Biologia, Bratislava, 61/1: 11--13, 2006 11 Epiphytic cyanophytes Xenococcus kerneri and Chamaesiphon minutus on the freshwater red alga Paralemanea catenata (Rhodophyta) Pavel Kučera1 , Bohuslav Uher2 & Ondřej Komárek3 1 Department of Botany, Masaryk University Brno, Kotlářská 2, CZ­61137 Brno, Czech Republic; e-mail: kucerap@sci.muni.cz; 2 Department of Botany, Comenius University Bratislava, Révová 39, SK­81102 Bratislava, Slovakia; e-mail: uherius@europe.com; 3 Department of Zoology and Ecology, Masaryk University Brno, Kotlářská 2, CZ­61137 Brno, Czech Republic; e-mail: okomar@sci.muni.cz Abstract: Epiphytes of Paralemanea catenata (KÜTZING) VIS & SHEATH (Rhodophyta) were studied on material from the River Dyje in National Park Podyjí. Longitudinal sections of the thalli were made with help of Cryo Cut Microtome techniques. The epiphytic cyanophytes Xenococcus kerneri HANSGIRG and Chamaesiphon minutus (ROSTAFINSKI) LEMMERMANN were recognized on the cortex of the thalli. Our observations of the determined species are discussed. Key words: epiphytic Cyanophytes, Xenococcus, Chamaesiphon, Paralemanea, Czech Republic Introduction The freshwater red algae are covered with a great amount of epiphytic organisms on the surfaces of their thalli. The epiphytism is determined by occurrence of the host as well as by the succession conditions for epiphytes during the season (Kučera & Komárek, 2004). Freshwater red algae can be common epiphytes of larger algae, including other Rhodophytes, e. g. Balbiana investiens (Rieth, 1979; Starmach, 1977), Audouinella violacea (Kützing) Hamel (Sheath & Hymes, 1980), and Chroodactylon ramosum (Thwaites) Hansgirg (Sheath, 1987). Fischer (1956) described Audouinella hermanni (Roth) Desvaux as epiphyte on Lemanea fluviatilis (L.) Agardh in Germany, Sheath & Hymes (1980) recorded 63 epiphytes on 10 species of red algae in southern Ontario. Kučera & Komárek (2004) mentioned the epiphytic growth of Audouinella pygmaea (Kützing) Weber-Van Bosse on Paralemanea annulata (Kützing) Vis & Sheath thallus. Our observations focus on description of the epiphytic cyanophytes growing on cortex of the red algal species Paralemanea catenata. Material and methods The samples of Paralemanea were collected during the seasons 2000­2004 from the locality Devět Mlýnů (the Dyje river) in the Czech Republic (latitude 48 49 1 , longitude 15 58 55 , altitude 248 m). All samples were collected from running water microhabitats with turbulent flow. The plants grew interspersed in riffles or on weir in partly shaded or well illuminated parts (KUČERA & KOMÁREK, 2004; KUČERA & MARVAN, 2004). In the laboratory, longitudinal sections (20 m in diameter) were made from thalli of P. catenata with help of Cryo Cut Microtome. First, the samples were fixed and preserved in 4% formaldehyde and washed with Sörensen phosphate buffer. The thalli were placed on frozen discs with 7.5% saccharose solution. The prepared sections were placed on slides with chrome gelatine for better adsorption and kept on a heating plate for one day. The dried specimens were overlaid by distilled water and embedded in glycerol-gelatine. Photographic documentation was provided by BX 50 Olympus microscope equipped with Lucia Image Analysis. The photographs were made with Nomarski differential interference contrast microscopy. Results and discussion We observed two species of epiphytic cyanophytes on the thalli of P. catenata: Xenococcus kerneri Hansgirg 1887 (Fig. 1) and Chamaesiphon minutus (Rostafinski) Lemmermann 1910 (Fig. 2). Xenococcus kerneri has cells attached to the substrate, solitary or in monolayered groups, sometimes forming blastoparenchymatous colonies or a crustose or flat thin layers with densely arranged cells. The cells are more or less polarized, sometimes slightly or dis- 12 P. Kučera et al. Fig. 1. Xenococcus kerneri ­ violet dispersed cell colonies () on the cortex of Paralemanea. Scale bar 10 m. Fig. 2. Chamaesiphon minutus ­ grey-green cells creating parenchymatous colonies () on the cortex of Paralemanea. Scale bar 10 m. tinctly elongate along the vertical axis. Around the cells there are usually firm sheaths. In old colonies, the cells are sometimes organised into short, horizontal, irregular rows. All cells are more or less of the same size, at the margin of cell