Your search keyword '"Radosavljević, Ivan"' showing total 6 results

1. Lack of pollinators selects for increased selfing, restricted gene flow and resource allocation in the rare Mediterranean sage Salvia brachyodon

Author

European Cooperation in Science and Technology, Centre of Excellence for Biodiversity and Molecular Plant Breeding (Croatia), Surina, Boštjan, Balant, Manica, Glasnović, Peter, Gogala, Andrej, Fišer Pečnikar, Živa, Satovic, Zlatko, Liber, Zlatko, Radosavljević, Ivan, Classen‑Bockhof, Regine, European Cooperation in Science and Technology, Centre of Excellence for Biodiversity and Molecular Plant Breeding (Croatia), Surina, Boštjan, Balant, Manica, Glasnović, Peter, Gogala, Andrej, Fišer Pečnikar, Živa, Satovic, Zlatko, Liber, Zlatko, Radosavljević, Ivan, and Classen‑Bockhof, Regine

Abstract

Range contraction and habitat fragmentation can cause biodiversity loss by creating conditions that directly or indirectly affect the survival of plant populations. Fragmented habitats can alter pollinator guilds and impact their behavior, which may result in pollen/pollinator limitation and selection for increased selfing as a mechanism for reproductive assurance. We used Salvia brachyodon, a narrowly distributed and endangered sage from eastern Adriatic, to test the consequences of range contraction and habitat fragmentation. Molecular data indicate a severe and relatively recent species range reduction. While one population is reproductively almost completely isolated, moderate gene flow has been detected between the remaining two populations. The high pollen-to-ovule ratio and the results of controlled hand pollination indicate that S. brachyodon has a mixed mating system. Quantitative and qualitative differences in the community and behaviour of flower visitors resulted in limited pollination services in one population where no effective pollinator other than pollen and nectar robbers were observed. In this population, self-pollination predominated over cross-pollination. Various environmental factors, in which plant-pollinator interactions play a pivotal role, have likely created selection pressures that have led to genetic and phenotypic differentiation and different resource allocation strategies among populations.

Published

2024

2. Population size as a major determinant of mating system and population genetic differentiation in a narrow endemic chasmophyte

Author

Interreg, Surina, Boštjan, Balant, Manica, Glasnović, Peter, Radosavljević, Ivan, Fišer Pečnikar, Živa, Fujs, Nataša, Castro, Silvia, Interreg, Surina, Boštjan, Balant, Manica, Glasnović, Peter, Radosavljević, Ivan, Fišer Pečnikar, Živa, Fujs, Nataša, and Castro, Silvia

Abstract

Background Mating system is one of the major determinants of intra- and interspecific genetic structure, but may vary within and between plant populations. Our study model included all known populations of Moehringia tommasinii (Caryophyllaceae), a narrow endemic plant inhabiting rock crevices in the northwestern Adriatic, and some populations of co-occurring and widespread M. muscosa, an ecologically divergent relative with an overlapping flowering period. We performed reciprocal crosses within and between taxa and used molecular markers to assess the extent of gene flow within and between populations and taxa. Using coefficient of inbreeding, population size, seed weight, pollen-to-ovule ratio, and flower display size, we also looked for evidence of a selfing syndrome. Results A surprisingly high variation in mating systems was observed among populations of M. tommasinii. These populations exhibited genetic structuring, with their size positively correlated with both seed weight and pollen production. Although a selfing syndrome could not be confirmed as the majority of selfing resulted from allogamous treatments, the occurrence of selfing was notable. In the presence of M. muscosa, at a site where both species coexist closely, a distinct pattern of fruit production was observed in M. tommasinii following various pollination treatments. Molecular and morphometric data provided evidence of hybridization followed by local extinction at this site. Conclusions Population size proved to be the most important factor affecting the mating system in genetically structured populations of M. tommasinii. Lighter seeds and lower pollen production observed in populations with pronounced selfing do not provide enough evidence for the selfing syndrome. Detected gene flow between M. tommasinii and the sympatric M. muscosa suggested weak reproductive barriers between the taxa, which could pose a conservation problems for the former species. Hybridization leading to local extinction

Published

2023

3. Phylogeographic structure of common sage (Salvia officinalis L.) reveals microrefugia throughout the Balkans and colonizations of the Apennines.

Author

Radosavljević, Ivan, Satovic, Zlatko, di Pietro, Romeo, Jug Dujaković, Marija, Varga, Filip, Škrtić, Danijel, and Liber, Zlatko

Subjects

*PHYLOGEOGRAPHY, *LOCUS (Genetics), *CHLOROPLAST DNA, *GLACIATION, *GENETIC variation, *SPECIES diversity, *SAGE

