Your search keyword '"Jojić, Vida"' showing total 10 results

1. Exploring the phylogenetic signal in the cranial variation of European populations of grayling (Actinopterygii, Salmonidae).

Author

Jojić, Vida, Bajić, Aleksandar, Klisarić, Natasa Barišić, Bugarski-Stanojević, Vanja, Snoj, Aleš, Miljanović, Branko, Askeyev, Oleg, Askeyev, Igor, and Marić, Saša

Subjects

*MITOCHONDRIAL DNA, *GENETIC variation, *SALMONIDAE, *ACTINOPTERYGII, *MICROSATELLITE repeats, *DNA

Abstract

This is a preliminary and exploratory study of cranial variation in European populations of grayling. We investigated the correspondence between size/shape variation of the dorsal (DC), ventral (VC) and occipital (OC) cranium and phylogenetic relationships (inferred from mitochondrial control region - mtDNA CR and microsatellite DNA data) of six grayling populations: three from Balkan phylogenetic clade and two from Caspian phylogenetic clade of the European grayling ThymaHus thymallus and one population of the Adriatic grayling Thymallus aeliani, which until recently was considered the Adriatic phylogenetic clade of T. thymallus. Significant size and shape differences were found between populations in all three cranial views. However, significant size-related shape variation (allometry) was found for DC and VC, but not for OC. The size variation of each cranial view does not contain phylogenetic signal, but size variation of OC is consistent with genetic variation inferred from microsatellite DNA. Regarding shape variation, a significant phylogenetic signal was detected only for OC, and only the shape variation of OC is consistent with the genetic variation inferred from the mtDNA CR. Moreover, the Adriatic grayling T. aeliani (Soca population) was clearly separated from the three T. thymallus populations of the Balkan phylogenetic clade and the two T. thymallus populations of the Caspian phylogenetic clade only at the level of OC. Thus, our results suggest that different cranial regions differ in allometry, reflect phylo(genetic) relationships differently, and exhibit differences in ecophenotypic plasticity, with OC seeming best suited to represent the phylogenetic relationships of the grayling populations studied. [ABSTRACT FROM AUTHOR]

Published

2023

2. Canalization and developmental stability of the yellow-necked mouse (Apodemus flavicollis) mandible and cranium related to age and nematode parasitism.

Author

Jojić, Vida, Čabrilo, Borislav, Bjelić-Čabrilo, Olivera, Jovanović, Vladimir M., Budinski, Ivana, Vujošević, Mladen, and Blagojević, Jelena

Subjects

*SKULL, *APODEMUS, *PARASITISM, *NEMATODES, *NEMATODE infections, *MICE, *MANDIBLE

Abstract

Background: Mammalian mandible and cranium are well-established model systems for studying canalization and developmental stability (DS) as two elements of developmental homeostasis. Nematode infections are usually acquired in early life and increase in intensity with age, while canalization and DS of rodent skulls could vary through late postnatal ontogeny. We aimed to estimate magnitudes and describe patterns of mandibular and cranial canalization and DS related to age and parasite intensity (diversity) in adult yellow-necked mice (Apodemus flavicollis). Results: We found the absence of age-related changes in the levels of canalization for mandibular and cranial size and DS for mandibular size. However, individual measures of mandibular and cranial shape variance increased, while individual measures of mandibular shape fluctuating asymmetry (FA) decreased with age. We detected mandibular and cranial shape changes during postnatal ontogeny, but revealed no age-related dynamics of their covariance structure among and within individuals. Categories regarding parasitism differed in the level of canalization for cranial size and the level of DS for cranial shape. We observed differences in age-related dynamics of the level of canalization between non-parasitized and parasitized animals, as well as between yellow-necked mice parasitized by different number of nematode species. Likewise, individual measures of mandibular and cranial shape FA decreased with age for the mandible in the less parasitized category and increased for the cranium in the most parasitized category. Conclusions: Our age-related results partly agree with previous findings. However, no rodent study so far has explored age-related changes in the magnitude of FA for mandibular size or mandibular and cranial FA covariance structure. This is the first study dealing with the nematode parasitism-related canalization and DS in rodents. We showed that nematode parasitism does not affect mandibular and cranial shape variation and covariance structure among and within individuals. However, parasite intensity (diversity) is related to ontogenetic dynamics of the levels of canalization and DS. Overall, additional studies on animals from natural populations are required before drawing some general conclusions. [ABSTRACT FROM AUTHOR]

Published

2021

3. Geometric vs. traditional morphometric methods for exploring morphological variation of tadpoles at early developmental stages.

