Intracolonial genetic diversity in honeybee (Apis mellifera) colonies increases pollen foraging efficiency

Abstract A study was conducted on the mitochondrial DNA genetic diversity of feral colonies and swarms of Apis mellifera from ten counties in Utah by sequencing the intergenic region of the cytochrome oxidase (COI-COII) gene region. A total of 20 haplotypes were found from 174 honey bee colony samples collected from 2008 to 2017. Samples belonged to the A (African) (48%); C (Eastern Europe) (43%); M (Western Europe) (4%); and O (Oriental) lineages (5%). Ten African A lineage haplotypes were observed with two unique to Utah among A lineage haplotypes recorded in the US. Haplotypes belonging to the A lineage were observed from six Utah counties located in the southern portion of the State, from elevations as high as 1357 m. All five C lineage haplotypes that were found have been observed from queen breeders in the US. Three haplotypes of the M lineage (n=7) and two of the O lineage (n=9) were also observed. This study provides evidence that honey bees of African descent are both common and diverse in wild populations of honey bees in southern Utah. The high levels of genetic diversity of A lineage honey bee colonies in Utah provide evidence that the lineage may have been established in Utah before the introduction of A lineage honey bees from Brazil to Texas in 1990.

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Genetic diversity among queen bee, worker bees and larvae in terms of retrotransposon movements

10.21203/rs.3.rs-1088751/v1 ◽

2021 ◽

Author(s):

Levent Mercan ◽

Cihat Erdem Bulbul ◽

Sevgi Marakli

Keyword(s):

Genetic Diversity ◽

Apis Mellifera ◽

Close Relationships ◽

Triticum Turgidum ◽

Bombus Terrestris ◽

Model Organism ◽

Evolutionary Relationships ◽

Apis Mellifera Caucasica ◽

Queen Larvae ◽

Honeybee Genome

Abstract Objective Honeybee (Apis mellifera L.) is a model organism, contributing significant effect on global ecology by pollination and examining due to its social behaviour. Methods In this study, barley-specific Sukkula and Nikita retrotransposons were analysed using IRAP (Inter-Retrotransposon Amplification Polymorphism) marker technique, and the relationships between retrotransposon movements and development were also investigated in three different colonies of the Caucasian bee (Apis mellifera caucasica). Furthermore, transposon sequences belonging to Apis mellifera, Bombus terrestris, Triticum turgidum and Hordeum vulgare were also examined to figure out evolutionary relationships. Results For this purpose, a queen bee, five worker bees, and five larvae from each colony were studied. Both retrotransposons were found in all samples in three colonies with different polymorphism ratios (0-100% for Nikita and 0-67% for Sukkula). We also determined polymorphisms in queen-worker (0-83% for Nikita, 0-63% for Sukkula), queen-larvae (0-83% for Nikita, 0-43% for Sukkula) and worker-larvae comparisons (0-100% for Nikita, 0-63% for Sukkula) in colonies. Moreover, close relationships among transposons found in plant and insect genomes as a result of in silico evaluations to verify experimental results. Conclusion This work could be one of the first studies to analyse plant-specific retrotransposons’ movements in honeybee genome. Results are expected to understand evolutionary relationships in terms of horizontal transfer of transposons among kingdoms.

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Protein trophallaxis and the regulation of pollen foraging by honey bees (Apis mellifera L.)

Apidologie ◽

10.1051/apido:19980107 ◽

1998 ◽

Vol 29 (1-2) ◽

pp. 113-126 ◽

Cited By ~ 55

Author(s):

Scott Camazine ◽

Karl Crailsheim ◽

Norbert Hrassnigg ◽

Gene E. Robinson ◽

Bernhard Leonhard ◽

...

Keyword(s):

Apis Mellifera ◽

Honey Bees ◽

Pollen Foraging

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Management tools for genetic diversity in an isolated population of the honeybee (Apis mellifera) in New Zealand

Animal Production Science ◽

10.1071/an21102 ◽

2021 ◽

Author(s):

Gertje E. L. Petersen ◽

Peter F. Fennessy ◽

Peter K. Dearden

Keyword(s):

Genetic Diversity ◽

New Zealand ◽

Apis Mellifera ◽

Isolated Population ◽

Management Tools

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Pollen Collection and Brood Production by Honeybees (Apis mellifera L.) under Chitwan Condition of Nepal

Journal of the Institute of Agriculture and Animal Science ◽

10.3126/jiaas.v26i0.667 ◽

2005 ◽

Vol 26 ◽

pp. 143-148 ◽

Cited By ~ 5

Author(s):

KR Neupane ◽

RB Thapa

Keyword(s):

Apis Mellifera ◽

Rainy Season ◽

Nutritional Deficiencies ◽

Pollen Foraging ◽

Spring Season ◽

Brood Production ◽

Pollen Collection ◽

Bee Colony ◽

Different Seasons ◽

Key Words Honeybees

A study was carried out to investigate pollen foraging, storage and its impact on Apis mellifera L brood production throughout the year under Terai condition of Nepal in 2003-2005. Number of pollen foragers, amount of pollen stored as beebread and brood in the colony differed significantly during different seasons. Number of pollen foragers (117.5 bees/ hive/ 5 min) and amount of pollen as beebread (2439.0 gm/hive) and number of brood (14787.2 brood cells/hive) were the highest during spring season, while the lowest number of pollen foragers (38.1 bees/ hive/5 min.) stored the lowest amount of beebread or pollen store (152.5 gm /hive) and produced the lowest number of brood (3811.7 brood cells/ hive) and bees in rainy season. Autumn, winter and summer seasons were normal for pollen collection and brood production, while starvation and nutritional deficiencies due to the acute shortage of pollen in rainy season was the major reason to decline or collapse the bee population before the honey flow season. Therefore, feeding bees with adequate amount of nutritionally rich pollen during rainy season is essential to maintain a healthy and strong bee colony for the production of higher honey and other hive products. Key words: Honeybees, foraging, pollen, brood, Apis mellifera J. Inst. Agric. Anim. Sci. 26: 143-148 (2005)

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