Abstract

Studying the population-genetic and phylogeographic structures of a representative species of a particular geographical region can not only provide us with information regarding its evolutionary history, but also improve our understanding of the evolutionary processes underlying the patterns of species diversity in that area. By analysing eight highly polymorphic microsatellite loci and two chloroplast DNA regions, we have investigated the influence of Pleistocene climate fluctuations on the evolutionary history of Salvia officinalis L. (common sage). The populations with the highest genetic diversity were located in the central parts of the Balkan distribution range. A large group of closely related haplotypes was distributed throughout the Balkans and the central Apennines, while the private lineage occupied the southern Apennines. In addition, two highly differentiated lineages were scattered only over the Balkans. The results suggest that a single refugium of the studied species from the last glacial period was located in the central part of the range in the Balkans. Numerous microrefugia, probably spanning several glaciation cycles, were scattered across the Balkans, while colonisation of the Apennines from the Balkans occurred at least on two occasions. [ABSTRACT FROM AUTHOR]

Published

2022

4. Development and characterization of new polymorphic microsatellite markers for Degenia velebitica (Degen) Hayek (Brassicaceae).

Author

Radosavljević, Ivan, Jakse, Jernej, Satovic, Zlatko, Javornik, Branka, and Liber, Zlatko

Abstract

Twelve novel polymorphic microsatellite markers were developed for Degenia velebitica. All 12 microsatellite markers showed single-locus amplification and reveal 88 alleles in 20 individuals from a natural population. The number of alleles per microsatellite locus varied from 3 to 19. The observed heterozygosity, the expected heterozygosity, and polymorphic information content ranged from 0.250 to 0.950, 0.234 to 0.938 and 0,220 to 0,908, respectively. The significant deviations from the Hardy-Weinberg expectations were detected in two microsatellite loci. These new microsatellite markers will be a useful tool for studying genetic diversity, genetic structure and phylogeography of D. velebitica, as well as for successful conservation and management of this endangered species. [ABSTRACT FROM AUTHOR]

Published

2014

5. Divergent selection and genetic structure of Sideritis scardica populations from southern Balkan Peninsula as revealed by AFLP fingerprinting.

Author

Grdiša, Martina, Radosavljević, Ivan, Liber, Zlatko, Stefkov, Gjoshe, Ralli, Parthenopi, Chatzopoulou, Paschalina S., Carović-Stanko, Klaudija, and Šatović, Zlatko

Subjects

*SIDERITIS, *AMPLIFIED fragment length polymorphism, *MOUNTAIN plants, *DISCRIMINANT analysis, *SPATIAL analysis (Statistics)

Abstract

Sideritis scardica Giseb. is a subalpine/alpine plant species endemic to the central part of the Balkan Peninsula. In this study, we combined Amplified Fragment Length Polymorphism (AFLP) and environmental data to examine the adaptive genetic variations in S. scardica natural populations sampled in contrasting environments. A total of 226 AFLP loci were genotyped in 166 individuals from nine populations. The results demonstrated low gene diversity, ranging from 0.095 to 0.133 and significant genetic differentiation ranging from 0.115 to 0.408. Seven genetic clusters were revealed by Bayesian clustering methods as well as by Discriminant Analysis of Principal Components and each population formed its respective cluster. The exception were populations P02 Mt. Shara and P07 Mt. Vermio, that were admixed between two clusters. Both landscape genetic methods Mcheza and BayeScan identified a total of seven (3.10%) markers exhibiting higher levels of genetic differentiation among populations. The spatial analysis method Samβada detected 50 individual markers (22.12%) associated with bioclimatic variables, among them seven were identified by both Mcheza and BayeScan as being under directional selection. Four bioclimatic variables associated with five out of seven outliers were related to precipitation, suggesting that this variable is the key factor affecting the adaptive variation of S. scardica. [ABSTRACT FROM AUTHOR]

Published

2019

6. Morphological, genetic and epigenetic aspects of homoploid hybridization between Salvia officinalis L. and Salvia fruticosa Mill.

Author

Radosavljević, Ivan, Bogdanović, Sandro, Celep, Ferhat, Filipović, Maja, Satovic, Zlatko, Surina, Boštjan, and Liber, Zlatko

Abstract

The inheritance of phenotypic, genetic and epigenetic traits in hybridization events is difficult to predict, as numerous evolutionary, ecological, and genetic factors can play a crucial role in the process of hybridization. In the middle Adriatic island of Vis, we investigated hybridization between Salvia officinalis and S. fruticosa at morphological, genetic and epigenetic levels. SSR results revealed that hybrid individuals were characterized by diploid set of chromosomes suggesting homoploid hybridization. A well-defined group that mostly comprised of F1 generation individuals was detected. For the majority of analysed morphological characteristics, hybrids were placed in-between parental taxa, while at the same time, values of different genetic parameters were mostly higher in hybrids than in parental species. The results revealed a high contrast in the levels of phenotypic variability and epigenetic excitation between parental taxa. Environmental niche modelling confirmed that in the studied location S. officinalis experiences optimal climatological conditions, while S. fruticosa struggles with unsuitable conditions. Very low levels of gene flow between the parental species were detected. In addition, contrasting levels of epigenetic excitation in the studied groups clearly demonstrated the importance of an epigenetic response to an altered environment and confirmed the trans-generational nature of the epigenetic changes. [ABSTRACT FROM AUTHOR]

Published

2019