Author

Ilić, Marija, Jojić, Vida, Stamenković, Gorana, Marković, Vanja, Simić, Vladica, Paunović, Momir, and Crnobrnja-Isailović, Jelka

Subjects

*TADPOLES, *RANA temporaria, *GENETIC barcoding, *GENETIC distance, *LENGTH measurement, *AMPHIBIANS, *RHIPICEPHALUS

Abstract

We conducted a comparative (2D landmark-based geometric and traditional) morphometric analysis on tadpoles at early developmental stages. Two species of brown frog (Rana dalmatina and R. temporaria) and the common toad (Bufo bufo) were involved, all raised in the laboratory from fertilized eggs collected in their natural habitat. Taxonomic identification was confirmed by the DNA barcoding method with the 16S rRNA sequence as the gene marker. Interested to compare the methodologies for quantification and description of morphological differences among tadpoles of mentioned species, we aimed to: 1) calculate interspecies genetic distances as the most relevant measurement for species differentiation, 2) determine and describe size and shape variation, 3) identify relationships among the analyzed species at the morphological level and 4) assess their classification accuracy. Within the framework of the specified aims, both methodologies produced very similar results, i.e., the smallest divergence was between R. dalmatina and R. temporaria , while the most discriminative were B. bufo and R. temporaria. However, we observed subtle shape variation of the distal region of the tail that was detected only by the geometric morphometrics. Our findings support the following. Geometric morphometric method captures more subtle shape differences that were unable to be recovered from linear measurements. It performs slightly better in classification rate. Although it was not quantified, it stands to reason that there is no difference in time investment between the two approaches. Geometric morphometrics provides more information that can be leveraged to answer further questions and it has a clear advantage in visualizing. [ABSTRACT FROM AUTHOR]

Published

2019

4. Modularity and cranial integration across ontogenetic stages in Martino's vole, Dinaromys bogdanovi.

Author

Klenovšek, Tina and Jojić, Vida

Subjects

*SKULL, *ONTOGENY, *POSTNATAL care, *FACIAL bones, *HYPOTHESIS

Abstract

We explored modularity and morphological integration of the ventral cranium during postnatal ontogeny in Martino's vole (Dinaromys bogdanovi). Two closely related phylogenetic groups, originating from the Central and Southeastern part of the species range in the western Balkans, were considered. As expected, both phylogroups had similar patterns of ontogenetic changes in cranial size and shape variation, modularity and integration. At the level of within individual variation, the hypothesis that the viscerocranial and neurocranial regions are separate modules was rejected, indicating that the hypothesized modules are not developmental, but rather functional. At the level of among individual variation, the viscerocranium and the neurocranium could not be recognized as separate modules at the juvenile stage. The strength of association between the hypothesized modules becomes lower with age which finally results in a clear 2-module organization of the ventral cranium at the adult stage. On the other hand, patterns of morphological integration for the cranium as a whole, the viscerocranium and the neurocranium stay consistent across ontogenetic stages. The developmental mechanism producing integration of the cranium as a whole, as well as integration of the neurocranium, varies throughout postnatal ontogeny. In contrast, we detected the ontogenetic stability of the mechanism responsible for covariation of viscerocranial traits which could provide ongoing flexibility of the viscerocranial covariance structure for high functional demands during lifetime. Findings from our study most likely support the idea of the 'palimpsest-like' model of covariance structure. Moreover, similarity or dissimilarity in the patterns of within and among individual variation in different sets of analyzed traits and comparisons across ontogenetic stages demonstrate how studies on small mammals other than mice can give new insights into postnatal cranial development. [ABSTRACT FROM AUTHOR]

