Katerina Koukou scite author profile

Abstract. Speciation depends on the establishment of reproductive isolation between populations of the same species. Whether assortative mating evolves as a by-product of adaptation is a major question relevant to the origin of species by reproductive isolation. The long-term selection populations used here were originally established 30 years ago from a single cage population (originating from a maternal one) and subsequently subjected to divergent selection for tolerance of toxins in food (heavy metals versus ethanol) to investigate this question. Those populations now differ in sexual isolation and Wolbachia infection status. Wolbachia are common and widespread bacteria infecting arthropods and nematodes. Attention has recently focused on their potential role in insect speciation, due to post-mating spermegg incompatibilities induced by the bacteria. In this paper we examine the potential effect of Wolbachia on the level of sexual isolation. By antibiotic curing, we show that removal of Wolbachia decreases levels of mate discrimination (sexual isolation index) between populations by about 50%. Backcrossing experiments confirm that this effect is due to infection status rather than to genetic changes in the populations resulting from antibiotic treatment. Antibiotic treatment has no effect on mate discrimination level between uninfected populations. Our findings suggest that the presence of Wolbachia (or another undetected bacterial associate) act as an additive factor contributing to the level of pre-mating isolation between these Drosophila melanogaster populations. Given the ubiquity of bacterial associates of insects, such effects could be relevant to some speciation events.

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Molecular phylogeny of the Greek populations of the genus Ligidium (Isopoda, Oniscidea) using three mtDNA gene segments

Klossa-Kilia¹,

Kilias²,

Tryfonopoulos³

et al. 2006

Zoologica Scripta

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Molecular phylogeny of the Greek populations of the genus Ligidium (Isopoda: Oniscidea) using three mtDNA gene segments. -Zoologica Scripta , 35, 459-472.The phylogeny of Greek populations of the terrestrial isopod genus Ligidium is reconstructed based on three mtDNA gene segments: 12S rRNA, 16S rRNA and COI. Two widely distributed European species, as well as three outgroups belonging to different isopod genera, were also included in the analyses. The samples used represent almost all Ligidium species known to occur in Greece, as well as several populations of unknown specific status plus some new records. Phylogenetic analyses of the combined data set were performed using Bayesian inference and maximum parsimony. The two main sister clades with good support indicate the sympatric differentiation of two lineages in southern continental Greece (Peloponnisos), where Ligidium populations exhibit a mosaic distribution of sibling species. The insular populations of the Aegean Islands show increased genetic divergence and form separate clades. The presence of a third lineage of Asiatic origin is strongly suggested by both the molecular phylogeny and morphology. The only presumably valid diagnostic morphological character exhibits only partial correspondence to well supported clades of the molecular phylogeny. Genetic differentiation between populations is very high, a fact that can be attributed to the strict ecological specialization of these animals that leads to increased levels of isolation even between populations that are in close proximity. As a consequence, Greek Ligidium populations, especially those present on islands, are unique genetic pools and extremely vulnerable to extinction.

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Short-term seaward fish migration in the Messolonghi–Etoliko lagoons (Western Greek coast) in relation to climatic variables and the lunar cycle

Katselis

Koukou

Dimitriou

et al. 2007

Estuarine, Coastal and Shelf Science

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Influence of Antibiotic Treatment and Wolbachia Curing on Sexual Isolation Among Drosophila Melanogaster Cage Populations

Koukou

Pavlikaki

Kilias

et al. 2006

Evol

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Speciation depends on the establishment of reproductive isolation between populations of the same species. Whether assortative mating evolves as a by-product of adaptation is a major question relevant to the origin of species by reproductive isolation. The long-term selection populations used here were originally established 30 years ago from a single cage population (originating from a maternal one) and subsequently subjected to divergent selection for tolerance of toxins in food (heavy metals versus ethanol) to investigate this question. Those populations now differ in sexual isolation and Wolbachia infection status. Wolbachia are common and widespread bacteria infecting arthropods and nematodes. Attention has recently focused on their potential role in insect speciation, due to post-mating sperm-egg incompatibilities induced by the bacteria. In this paper we examine the potential effect of Wolbachia on the level of sexual isolation. By antibiotic curing, we show that removal of Wolbachia decreases levels of mate discrimination (sexual isolation index) between populations by about 50%. Backcrossing experiments confirm that this effect is due to infection status rather than to genetic changes in the populations resulting from antibiotic treatment. Antibiotic treatment has no effect on mate discrimination level between uninfected populations. Our findings suggest that the presence of Wolbachia (or another undetected bacterial associate) act as an additive factor contributing to the level of pre-mating isolation between these Drosophila melanogaster populations. Given the ubiquity of bacterial associates of insects, such effects could be relevant to some speciation events.

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Sex‐specific daily spawning seaward migration of striped mullet Mugil cephalus in a coastal lagoon

Katselis

Koukou

Ramfos

et al. 2015

Journal of Fish Biology

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The sex-specific daily spawning seaward migration of striped mullet Mugil cephalus was analysed in Palaiopotamos Lagoon (western Greek coast, eastern Mediterranean Sea) in an 86 day time series. The data set included the daily number of M. cephalus catches in barrier traps, as well as a time series of some weather variables. The analysis revealed an important linkage of the daily migration rate as well as a sex-specific response of the species to the lunar cycle and the short-term fluctuation of weather variables. The daily migration pattern of females was more persistent than that of males, indicating a possible female leadership role during the spawning migration. Multiregression models described quite accurately the sex-specific daily migration rates of the species, thus providing a potentially powerful tool regarding the lagoon fishery management of M. cephalus, especially in the context of climate change.

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Katerina Koukou

Influence of Antibiotic Treatment and Wolbachia Curing on Sexual Isolation Among Drosophila Melanogaster Cage Populations

Molecular phylogeny of the Greek populations of the genus Ligidium (Isopoda, Oniscidea) using three mtDNA gene segments

Short-term seaward fish migration in the Messolonghi–Etoliko lagoons (Western Greek coast) in relation to climatic variables and the lunar cycle

Influence of Antibiotic Treatment and Wolbachia Curing on Sexual Isolation Among Drosophila Melanogaster Cage Populations

Sex‐specific daily spawning seaward migration of striped mullet Mugil cephalus in a coastal lagoon

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