Your search keyword '"Rašić, Slađan"' showing total 4 results

1. Genetic Relationships and Signatures of Adaptation to the Climatic Conditions in Populations of Apis cerana Based on the Polymorphism of the Gene Vitellogenin

Author

Ilyasov, Rustem A., primary, Rašić, Slađan, additional, Takahashi, Junichi, additional, Danilenko, Valery N., additional, Proshchalykin, Maxim Y., additional, Lelej, Arkady S., additional, Sattarov, Vener N., additional, Thai, Pham Hong, additional, Raffiudin, Rika, additional, and Kwon, Hyung Wook, additional

Published

2022

2. Genetic Relationships and Signatures of Adaptation to the Climatic Conditions in Populations of Apis cerana Based on the Polymorphism of the Gene Vitellogenin

Author

Ilyasov, Rustem A., Rašić, Slađan, Takahashi, Junichi, Danilenko, Valery N., Proshchalykin, Maxim Y., Lelej, Arkady S., Sattarov, Vener N., Thai, Pham Hong, Raffiudin, Rika, Kwon, Hyung Wook, Ilyasov, Rustem A., Rašić, Slađan, Takahashi, Junichi, Danilenko, Valery N., Proshchalykin, Maxim Y., Lelej, Arkady S., Sattarov, Vener N., Thai, Pham Hong, Raffiudin, Rika, and Kwon, Hyung Wook

Abstract

Simple Summary The Oriental honey bee Apis cerana, similar to the Western honey bee Apis mellifera, is distributed in different climatic conditions, and each of them is subdivided into more than thirty subspecies and ecotypes. Their sustainability depends on adaptations to the local climate conditions. The VG gene is involved in the development, reproduction, labor division, and caste differentiation of honey bees. We found the nucleotide sequences of the VG gene reflect the adaptation of honey bees to the local climate conditions. The VG gene sequences are acceptable tools to study the sustainability, genetic structure, and adaptation of A. cerana populations and can be applied in conservation genetics of local honey bee subspecies. Apis cerana and Apis mellifera are important honey bee species in Asia. A. cerana populations are distributed from a cold, sharply continental climate in the north to a hot, subtropical climate in the south. Due to the Sacbrood virus, almost all A. cerana populations in Asia have declined significantly in recent decades and have recovered over the past five years. This could lead to a shift in the gene pool of local A. cerana populations that could affect their sustainability and adaptation. It was assumed that adaptation of honey bees could be observed by comparative analysis of the sequences of genes involved in development, labor division, and caste differentiation, such as the gene Vitellogenin VG. The VG gene nucleotide sequences were used to assess the genetic structure and signatures of adaptation of local populations of A. cerana from Korea, Russia, Japan, Nepal, and China. A. mellifera samples from India and Poland were used as the outgroup. The signatures of adaptive selection were found in the local population of A. cerana using VG gene sequence analysis based on Jukes-Cantor genetic distances, cluster analysis, dN/dS ratio evaluation, and Tajima's D neutrality test. Based on analysis of the VG gene sequences, Apis cerana kor

Published

2022

3. CSI Pollen: Diversity of Honey Bee Collected Pollen Studied by Citizen Scientists

Author

Brodschneider, Robert, primary, Kalcher-Sommersguter, Elfriede, additional, Kuchling, Sabrina, additional, Dietemann, Vincent, additional, Gray, Alison, additional, Božič, Janko, additional, Briedis, Andrejs, additional, Carreck, Norman L., additional, Chlebo, Robert, additional, Crailsheim, Karl, additional, Coffey, Mary Frances, additional, Dahle, Bjørn, additional, González-Porto, Amelia Virginia, additional, Filipi, Janja, additional, de Graaf, Dirk C., additional, Hatjina, Fani, additional, Ioannidis, Pavlos, additional, Ion, Nicoleta, additional, Jørgensen, Asger Søgaard, additional, Kristiansen, Preben, additional, Lecocq, Antoine, additional, Odoux, Jean-François, additional, Özkirim, Asli, additional, Peterson, Magnus, additional, Podrižnik, Blaž, additional, Rašić, Slađan, additional, Retschnig, Gina, additional, Schiesser, Aygün, additional, Tosi, Simone, additional, Vejsnæs, Flemming, additional, Williams, Geoffrey, additional, and van der Steen, Jozef J.M., additional

