Your search keyword '"Hanna Honchar"' showing total 5 results

1. Eco-evolutionary processes shaping floral nectar sugar composition

Author

Yicong Liu, Susanne Dunker, Walter Durka, Christophe Dominik, Jonna M. Heuschele, Hanna Honchar, Petra Hoffmann, Martin Musche, Robert J. Paxton, Josef Settele, and Oliver Schweiger

Subjects

Medicine, Science

Abstract

Abstract Floral nectar sugar composition is assumed to reflect the nutritional demands and foraging behaviour of pollinators, but the relative contributions of evolutionary and abiotic factors to nectar sugar composition remain largely unknown across the angiosperms. We compiled a comprehensive dataset on nectar sugar composition for 414 insect-pollinated plant species across central Europe, along with phylogeny, paleoclimate, flower morphology, and pollinator dietary demands, to disentangle their relative effects. We found that phylogeny was strongly related with nectar sucrose content, which increased with the phylogenetic age of plant families, but even more strongly with historic global surface temperature. Nectar sugar composition was also defined by floral morphology, though it was not related to our functional measure of pollinator dietary demands. However, specialist pollinators of current plant-pollinator networks predominantly visited plant species with sucrose-rich nectar. Our results suggest that both physiological mechanisms related to plant water balance and evolutionary effects related to paleoclimatic changes have shaped floral nectar sugar composition during the radiation and specialisation of plants and pollinators. As a consequence, the high velocity of current climate change may affect plant-pollinator interaction networks due to a conflicting combination of immediate physiological responses and phylogenetic conservatism.

Published

2024

2. Signals of adaptation to agricultural stress in the genomes of two European bumblebees

Author

Alex F. Hart, Jaro Verbeeck, Daniel Ariza, Diego Cejas, Guillaume Ghisbain, Hanna Honchar, Vladimir G. Radchenko, Jakub Straka, Toshko Ljubomirov, Thomas Lecocq, Juliana Dániel-Ferreira, Simone Flaminio, Laura Bortolotti, Reet Karise, Ivan Meeus, Guy Smagghe, Nicolas Vereecken, Peter Vandamme, Denis Michez, and Kevin Maebe

Subjects

Bombus, global change, RADseq, population genomics, agricultural intensification, bee decline, Genetics, QH426-470

Abstract

Human-induced environmental impacts on wildlife are widespread, causing major biodiversity losses. One major threat is agricultural intensification, typically characterised by large areas of monoculture, mechanical tillage, and the use of agrochemicals. Intensification leads to the fragmentation and loss of natural habitats, native vegetation, and nesting and breeding sites. Understanding the adaptability of insects to these changing environmental conditions is critical to predicting their survival. Bumblebees, key pollinators of wild and cultivated plants, are used as model species to assess insect adaptation to anthropogenic stressors. We investigated the effects of agricultural pressures on two common European bumblebees, Bombus pascuorum and B. lapidarius. Restriction-site Associated DNA Sequencing was used to identify loci under selective pressure across agricultural-natural gradients over 97 locations in Europe. 191 unique loci in B. pascuorum and 260 in B. lapidarius were identified as under selective pressure, and associated with agricultural stressors. Further investigation suggested several candidate proteins including several neurodevelopment, muscle, and detoxification proteins, but these have yet to be validated. These results provide insights into agriculture as a stressor for bumblebees, and signal for conservation action in light of ongoing anthropogenic changes.