colony usually rounded or elongate, the cells 4­6 m in diameter (Starmach, 1966; Komárek & Anagnostidis, 1998). This species was described by Geitler (1925) and Starmach (1966) as epiphyte on mosses and green algae in streams, rivers and lakes. Montejano et al. (1993), Gold-Morgan et al. (1994) and Montejano et al. (2003) described three freshwater epiphytic species of genus Xenococcus from Central Mexico. Komárek & Anagnostidis (1998) described this species on Lemanea thallus. We observed this species on the whole surface of Paralemanea as violet cells in layers, dispersed cell colonies on the cortex (Fig. 1) or violet dense colonies creating fan-shaped cell rows arranged on the surface. Chamaesiphon minutus has solitary cells or cells in groups, separately attached to the substrate (epiphytic), ovoid, oval, slightly pear-shaped to shortly cylindrical with rounded ends, pale blue-green or olive green, usually with solitary granules, 3.5­6 (8) × 1.5­ 3.5 m. Pseudovagina is thin, colourless, usually indistinct, rarely visible without staining. Exocytes separates solitarily from the apical cell end (Komárek & Anagnostidis, 1998). This species was described as epiphyte on green algae (Cladophora), mosses and filamentous cyanoprokaryotes (Tolypothrix) in Central Europe, Argentine and central Mexico (Gold-Morgan et Epiphytic cyanophytes Xenococcus kerneri and Chamaesiphon minutus 13 al., 1996; Komárek & Anagnostidis, 1998). We observed this species as grey-green dense parenchymatous colonies on the cortex (Fig. 2), in some cases covered by Xenococcus-layers. Ch. minimus Schmidle was described as epiphyte on red alga Audouinella (Komárek & Anagnostidis, 1998). Acknowledgements We would like to thank to Jaroslava DUBOVÁ for help with cryo-cut microtome preparation. This work was financially supported by the grant FRVŠ G4551 to Pavel KUČERA and by research project MSM 0021622416. References FISCHER, E. 1956. Beitrag zur Kenntnis unserer heimischen Rotalgen. Sonderdruck aus Heft 24 der Veröffentlichungen der Landesstelle für Naturschutz und Landschaftsplflege BadenWürttemberg, pp. 525­543. GEITLER, L. 1925. Cyanophyceae. In: PASCHER, A. (ed.), Die Süsswasserflora Deutschlands, ¨Osterreichs und der Schweiz. Heft 12. Gustav Fischer, Jena, 481 pp. GOLD-MORGAN, M., MONTEJANO, G. & KOMÁREK, J. 1994. Freshwater epiphytic Cyanoprokaryotes from central Mexico. 2. Heterogeneity of the genus Xenococcus. Arch. Protistenk. 144: 383­405. GOLD-MORGAN, M., MONTEJANO, G. & KOMÁREK, J. 1996. Freshwater epiphytic Chamaesiphonaceae from central Mexico. Algol. Stud. 83: 257­271. KOMÁREK J. & ANAGNOSTIDIS K. 1998. Cyanoprokaryota 1. Teil: Chroococcales. In: ETTL, H., G¨ARTNER, G., HEYNIG, H. & MOLLENHAUER, D. (eds), Süsswasserflora von Mitteleuropa 19/1, Gustav Fischer, Jena-Stuttgart-Lübeck-Ulm, 548 pp. KUČERA, P. & KOMÁREK, O. 2004. Biomass quantification of epiphytic freshwater rhodophyte Audouinella pygmaea KÜTZING. Algol. Stud. 115 (in press). KUČERA, P. & MARVAN, P. 2004. Taxonomy and distribution of Lemanea and Paralemanea (Lemaneaceae, Rhodophyta) in the Czech Republic. Preslia, Praha 76: 163­174. MONTEJANO, G., GOLD-MORGAN, M. & KOMÁREK, J. 1993. Freshwater epiphytic Cyanoprokaryotes from central Mexico. 1. Cyanocystis and Xenococcus. Arch. Protistenk. 143: 237­ 247. MONTEJANO, G., LEÓN-TEJERA, H. & GOLD-MORGAN, M. 2003. Taxonomy and life cycle of epiphytic Dermocarpellaceae and Xenococcaceae from central Mexico. Algol. Stud. 109: 395­402. RIETH, A. 1979. Ein Standort der epiphytischen SüsswasserRotalge Balbiana investiens (LENORMAND) SIRODOT 1876 in Mitteleuropa. Arch. Protistenk. 121: 401­416. SHEATH, R.G. 1987. Invasions into the Laurentian Great Lakes by marine algae. Arch. Hydrobiol. Beih. 25: 165­186. SHEATH, R.G. & HYMES, B.J. 1980. A preliminary investigation of the freshwater red algae in streams of southern Ontario, Canada. Can. J. Bot. 583: 1295­1318. STARMACH, K. 1966. Cyanophyta ­ sinice, Glaucophyta ­ glaukofity. In: STARMACH, K. & SIEMINSKA, J. (eds), Flora slodkowodna Polski, Vol. 2, Polska Akad. Nauk, WarszawaKraków, 807 pp. STARMACH, K. 1977. Phaeophyta ­ Brunatnice, Rhodophyta ­ Krasnorosty. In: STARMACH, K. & SIEMINSKA, J. (eds), Flora slodkowodna Polski, Vol. 14, Polska Akad. Nauk, WarszawaKraków, 445 pp. Received Nov. 25, 2004 Accepted Nov. 10, 2005