Published

2021

4. CSI Pollen: Diversity of Honey Bee Collected Pollen Studied by Citizen Scientists

Author

Brodschneider, Robert, Kalcher-Sommersguter, Elfriede, Kuchling, Sabrina, Dietemann, Vincent, Gray, Alison, Bozić, Janko, Briedis, Andrejs, Carreck, Norman L., Chlebo, Robert, Crailsheim, Karl, Coffey, Mary Frances, Dahle, Bjorn, Gonzalez-Porto, Amelia Virginia, Filipi, Janja, de Graaf, Dirk C., Hatjina, Fani, Ioannidis, Pavlos, Ion, Nicoleta, Jorgensen, Asger Sogaard, Kristiansen, Preben, Lecocq, Antoine, Odoux, Jean-Francois, Ozkirim, Asli, Peterson, Magnus, Podriznik, Blaz, Rašić, Slađan, Retschnig, Gina, Schiesser, Aygun, Tosi, Simone, Vejsnaes, Flemming, Williams, Geoffrey, van der Steen, Jozef J. M., Brodschneider, Robert, Kalcher-Sommersguter, Elfriede, Kuchling, Sabrina, Dietemann, Vincent, Gray, Alison, Bozić, Janko, Briedis, Andrejs, Carreck, Norman L., Chlebo, Robert, Crailsheim, Karl, Coffey, Mary Frances, Dahle, Bjorn, Gonzalez-Porto, Amelia Virginia, Filipi, Janja, de Graaf, Dirk C., Hatjina, Fani, Ioannidis, Pavlos, Ion, Nicoleta, Jorgensen, Asger Sogaard, Kristiansen, Preben, Lecocq, Antoine, Odoux, Jean-Francois, Ozkirim, Asli, Peterson, Magnus, Podriznik, Blaz, Rašić, Slađan, Retschnig, Gina, Schiesser, Aygun, Tosi, Simone, Vejsnaes, Flemming, Williams, Geoffrey, and van der Steen, Jozef J. M.

Abstract

Simple Summary Honey bee colonies collect pollen from plants as a source of nutrients. Diverse diets comprising pollen from many different plant species are beneficial for honey bee colony health, because they contain a greater diversity of nutrients than monofloral diets of one plant species only. Here, we present the results of the COLOSS "CSI Pollen" study on the diversity of pollen collected by honey bee colonies. In this study, beekeepers acted as citizen scientists sampling and analyzing pollen collected by their own colonies. As a simple measure of diversity, beekeepers determined the number of different colors found in pollen samples that were collected in a coordinated and standardized way. The support of 750 beekeepers allowed the collection of information about almost 18,000 pollen samples from many European countries. We found that the pollen samples consistently comprised approximately six different colors in total, of which four colors were abundant. 'Urban' habitats or 'artificial surfaces' were associated with higher pollen color diversity. This investigation highlights seasonal- and land-use-related differences in the pollen supply for honey bees, which affects beekeeping and pollinator health. Determining pollen colors is a simple, useful technique for beekeepers to estimate pollen diversity. A diverse supply of pollen is an important factor for honey bee health, but information about the pollen diversity available to colonies at the landscape scale is largely missing. In this COLOSS study, beekeeper citizen scientists sampled and analyzed the diversity of pollen collected by honey bee colonies. As a simple measure of diversity, beekeepers determined the number of colors found in pollen samples that were collected in a coordinated and standardized way. Altogether, 750 beekeepers from 28 different regions from 24 countries participated in the two-year study and collected and analyzed almost 18,000 pollen samples. Pollen samples contained approximate

Published

2021