Published

2022

3. Consistency of phenolic profiles with taxonomic distribution and adaptation of birch species (Betula L.) to environmental conditions

Author

Artur Likhanov, Roman Vasylyshyn, Yurii Marchuk, Olexandr Kurdyuk, Hanna Honchar, Oleksandr Borysov, Svitlana Bilous, Boris Yakubenko, and Yahya Al Naggar

Subjects

Ecology, Plant Science, Ecology, Evolution, Behavior and Systematics

Abstract

The phenolic compounds in the leaves of 12 species of birch trees of the subgenera Neurobetula, Betulenta, and Betula were biochemically profiled using HPTLC (De Jong, 1993). The duration of the vegetation period was found to be significantly related to the content of total phenols (r = 0.74) and flavonoids in leaves (r = 0.65). The correlations for Neurobetula plants were 0.86 and 0.91, respectively. The relationship between the duration of the growing season and the concentration of phenolic compounds in Betula plants was inverse (r = -0.84). A cluster analysis of phytochemical profiles revealed that the studied birch species form groups that coincide with the subgenera proposed by De Jong (1993) due to an affinity with the qualitative composition of phenolic compounds. A multiple correlation analysis confirmed the relationship between the qualitative composition of phenolic compounds and the morphological characteristics of the leaves. The results of phytochemical profiling revealed that the qualitative composition of polyphenols in the leaves of 12 birch species is quite specific, allowing the use of individual compounds as additional differential biochemical characters in identifying species and hybrids and studying their potential role in plant adaptation to habitat conditions.

Published

2023

4. Diversity and Trophic Relationships of Functional Groups of Bumblebees (Hymenoptera: Apidae, Bombus Latreille, 1802) in Urban Habitats

Author

Vadim Lyalko and Hanna Honchar

Subjects

0106 biological sciences, education.field_of_study, biology, Article Subject, Ecology, Rare species, Population, Species diversity, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, 010602 entomology, Habitat, Common species, QL1-991, Insect Science, Ruderal species, education, Zoology, Ecology, Evolution, Behavior and Systematics, Bumblebee

Abstract

Species composition, distribution, and trophic relationships of bumblebees are studied in six types of urban habitat: urban parks, botanical gardens, least-disturbed areas within the city, residential areas, and roadsides. Twenty bumblebee species are recorded in the present study. The species composition of bumblebees has changed from 1933 to 2017. Rare species have disappeared from the city—Bombus fragrans, B. cullumanus, and B. jonellus. The core of urban bumblebee communities consists of ecologically plastic species, most of which belong to the functional morphoecological “short-tongued” group (83%). The more specialized “medium-tongued” and “long-tongued” species are less diverse. Their populations make up 14% and 3% of the total bumblebee population. Five most common species, B. lucorum, B. terrestris, B. lapidarius, B. pascuorum, and B. hypnorum, are found at locations of the most noted categories of habitats. One of the main factors affecting the diversity of morphoecological groups of bumblebees in urban conditions is the state of floral resources. The bumblebees are observed feeding on more than 60 plant species of the families Asteraceae, Fabaceae, Lamiaceae, Rosaceae, and Salicaceae in urban environment; however, the insects favored plants of 30 species. The ornamental, ruderal, and some invasive species of plants are significant in bumblebees’ feeding in urban conditions. The resources for bumblebee feeding and sustainable density of nesting sites are rich in quality and quantity only at a few of model urban sites. At these territories, the highest species diversity of bumblebee is recorded, including rare, protected, and vulnerable species. The ecological potential of other studied urban sites is enough to sustain the most ecologically plastic bumblebee species.

Published

2020

5. Conservative surgical treatment with fertility preservation in a young adult with NTRK rearranged spindle cell neoplasm of the uterine cervix

Author

Marco M. Bühler, Hanna Honcharova-Biletska, Chantal Pauli, Dimitrios Chronas, and Kristina Bolten

Subjects

NTRK fusion, Cervical sarcoma, NTRK rearranged tumor, Conservative surgery, Gynecology and obstetrics, RG1-991, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

In depth molecular studies are constantly expanding our understanding and refining the classification of gynecological neoplasms. NTRK rearranged spindle cell neoplasms of the lower genital tract are an emerging entity, of particular interest due to possible targeted treatment with selective kinase inhibitors. Nonetheless, surgery remains the initial treatment of choice. We present the case of a 24-year-old patient suffering from a NTRK rearranged spindle cell neoplasm of the uterine cervix which was treated with a fertility preserving conservative surgical approach.

Published

2023