Your search keyword '"Sabolić, Iva"' showing total 6 results

1. Relationships between dietary breadth and flexibility in jaw movement: A case study of two recently diverged insular populations of Podarcis lizards

Author

Taverne, Maxime, Decamps, Thierry, Mira, Oscar, Sabolić, Iva, Duarte Da Silva, Joao, Glogoški, Marko, Lisičić, Duje, Štambuk, Anamaria, and Herrel, Anthony

Published

2022

2. Plastic and genomic change of a newly established lizard population following a founder event.

Author

Sabolić, Iva, Mira, Óscar, Brandt, Débora Y. C., Lisičić, Duje, Stapley, Jessica, Novosolov, Maria, Bakarić, Robert, Cizelj, Ivan, Glogoški, Marko, Hudina, Tomislav, Taverne, Maxime, Allentoft, Morten E., Nielsen, Rasmus, Herrel, Anthony, and Štambuk, Anamaria

Subjects

*LIZARD populations, *GENOTYPE-environment interaction, *HERITABILITY, *PHENOTYPIC plasticity, *POPULATION differentiation, *LACERTIDAE, *PHENOTYPES

Abstract

Understanding how phenotypic divergence arises among natural populations remains one of the major goals in evolutionary biology. As part of competitive exclusion experiment conducted in 1971, 10 individuals of Italian wall lizard (Podarcis siculus (Rafinesque‐Schmaltz, 1810)) were transplanted from Pod Kopište Island to the nearby island of Pod Mrčaru (Adriatic Sea). Merely 35 years after the introduction, the newly established population on Pod Mrčaru Island had shifted their diet from predominantly insectivorous towards omnivorous and changed significantly in a range of morphological, behavioural, physiological and ecological characteristics. Here, we combine genomic and quantitative genetic approaches to determine the relative roles of genetic adaptation and phenotypic plasticity in driving this rapid phenotypic shift. Our results show genome‐wide genetic differentiation between ancestral and transplanted population, with weak genetic erosion on Pod Mrčaru Island. Adaptive processes following the founder event are indicated by highly differentiated genomic loci associating with ecologically relevant phenotypic traits, and/or having a putatively adaptive role across multiple lizard populations. Diverged traits related to head size and shape or bite force showed moderate heritability in a crossing experiment, but between‐population differences in these traits did not persist in a common garden environment. Our results confirm the existence of sufficient additive genetic variance for traits to evolve under selection while also demonstrating that phenotypic plasticity and/or genotype by environment interactions are the main drivers of population differentiation at this early evolutionary stage. [ABSTRACT FROM AUTHOR]

Published

2024

3. Marine Pollutant Tributyltin Affects DNA Methylation and Fitness of Banded Murex (Hexaplex trunculus) Populations.

Author

Šrut, Maja, Sabolić, Iva, Erdelez, Anita, Grbin, Dorotea, Furdek Turk, Martina, Bakarić, Robert, Peharda, Melita, and Štambuk, Anamaria

Subjects

METHYLATION, DNA methylation, POPULATION differentiation, TRIBUTYLTIN, POLLUTANTS, GENETIC variation

Abstract

Banded murex, Hexaplex trunculus, is a marine gastropod whose reproductive fitness can be severely affected by very low concentrations of antifouling compound tributyltin (TBT). TBT has strong xenoandrogen impacts on snails, causing the development of imposex (e.g., the superimposition of male sexual characteristic in females), thereby affecting the fitness of entire populations. TBT is also known as a DNA-demethylating agent and an obesogenic factor. The aim of this study was to unravel the interactions between TBT bioaccumulation, phenotypic responses, and epigenetic and genetic endpoints in native populations of H. trunculus. Seven populations inhabiting environments along the pollution gradient were sampled in the coastal eastern Adriatic. These included sites of intense marine traffic and boat maintenance activity and sites with low anthropogenic impact. Populations inhabiting intermediately and highly polluted sites exhibited higher TBT burdens, higher incidences of imposex, and higher wet masses of snails than populations in lowly polluted sites. Other morphometric traits and cellular biomarker responses did not show clear differentiation among populations in relation to marine traffic/pollution intensity. An analysis of methylation sensitive amplification polymorphism (MSAP) revealed environmentally driven population differentiation and higher epigenetics than genetic within-population diversity. Moreover, decreases in genome-wide DNA methylation coincided with the imposex level and snail mass, suggesting an epigenetic background of the animal phenotypic response. [ABSTRACT FROM AUTHOR]

Published

2023

4. Incorporating evolutionary based tools in cephalopod fisheries management.

Author

Sabolić, Iva, Baltazar-Soares, Miguel, and Štambuk, Anamaria

Subjects

*FISHERY management, *COMMON octopus, *ECOLOGICAL disturbances, *MARINE ecology, *CEPHALOPODA, *MARKETPLACES, *MARINE natural products