Published

2016

5. B chromosomes and cranial variability in yellow-necked field mice (Apodemus flavicollis).

Author

JOJIĆ, VIDA, BLAGOJEVIĆ, JELENA, and VUJOŠEVIĆ, MLADEN

Subjects

*CHROMOSOMES, *MICE, *MORPHOMETRICS, *CRANIOMETRY, *RODENTS

Abstract

B chromosomes (Bs) are supernumerary chromosomes relative to the standard karyotype. The maintenance of Bs in the yellow-necked field mice (Apodemus flavicollis) was reconsidered by examining their effects on 3 components of cranial variability: canalization, developmental stability, and morphological integration. Bs do not disturb developmental homeostasis in their carriers. Moreover, Bs play a significant role in structuring cranial variation. We suggest that direct interactions between developmental pathways in mice without Bs might be a dominant mechanism for generating covariation of cranial traits, and integration of cranial traits in B carriers could be generated primarily by parallel variation of separate developmental pathways. Integration due to parallel variation is more predisposed to modifications by natural selection than integration caused by direct interactions, which could be beneficial to B carriers under variable environmental conditions. By contributing to the genetic variability of species possessing them, Bs provide themselves with long-term presence in populations. Therefore, the Bs of A. flavicollis should be considered as symbiotic genomic elements. [ABSTRACT FROM AUTHOR]

Published

2011

6. MORPHOLOGICAL INTEGRATION OF THE MANDIBLE IN YELLOW-NECKED FIELD MICE: THE EFFECTS OF B CHROMOSOMES.

Author

Jojić, Vida, Blagojević, Jelena, Ivanović, Ana, Bugarski-Stanojević, Vanja, and Vujošević, Mladen

Subjects

*YELLOW-necked mouse, *ABNORMALITIES in animals, *MANDIBLE, *ANIMAL morphology, *CHROMOSOMES

Abstract

As a complex skeletal organ consisting of 2 functional and developmental units (ascending ramus and alveolar region), the mandible represents a well-established model in morphological integration studies. The concept of morphological integration assumes that developmentally or functionally related traits are more correlated than others and hence evolve together. We compared the level and pattern of mandibular morphological integration between groups of adult yellow-necked field mice (Apodemus flavicollis), with and without B chromosomes (Bs) in a population from Mt. Avala, Serbia. Bs are dispensable supernumerary chromosomes characterized by irregular and non-Mendelian modes of inheritance. The level of morphological integration was higher in animals with Bs. One of the 2 regions of the mandible tested (alveolar region) was significantly more affected by the presence of Bs than the other, with an increase in intensity of integration of 41.61% versus 15.86%. The hypothesis of morphological integration, which postulates disunion of the mandible into 2 distinct functional and developmental modules, was confirmed in animals with Bs. Bs probably have a function because they affect mandible phenotype (although the mechanism is unknown), increase variability within populations, and could lead to selective advantage. [ABSTRACT FROM AUTHOR]

Published

2007

7. Mandibular and cranial modularity in the greater horseshoe bat Rhinolophus ferrumequinum (Chiroptera: Rhinolophidae).

Author

JOJIĆ, Vida, BUDINSKI, Ivana, BLAGOJEVIĆ, Jelena, and VUJOŠEVIĆ, Mladen

Subjects

*HORSESHOE bats, *MAMMAL genetics, *MANDIBULAR nerve, *CRANIAL nerves, *MAMMAL development, *ALLOMETRY, *MAMMALS

Abstract

We report the first evaluation of mandibular and cranial modularity in the greater horseshoe bat (Rhinolophus ferrumequinum). Although some authors found no modular pattern of these morphological structures in mammals, we discovered that traits integration in R. ferrumequinum is not uniform throughout the mandible and cranium, but structured into two distinct modules. Allometry does not affect mandibular and cranial modularity in R. ferrumequinum probably as a result of the low fraction of shape variation explained by size. Observed at the static level, mandible and cranium modularity in this species could be either functional or developmental or both, but we cannot rule out a genetic nature for underlying mandibular and cranial trait interactions. Evolutionary modularity among related taxa is influenced by genetic and functional modularity. Therefore, future studies on cranial integration and modularity at multiple levels of variation may shed more light on these important features of morphological variability in bats, including R. ferrumequinum. [ABSTRACT FROM AUTHOR]

Published

2015

8. A New Aculodes Species (Prostigmata: Eriophyidae) Described from an Invasive Weed by Morphological, Morphometric and DNA Barcode Analyses †.

