiation o photosynthesis and pigment composition of the alpine snow alga Chlamydomonas nivalis and the arctic soil alga Tetracystis sp. (Chlorophyceae). Photosynthetica 48: 302312.
  • Roser DJ, Melick DR, Ling HU & Seppelt RD (1992) Polyol and sugar content of the terrestrial plants from continental Antarctica. Antarct Sci 4: 413420.
  • Sang S, Lambert JD, Tian S et al. (2004) Enzymatic synthesis of tea theaflavin derivatives and their anti-inflammatory and cytotoxic activities. Bioorg Med Chem 12: 459467.
  • Scalbert A, Monties B & Janin G (1989) Tannins in wood: comparison of different estimation methods. J Agric Food Chem 37: 13241329.
  • Steinberg PD (1984) Algal chemical defense against herbivores: allocation of phenolic compounds in the kelp Alaria marginata. Science 223: 405407.
  • Stibal M, Elster J, Šabacká M & Kaštovská K (2007) Seasonal and diel changes in the photosynthetic activity of the snow alga Chlamydomonas nivalis (Chlorophyceae) from Svalbard determined by pulse amplitude modulation fluorometry. FEMS Microbiol Ecol 59: 265273.
  • Takeuchi N, Uetake J, Fujita K, Aizen VB & Nikitin SD (2006) A snow algal community on Akkem glacier in the Russian Altai mountains. Ann Glaciol 43: 378384.
  • Uetake J, Naganuma T, Hebsgaard MB, Kanda H & Kohshima S (2010) Communities of algae and cyanobacteria on glaciers in west Greenland. Polar Sci 4: 7180.
  • Wagner B, Oehrlein R, Herzog B, Eichin K, Baisch G & Portmann S (2009) Preparation and use of benzotropolone derivatives as UV absorbers and antioxidants and their use in sunscreens and/or cosmetic compositions. PCT Int Appl. CODEN: PIXXD2 WO 2009156324 A2 20091230.
  • Wagner B, Ochs D & Bieler K (2011) Benzotropolone derivatives as antimicrobial agents. PCT Int Appl. CODEN: PIXXD2 WO 2011048011 A2 20110428.