Abstract
The chrysophyte genus Dinobryon Ehrenberg consists of 44 taxa, which occur in freshwaters, rarely marine waters, mostly in temperate regions of the world. The taxa of Dinobryon produce characteristic solitary or dendroid colonies and resting stages called stomatocysts. Only 20 Dinobryon taxa have information on produced stomatocysts and only four stomatocysts are reliably linked with vegetative stages using modern identification standards employing scanning electron microscopy (SEM) analyses. In this study, an encysted material of Dinobryon pediforme (Lemmermann) Steinecke was collected in two lakes in contrasting regions of Poland. Light microscopy (LM) and scanning electron microscopy (SEM) analyses revealed that Dinobryon pediforme produces stomatocyst #61, Piątek J. that is described here as new morphotype following the International Statospore Working Group (ISWG) guidelines. This raises to five the number of reliable links between vegetative stages of Dinobryon species and corresponding stomatocysts. Phenotypic similarities between Dinobryon species and their stomatocysts, analysed for five reliably established links, showed no relationships in size and shape between loricas and stomatocysts belonging to the same species. The morphological characters of loricas and stomatocysts mapped onto the phylogenetic tree of the five Dinobryon species revealed only little congruence between their morphology and phylogenetic relationships.
Highlights
The chrysophyte genus Dinobryon Ehrenberg consists of 44 taxa, which occur in freshwaters, rarely marine waters, mostly in temperate regions of the world
The encysted specimens of Dinobryon pediforme originated from natural populations in two freshwater lakes: Suchar II lake and Wielki Staw lake
The encystment of Dinobryon pediforme was observed in two natural populations in Poland
Summary
The chrysophyte genus Dinobryon Ehrenberg consists of 44 taxa, which occur in freshwaters, rarely marine waters, mostly in temperate regions of the world. 20 Dinobryon taxa have information on produced stomatocysts and only four stomatocysts are reliably linked with vegetative stages using modern identification standards employing scanning electron microscopy (SEM) analyses. Light microscopy (LM) and scanning electron microscopy (SEM) analyses revealed that Dinobryon pediforme produces stomatocyst #61, Piątek J. that is described here as new morphotype following the International Statospore Working Group (ISWG) guidelines This raises to five the number of reliable links between vegetative stages of Dinobryon species and corresponding stomatocysts. 4 out of 20 stomatocysts linked with vegetative stages of Dinobryon taxa are reliably identified using these standards These are: stomatocysts produced by D. cylindricum O.E. Imhof, D. divergens O.E. Imhof, D. sertularia Ehrenberg and D. sociale var. We tried to assess phenotypic congruence between Dinobryon vegetative stages and stomatocysts For this purpose only those five Dinobryon species The morphological characters were mapped onto the phylogenetic tree to analyse the congruence between phylogeny and morphology in chrysophyte species and their stomatocysts
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