Author

Vidović, Biljana, Anđelković, Nikola, Jojić, Vida, Cvrković, Tatjana, Petanović, Radmila, Marini, Francesca, Cristofaro, Massimo, and Rector, Brian G.

Subjects

*DNA analysis, *CYTOCHROME oxidase, *GENETIC barcoding, *NOXIOUS weeds, *ACARIFORMES, *ERIOPHYIDAE, *CHEATGRASS brome, *WEEDS

Abstract

Simple Summary: Natural enemies of cheatgrass, an invasive plant in the western USA that is associated with recent increases in destructive wildfires, were sought as part of a classical biological control program targeting that plant. A population of mites was discovered infesting cheatgrass plants in central Bulgaria and determined to be a new species using morphological, morphometric analysis (i.e., measurement of specific body parts) and DNA barcoding (i.e., comparison of DNA sequences in genes shared by all mite species). Without these modern analytical tools, this mite would probably have been considered as the same species as another mite that infests other plants. This new mite species will now be tested to determine if it is suitable for importation and release in the USA as a biological control agent of cheatgrass. A new species of eriophyoid mite, Aculodes marcellisp. nov., was discovered on cheatgrass, Anisantha tectorum (L.) Nevski (syn. Bromus tectorum L.), an annual grass that is native to Eurasia and Northern Africa. This grass was introduced to North America near the end of the 19th century and now is widespread and associated with the observed increases in the size, frequency, and intensity of wildfires in western N. America. In this paper, A. marcellisp. nov., is morphologically described and illustrated. Compared with other Aculodes spp., it differs based on morphology and the sequence of the mitochondrial cytochrome oxidase gene, subunit I (MT-CO1). Results of morphometric analysis showed clear differentiation between A. marcellisp. nov., and the most similar congener, A. altamurgiensis from Taeniatherum caput-medusae. Analysis of MT-CO1 sequence divergence revealed significant levels of genetic variation (17.7%) and supported the results from the morphometric analysis; therefore, it is determined that they are two different species. Aculodes marcellisp. nov., is a new candidate agent for classical biological control of A. tectorum. [ABSTRACT FROM AUTHOR]

Published

2022

9. Cryptic Diversity of the European Blind Mole Rat Nannospalax leucodon Species Complex: Implications for Conservation.

Author

Bugarski-Stanojević, Vanja, Stamenković, Gorana, Jojić, Vida, Ćosić, Nada, Ćirović, Duško, Stojković, Oliver, Veličković, Jelena, and Savić, Ivo

Subjects

*NAKED mole rat, *SPECIES, *PHENOTYPIC plasticity, *DEMOGRAPHIC surveys, *SPECIES diversity, REPRODUCTIVE isolation

Abstract

Simple Summary: Cryptic species, hidden by morphological uniformity, represent a significant part of the diversity in some taxonomic groups, and pose a real challenge for conservation planning. Here, we explore cryptic speciation in blind mole rats of the genus Nannospalax—comprehensively studied mammals for many unusual features (cancer resistance, longevity, etc.). Intensive chromosomal changes are one of these peculiarities. In the European N. leucodon species complex, 25 lineages with different karyotypes have been described, comprising undetected/cryptic species. As some of them are endangered, taxonomic revision is urgent for conservation purposes. Using 36–60-year-old archived teeth samples and newly captured animals, we analysed the nucleotide polymorphism of two mitochondrial gene sequences among 17 out of 25 chromosomal forms—the highest number studied so far—and provided molecular genetic records for 5 of them for the first time. Eleven chromosomal forms were separated into distinct clades in phylogenetic trees. High evolutionary divergence values among several chromosomal forms overlapped with those acquired for higher taxonomic categories. By integrating the results of previous karyological analyses and crossbreeding experiments that revealed complete reproductive isolation of seven chromosomal forms, with our new findings, we propose conservation strategies to preserve their genetic diversity. We explored the cryptic speciation of the Nannospalax leucodon species complex, characterised by intense karyotype evolution and reduced phenotypic variability that has produced different lineages, out of which 25 are described as chromosomal forms (CFs), so many cryptic species remain unnoticed. Although some of them should be classified as threatened, they lack the official nomenclature necessary to be involved in conservation strategies. Reproductive isolation between seven CFs has previously been demonstrated. To investigate the amount and dynamics of genetic discrepancy that follows chromosomal changes, infer speciation levels, and obtain phylogenetic patterns, we analysed mitochondrial 16S rRNA and MT-CYTB nucleotide polymorphism among 17 CFs—the highest number studied so far. Phylogenetic trees delineated 11 CFs as separate clades. Evolutionary divergence values overlapped with acknowledged higher taxonomic categories, or sometimes exceeded them. The fact that CFs with higher 2n are evolutionary older corresponds to the fusion hypothesis of Nannospalax karyotype evolution. To participate in conservation strategies, N. leucodon classification should follow the biological species concept, and proposed cryptic species should be formally named, despite a lack of classical morphometric discrepancy. We draw attention towards the syrmiensis and montanosyrmiensis CFs, estimated to be endangered/critically endangered, and emphasise the need for detailed monitoring and population survey for other cryptic species. [ABSTRACT FROM AUTHOR]

