@phdthesis{Tingwey2009, author = {Tingwey, Emilienne Ingie}, title = {Studies on the life cycle of akinete forming cyanobacterium Cylindrospermopsis raciborskii in the temperate region}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:co1-opus-7766}, school = {BTU Cottbus - Senftenberg}, year = {2009}, abstract = {In recent years Cylindrospermopsis raciborskii (Woloszynska) Seenayya et Subba Raju a potentially toxic freshwater cyanobacterium of the order Nostocales initially classified as a tropical species, has invaded the temperate region and has established in lakes in northern Germany. The formation of dormant cells (akinetes) is an important part of the life cycle which enables Nostocales species to survive harsh conditions like the winter in the temperate zone. In this thesis, my aim is to throw more light on the life cycle of the invasive cyanobacterium Cylindrospermopsis raciborskii and also to compare it to native Nostocales species of the genus Aphanizomenon using derived field and laboratory data. This would help in the understanding of the invasion of C. raciborskii and spread and how it can be contained. Abiotic factors influencing the development and growth of photoautotrophic planktonic organisms in nature are examined and their variation with the years is discussed. A comprehensive look at C. raciborskii's akinetes in the sediment and the filaments and akinetes in the water column is done. The timing and temperature condition of akinete germination, recruitment, formation in the pelagic and importation into the sediment is determined. An assessment of the role of abiotic factors on the dynamics and abundance of filaments is done with a statistical model used to isolate which abiotic factors are most influential on the population growth of C. raciborskii. Akinetes distribution on the bed of the lake and the effect of loss processes on their abundance are looked into. Cylindrospermopsis is compared to native species Aphanizomenon spp in terms of the seasonal dynamics and the germination condition of their akinetes. The main findings in this thesis were that the seasonal dynamics of C. raciborskii had a similar trend but different timing of each event in the four years of the study. The variabilities were due to the different timing of the abiotic conditions. But in all temperature was identified as the most important factor influencing the timing of most events with germination of akinetes occurring at 13°C which is lower than so far reported in literature Subsequent increment in temperature to at least 23°C was found to be essential for the development of high populations of C. raciborskii in the water column. With a drop of temperature in autumn the filaments are stimulated in to producing akinetes which settle out into the sediment and remain there until the next spring when favourable conditions force them to germinate. They might also be consumed before germination by non identified grazer or losses due to microbial infections are discussed. Overall, the native Nostocales species of the genus Aphanizomenon have a selective advantage over the invaded species C. raciborskii under low temperatures and temperature fluctuations in spring as observed from the field and laboratory studies.}, subject = {Blaualgen; Extrembiotop; Mikrobiologie; Akinet; Laboruntersuchungen; S{\"u}ßwasser-Cyanobakterium; Lebenszyklus; Akinete; Laboratory experiments; Freshwater cyanobakterium; Life cycle}, language = {en} }