Growth characteristics of selected thermophilic strains of cyanobacteria using crossed gradients of temperature and light |
| |
Authors: | František Hindák Jana Kvíderová Jaromír Lukavský |
| |
Affiliation: | 1. Slovak Academy of Sciences, Institute of Botany, Dúbravská cesta 9, SK-84523, Bratislava, Slovakia 2. Institute of Botany, Department of Plant Ecology, Academy of Sciences of Czech Republic, Dukelská 135, CZ-37982, T?eboň, Czech Republic 3. Faculty of Science, Centre for Polar Ecology, University of South Bohemia, Brani?ovská 31, CZ-37005, ?eské Budějovice, Czech Republic 4. Biorefinery Research Centre of Competence, Dukelská 135, CZ-37982, T?eboň, Czech Republic
|
| |
Abstract: | Growth requirements of 10 possibly thermophilic strains of cyanobacteria were compared under a wide spectrum of light and temperature conditions (7–80Wm?2, 12–40°C). The strains were isolated from different localities: six of thermal springs in Slovakia (4 from Pie??any, 2 from Sklené Teplice), one from thermal waters in Rupite, Bulgaria, 2 strains from a hypersaline lake Chott-el-Djerid, Tunisia, and one strain from the tropical island of Cebu, Philippines. Although the crossed gradient unit allowed only sub-optimal temperature range with respect to thermophile definition, i.e. optimum temperature above 45°C, there were difference among the strains. The most thermophilic and high-light tolerant strain was Synechococcus bigranulatus strain Lukavsky 2005/66, with a peak above 45°C; the second was Chroococcidiopsis thermalis strain Hindák 2008/9, and Isocystis sp. strain Hindák 2006/1. The temperature requirements of other strains were similar; the least thermophilic were both Slovakian strains of the genus Hapalosiphon. Growth was not limited below 80 W m?2, except for H. fontinalis strain Hindák 2008/3, which prefers lower irradiance. Hapalosiphon delicatulus strain Hindák 2007/20, isolated from a bark tree on the tropical island of Cebu was rather mesophilic than thermophilic and shade-preferring. The CCA revealed that the ecologically similar strains originated from the same or nearby localities. There were no significant correlations between temperature optima in culture and in nature. Bulgarian and Tunisian strains preferred higher irradiances. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|