Published

2022

10. A Cryptic Subterranean Mammal Species, the Lesser Blind Mole Rat (Nannospalax leucodon syrmiensis)—Retreated but Not Extinct.

Author

Bugarski-Stanojević, Vanja, Đokić, Marko, Stamenković, Gorana, Barišić Klisarić, Nataša, Stojković, Oliver, Jojić, Vida, and Savić, Ivo

Subjects

*BIODIVERSITY monitoring, *WILDLIFE conservation, *NAKED mole rat, *ANTHROPOGENIC effects on nature, *ENDANGERED species, *GENETIC variation, *BIODIVERSITY conservation

Abstract

Simple Summary: Due to adaptations to a completely subterranean lifestyle, blind mole rats have become an interesting research model for longevity and cancer resistance. The lesser blind mole rat from the genus Nannospalax is additionally characterized by extensive chromosomal changes, with 74 chromosomal forms described. As a result of these changes and of their morphological similarity, their taxonomy is unclear; consequently, many unrecognized species are endangered due to habitat fragmentation and reduction. Their official conservation status is still undefined due to insufficient data. Among the 25 chromosomal forms of N. leucodon in Europe, five have been identified as completely reproductively isolated and genetically divergent cryptic species in Serbia. The most endangered, N. l. syrmiensis, which was described 50 years ago as a group of populations endemic to Serbia, has been declared extinct in the literature. Using nucleotide comparison of two mitochondrial gene segments between old, archived and recently sampled material, we provide evidence that N. l. syrmiensis is not extinct. However, it has disappeared in a large part of its former range, mainly due to urbanization, invasive agriculture, and treatment as a pest. In order to preserve biodiversity, detailed monitoring, population-structure studies, risk assessment and appropriate conservation measures are required. Blind mole rats (genus Nannospalax) attract a great deal of attention because of their cancer resistance and longevity. Due to the high rate of chromosome rearrangements, 74 Nannospalax chromosomal forms have been discovered. The convergence of their external morphology complicates their taxonomy, and many cryptic species remain unrecognized. Thus, the European N. leucodon supersp. is listed in the IUCN Red List of Threatened Species with "Data Deficient" status. It is crucial for the conservation of biodiversity to clarify its taxonomy, to recognize each cryptic species, and assign to them the correct conservation status. Of the more than 20 chromosomal forms described within N. leucodon, five cryptic species occur in Serbia. The most threatened among them—N. l. syrmiensis, described and named 50 years ago in the regions of Srem, Belgrade and Mačva—has been declared extinct in the literature, which may have negative consequences for the conservation of wildlife genetic diversity. Through five years of fieldwork and comparison of 16SrRNA and MT-CYTB gene segments between old, archived teeth and recently collected material, we show that N. l. syrmiensis is not extinct. However, its habitat has been fragmented and reduced, owing primarily to anthropogenic impact. Therefore, detailed surveillance, population-structure studies, risk assessment, and appropriate conservation measures are needed. [ABSTRACT FROM AUTHOR]

Published

2024