Molecular Characterization of Gut Bacterial Flora of Honeybee (Apis Mellifera Adansonii) From Some Selected Apiaries in Ogun State, Nigeria

Research related to physiology and pathology of honey bees in particular Apis mellifera adansonii has attracted a lot of attention. The present study is aimed to determine honeybee (Apis mellifera adansonii) gut microbiome from Apiary in Olabisi Onabanjo University and Osoba Avenue Odo-Epo, Odogbolu Local Government. Twenty (20) honeybees workers (A. mellifera) were collected into a small vile containing sugar powder from the apiary located in OOU and Osoba Avenue at Odo-Epo during rainy season in July and transported to Zoology and Environmental Biology laboratory in OOU and kept in ice-cubes (-50C) till daybreak. Standard microbiological analysis for isolation of bacteria was used, adopting Clinical Laboratory Standard Institute procedures. The phylogenetic analyses based on the 16S rDNA gene were further used to characterize the organism in order to establish relationships among them. The results showed microbiota of the studied samples includes; Cedeca davisae, Cronobacter dublinensis, Enterobacter aerogenes, Kluyvera cryocrescens, Klebsiella oxytoca, Providencia vermicola, Salmonella enteric, Providencia alcalifaciens, Serratia nematodiphila, Pseudomonas plecoqlossicida, Klebsiella michiganensis, Serratia marcenscens, Pseudomonas aeruginosa, Escherichia coli, Aeromonas hydrophila and Enterobacter asburiae. Klebsiella spp. was more abundant and prominent in the digestive guts of honeybee workers both in OOU and Osoba Avenue, Odo Epo. The result of the percentage identity and closest accession of the isolates revealed that, Enterobacter aerogenes had the closest accession number and with highest percentage identity of (99%). The findings from this study showed that microbiota component communities of A. mellifera adansonii in OOU were composed of more Gram-negative bacteria than Gram-positive bacteria in Odo Epo.

Proximate, mineral and melissopalynological analyses of honeys produced by Apis mellifera adansonii maintained at the University of Lagos Apiary

This study focused on the management of established Apis mellifera adansonii colonies, and evaluation of the proximate, mineral, and pollen contents of honeys produced by these bees at the University of Lagos apiary. Two newly established bee colonies were managed using modern hive management techniques. Honeys produced by these colonies were subjected to further laboratory analyses. Proximate composition of honey samples was determined based on the official analysis methods from Association of Official Analytical Chemists (AOAC). Mineral composition was determined quantitatively using atomic absorption spectroscopy (AAS). Melissopalynological analysis was conducted to ascertain the amount, type and origin of pollen present in the samples. On the basis of the proximate composition, colony 1 honey had higher carbohydrate (81.29%), crude fibre (1.43%) and ash contents (0.70%) while colony 2 honey recorded higher protein (2.72%), crude fat (0.17%), moisture content (17.32%) and pH (4.6). Result of the mineral analysis showed that potassium was the most abundant element, while manganese was the least present trace element in both honeys. Investigated honey samples contained 8609 pollen and spore types belonging to 27 families and 29 species. Colony 1 honey had the highest pollen diversity, while colony 2 honey recorded the highest abundance. Hippocratea sp. was the predominant pollen type in colony 1 honey sample while Phyllantus sp. was the secondary dominant species in colony 2 honey. Celastraceae and Rubiaceae were the most dominant families recorded in the investigated honey samples. Investigated honey samples were multifloral, rich in minerals, and met the standard requirements of good honey as recommended by International Honey Commission. The study provided the basis for identification of major plants visited by Apis mellifera honeybees within the apiary. There is a need to conserve the existing flora within the study location, especially those found to be rewarding to Apis mellifera adansonii.

GENETIC DIVERSITY OF HONEYBEE (APIS MELLIFERA ADANSONII) IN IJEBU ENVIRONAS REVEALED BY SIMPLE SEQUENCE REPEAT (SSR) MARKERS

Honeybee Apis mellifera adansonii, dominant honey producing species in Nigeria was subjected to genetic variability studies using Simple Sequence Repeat (SSR) in other to provide the baseline data in Nigeria. Nine (9) Simple Sequence Repeats (SSR) primers were used to assess the genetic diversity in Two (2) worker bees each collected from 22 colonies found in the four apiaries in Ijebu environs of Ogun State. Data collected were subjected to analysis and results showed that six (6) out of nine primers produced 80 reproducible, polymorphic bands while the remaining three (3) were monomorphic. Gene diversity (H ) in total population and magnitude of differentiation among T populations (FST) was 0.430 and 0.340, respectively. Analysis of Molecular Variance (AMOVA) partitioned the total genetic variation as 70% within, 30% among populations. The cluster analysis showed that Ipari-Oke 3 and Odo-Epo 1-8 populations diverged from others which showed they are closer in genetic distances while Ipari-Oke 1 and Odo-Epo 2-5 were newly observed subcluster which represents another subspecies. In conclusion, genetic variations existed amongst the honey worker bees populations in Ogun State.

Apis mellifera adansonii Is the Most Defensive Honeybee in Uganda

Honeybee defensive behaviour is an important trait for selection of honeybees for breeding programs. We evaluated the variation in honeybee defensive behaviour with environmental factors and hive conditions. Factors such as the difference in the agro-ecological zones, colony strength, mean elevation, type of bee hive used, and the vegetation cover were considered. The number of honeybees attacking the researchers’ protective gear within one minute of disturbance was recorded per colony and analyzed. Apis m. adansonii was found to be the most defensive. Variations in the agro-ecological zones, colony strength, and mean elevation were found to significantly influence the defensive behaviour of the honeybees. Honeybee colonies in the Mid North AEZ were the most defensive. The type of bee hive and vegetation cover did not have any influence on the defensive behaviour. From this study, we suggest that selection of honeybees that are less defensive for breeding programs should consider A. m. scutellata and honeybee colonies from West Nile and Southern Highland AEZs at higher elevations.