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Symbiosis represents a widely distributed principle of mutual relationships among organisms, belonging to different systematic groups. The cell endosymbiosis is considered to be the most important event, which starts the evolution of all eukaryotic organisms. We recognize about five successful endosymbioses. Some of them resulted in obtaining mitochondria the peroxisomes, perhaps derived from different groups of bacterial ancestors. The special interest represents the origin of the chloroplasts. As it was suggested using the molecular methods, the single-celled cyanobacteria were the ancestors of chloroplasts in glaucophytes, red and green algae. All these groups are classified into kingdom Plantae. Green algae and vascular plants form a monophyletic group. Their chloroplasts are surrounded only by double membrane envelopes, no connection with endoplasmic reticulum or with the nuclear envelope were observed. Endosymbiosis with cyanobacterial chloroplast ancestor is considered to be the primary endosymbiosis. It was of an ancient origin with the age of about 2 billion years. Chloroplasts of other algal divisions were obtained via secondary, sometimes even as tertiary endosymbioses. In dinophytes and euglenophytes, the plastids are the remainder of single celled eukaryotic algae, covered with the triple envelope membranes. Two inner membranes are similar to the chloroplast envelopes in plant chloroplasts, the third outer membrane is of unknown origin. Some experts consider the third plastid membrane as a phagosome (food vacuole) membrane. No connections with the nuclear envelope were observed. In cryptophytes and chromophyte algae (Chromophyta, syn. Heterocontophyta, syn. Ochrista) and Haptophyta (syn. Prymnesiophyta) plastids are covered with four membranes, two additional membranes are derived from the rough endoplasmic reticulum, which is often connected with the outer membrane of nuclear envelope. This kind of endosymbiosis is called the secondary symbiosis, and is much younger than the primary symbioses. Taking in account the six- kingdoms system of life proposed by CAVALIER-SMITH (1998), the secondary endosymbioses are classified into two different kingdoms: Protozoa (Dinophyta, Euglenophyta) and Chromista. The primary endosymbioses form the kingdom Plantae. The classification of Chlorarachniophyta is not clear and recently they are not mentioned as a separate division. Besides Chlorarachnion reptans, some other filarplasmodium forming protozoans containing plastids (Chrysarachnion, Chrysophyceae, Myxochloris, Xanthophyceae) or without plastids (Corallomyxa, Reticulosphaera, GRELL 1991) were recognized.
Wet stones near the wells form a specific microhabitat for the occurrence of epilithic, benthic and epiphytic cyanobacteria and algae. In four wells (Prosba lesa, U sovy, Čertík, U památníku letců) 15 little known cyanobacteria species (namely from the group of Chroococcales) were identified. These microhabitats belong to oligosaprobic water sites.
A preliminary floristic survey of aerophytic epiphytic algae from lowland tropical rainforests of Peninsular Malaysia is presented. The algal communities are either dominated by filamentous cyanophytes (e.g. Scytonema, Stigonema) or green algae of the family Trentepohliaceae. As concomitant species of Trentepohliaceae-dominated communities the coccal and filamentous green algae were frequently observed. In cyanophytes-dominated samples green algae were rarely recovered.
In many recorded species the determination up to the species level has not been possible. Some of the isolated strains will be described as new taxa in future.
The significant difference in species composition of investigated samples indicates a huge potential of algal biodiversity in aerophytic biotopes of tropical rainforests.
The species composition of phytoplankton in several pools in the Litovelské Pomoraví Protected Landscape Area and the physical and chemical conditions of pools were studied from 1996 to 1997. Approximately 200 taxa of algae and blue-green algae were identified. Euglenophyta was diverse and dominant group; especially Euglena hemichromata, E. spirogyra, Trachelomonas volvocina, Phacus orbicularis a P. pleuronectes occurred in samples regularly. The mass occurrence of Hydrodictyon reticulatum were observed in one of these pools.
The contribution presents the results of the first investigation of phytoplankton in the district of Prostějov. During 1998-1999 seasonal changes of phytoplankton in two fishponds together with selected physical and chemical parameters (temperature, oxygen, pH, conductivity, nutrients and heavy metals) were investigated. Eutrophication of the investigated fishponds is not as high as in other regions in the Czech Republic.
The seasonal changes of phytoplankton and selected ecological parameters (temperature, pH, oxygen, conductivity, nutrients) were studied in the years 1998 and 1999 at gravel-pit Chomoutov (Olomouc, the Czech Republic). Long-term changes in the species composition and proportions of the main algal groups during last three decades are discussed. Subsequent eutrophication was found with the come back of water blooms of Aphanizomenon flos-aquae.
Diatoms were studied in 29 spring fens of the West Carpathians. A total of 70 diatom taxa were found. Caloneis tenuis, Eunotia paludosa, E. steineckii, Navicula cryptocephala, Nitzschia archibaldii, Rhopalodia gibba and R. rupestris were the most frequent species. The sites with low pH (3,6 – 6,5) can be characterized by the occurrence of genera Anomoeoneis, Eunotia, Frustulia. On the other hand, Rhopalodia and Diploneis were common at the sites with higher pH (6,4 – 7).
This contribution deals with the comparison of several physical and chemical parameters and algae periphyton in the Ostravice River above and below the Šance Reservoir. The Šance Reservoir on the Ostravice River (North Moravia) is a typical deep reservoir with the hypolimnetic outflow during the period of stratification. The reservoir serving as drinking water supply was filled up in 1969. Temperature, pH, conductivity and concentrations of oxygen and nitrogen compounds, as well as the phyto-periphyton changes (focussed on diatoms and assessment of saprobity) were followed in the five profiles on the Ostravice River. Special attention was done on the morphological variability of the diatom species Fragilaria arcus (EHRENBERG) CLEVE. Two profiles studied were located on the reservoir inflows, three below the reservoir dam. The decrease of oxygen concentrations, pH, conductivity and saprobity was observed below the dam. Concerning water temperature, the decrease of summer water temperature values and increase of water temperature in winter were found below the reservoir. While the concentrations of NO2- and NH4+ and the morphological variability of the species Fragilaria arcus were not significantly different in the profiles studied, the NO3- concentrations were higher below the dam.
In nature, organisms grow in gradients of different conditions. For biochemical, physiological and ultrastuctural studies it is necessary to cultivate the organisms in strictly defined conditions. Cultivations in liquid media or on solid ones allow modelling of gradient of only one condition, usually concentration of a nutrient or a toxic chemical. Cultivation in crossed gradients of temperature and light provides various combinations of different values of temperatures and irradiances. A new unit for crossed gradients is commercially available and its properties are characterised here.
Ten genera of cyanophytes and 73 genera of algae were found in the guts of Aedes, Culex, Anopheles and Culiseta larvae collected in various breeding places of the Elbe-Lowland (Bohemia) and Prague. The quality and quantity of blue-green algae and algae found in mosquito guts depended on their presence in the water of mosquito breeding places and on the feeding type (filter fieders, scrapers) of mosquito larvae. Chlorophycean algae possesing cell wall with sporopollenin and algae with a mucilagenous (jelly) envelope appeared undamaged by the digestive process. Also spores and resting stages tended to pass undamaged through the larval intestine tract.