Marta Surmacz

Seasonal and spatial variability of species occurrence of the Paramecium aurelia complex in a single natural pond (Protista, Ciliophora)

The geographic distribution and temporal occurrence of ciliates are still little known. In the present article, the occurrence of the Paramecium aurelia species complex in a natural pond situated in Kraków (Opatkowice) was investigated in different seasons in two following years. A sequence of species occurrence of the P. aurelia complex was observed. Always, paramecia were found only in some sampling points among six points sampled each time and not necessarily in the same ones. Paramecia appearing in one habitat (water body) might occupy different niches characterized by various environmental features suitable for paramecia. The following species were found in the pond: P. biaurelia, P. triaurelia, P. tetraurelia, P. pentaurelia, and P. dodecaurelia. The occurrence of some rare species (P. tetraurelia, P. pentaurelia, and P. dodecaurelia) may be connected with migrating birds which can transport paramecia with drops of water from other water bodies. If a species was observed in successive seasons or years, the possible genetic variation was investigated by analysis of sequences of LSU rDNA and mitochondrial cytb gene fragments. Among the studied species (P. biaurelia, P. triaurelia, P. pentaurelia, and P.dodecaurelia) only P.dodecaurelia showed haplotype variation in different seasons and sampling points, probably caused by the colonization of the pond by different populations of paramecia.

Polymorphism of Paramecium pentaurelia (Ciliophora, Oligohymenophorea) strains revealed by rDNA and mtDNA sequences.

Paramecium pentaurelia is one of 15 known sibling species of the Paramecium aurelia complex. It is recognized as a species showing no intra-specific differentiation on the basis of molecular fingerprint analyses, whereas the majority of other species are polymorphic. This study aimed at assessing genetic polymorphism within P. pentaurelia including new strains recently found in Poland (originating from two water bodies, different years, seasons, and clones of one strain) as well as strains collected from distant habitats (USA, Europe, Asia), and strains representing other species of the complex. We compared two DNA fragments: partial sequences (349 bp) of the LSU rDNA and partial sequences (618 bp) of cytochrome B gene. A correlation between the geographical origin of the strains and the genetic characteristics of their genotypes was not observed. Different genotypes were found in Kraków in two types of water bodies (Opatkowice-natural pond; Jordans Park-artificial pond). Haplotype diversity within a single water body was not recorded. Likewise, seasonal haplotype differences between the strains within the artificial water body, as well as differences between clones originating from one strain, were not detected. The clustering of some strains belonging to different species was observed in the phylogenies.

Does high intraspecific variability of two genome fragments indicate a recent speciation process of Paramecium dodecaurelia (P. aurelia species complex, Ciliophora, Protozoa)?

Species of the Paramecium aurelia complex show different levels of intraspecific polymorphism, with P. dodecaurelia revealing a high level of intraspecific variation. Paramecium dodecaurelia strains originating from distant localities in the Palaearctic, North America (USA), and Oceania (Hawaii) were studied in terms of intraspecific differentiation and the degree of speciation. Sequences of genes encoding the ITS1–5.8S-ITS2–5’ end of LSU rDNA (1063–1097 bp) and cytochrome c oxidase subunit I mtDNA (638–644 bp) were obtained from 33 strains of P. dodecaurelia, other P. aurelia species, and another species of the genus Paramecium, with Tetrahymena sp. used as an outgroup. In phylograms, the majority of P. dodecaurelia strains from the Palaearctic appear in one cluster, while strains from Japan, Hawaii and the USA are grouped in another cluster, together with some strains from Italy and representatives of the P. aurelia species complex. Our results tend to support the hypothesis that P. dodecaurelia seems to be a polyphyletic species with several haplotypes similar to or even shared with other members of the P. aurelia species complex. However, it is still an open question whether the revealed intraspecific differences within P. dodecaurelia are the result of ongoing speciation, or perhaps they just indicate genetic differentiation within a species that has a wide geographic distribution.

Paramecium tredecaurelia: A Unique Non-Polymorphic Species of the P. aurelia spp. Complex (Oligohymenophorea, Ciliophora)

New stands of Paramecium tredecaurelia , a rare species of the P. aurelia spp. complex, were identified in Thailand and Madagascar on the basis of mating reactions and molecular markers (rDNA and mtDNA). Analysis of DNA fragments showed that all P. tredecaurelia strains, the recently recorded ones and the ones known previously from France, Mexico, and Israel, form a monophyletic and well-defined clade in the P. aurelia species trees. All of these strains, collected from different localities around the world, represent identical or nearly identical haplotypes in terms of all the studied DNA fragments. Given the huge distances between particular collection sites, such a low level of variability of the studied sequences may result from a slow rate of evolution in P. tredecaurelia .