Abstract

With gradual decline of global finfish resources, fisheries targeting cephalopods expanded. Yet, the stock assessment and management practice are frequently lacking, and existing ones often remain poorly suited for cephalopod unique life-history. In light of increasing ecological disturbances in marine ecosystems worldwide, assessing exploited species' status and response becomes vital for devising effective strategies that would ensure their sustainable management. There is generally scarce understanding of the way fisheries and other environmental stressors exert their combined effects on cephalopods stock dynamic and long-term resilience. To that end, evolutionary-based population studies that inform on identity, connectivity and adaptive potential of natural populations present a unique opportunity for assessing the viability of exploited cephalopod stocks. Such studies have been revolutionized in the last decade by proliferation of next generation sequencing technologies. They offer new avenues for expanding our knowledge, especially on population structure and the evolutionary responses to shifts in environmental pressures. In this paper we elaborate on how deep genomic insights into demographic and evolutionary status of fished cephalopods could improve their stock assessment and management practice. We also propose that the common octopus Octopus vulgaris would be a suitable model species to test the power of evolutionary tools to inform fishery scientists and managers on biological questions relevant for their sustainable exploitation. [ABSTRACT FROM AUTHOR]

Published

2021

5. Proximate and ultimate drivers of variation in bite force in the insular lizards Podarcis melisellensis and Podarcis sicula.

Author

Taverne, Maxime, King-Gillies, Nina, Krajnović, Maria, Lisičić, Duje, Mira, Óscar, Petricioli, Donat, Sabolić, Iva, Štambuk, Anamaria, Tadić, Zoran, Vigliotti, Chloé, Wehrle, Beck, and Herrel, Anthony

Subjects

LIZARDS, FORAGING behavior, ISLANDS

Abstract

Bite force is a key performance trait in lizards because biting is involved in many ecologically relevant tasks, including foraging, fighting and mating. Several factors have been suggested to impact bite force in lizards, such as head morphology (proximate factors), or diet, intraspecific competition and habitat characteristics (ultimate factors). However, these have been generally investigated separately and mostly at the interspecific level. Here we tested which factors drive variation in bite force at the population level and to what extent. Our study includes 20 populations of two closely related lacertid species, Podarcis melisellensis and Podarcis sicula , which inhabit islands in the Adriatic. We found that lizards with more forceful bites have relatively wider and taller heads, and consume more hard prey and plant material. Island isolation correlates with bite force, probably by driving resource availability. Bite force is only poorly explained by proxies of intraspecific competition. The linear distance from a large island and the proportion of difficult-to-reduce food items consumed are the ultimate factors that explain most of the variation in bite force. Our findings suggest that the way in which morphological variation affects bite force is species-specific, probably reflecting the different selective pressures operating on the two species. [ABSTRACT FROM AUTHOR]

Published

2020

6. Biomarker response of Mediterranean mussels Mytilus galloprovincialis regarding environmental conditions, pollution impact and seasonal effects.

Author

Grbin, Dorotea, Sabolić, Iva, Klobučar, Goran, Dennis, Stuart R., Šrut, Maja, Bakarić, Robert, Baković, Vid, Brkanac, Sandra Radić, Nosil, Patrik, and Štambuk, Anamaria

Abstract

The complexity of seasonally and spatially variable environments, coupled with complex biological interactions, makes it difficult to pinpoint biological responses to specific environmental stressors, including chemical pollution. To disentangle causative factors and reveal biomarker responses, we applied biomarker-based multivariate approaches to 15 native populations of Mediterranean mussel Mytilus galloprovincialis in spring and autumn. In addition, we used a subset of these populations in transplant experiments between clean and polluted environments in nature and in lab mesocosms. The extent of biomarker responses in native populations is affected by season, and significantly lower variability across seasons was observed among mussels from clean than from polluted sites. Results of paired block designed transplant experiment demonstrated both regional and pollution effect, with mussels uniformly exhibiting higher responses on more impacted sites in each of the Adriatic regions. Biomarker status of mussels varied among Adriatic regions in dependence on the set of environmental variables, and between clean and polluted sites in dependence on measured concentrations of metals in mussels' tissue. Results of the mesocosm experiment revealed distinctive biomarker responses of two populations of different origin when exposed to common conditions. Multivariate description of biomarker activity and application of specific experiments allowed us to link environmental condition, exposure to pollution and seasonality to mussels' biomarker responses. Unlabelled Image • Responses to environmental stressors are studied by multibiomarker approach. • Biomarker and environmental data are integrated through multivariate analyses. • Interaction between seasonal and pollution effects is shown in native populations. • Population effect is observed thanks to a mesocosm experiment. • Effects of specific factors on the biomarker status are distinguished. [ABSTRACT FROM AUTHOR]

Published

2019