Prevalence and risk factors of wax moth in bee colonies in the Central and Central-West regions of Burkina Faso: pilot study

Beekeeping is a very old practice in Burkina Faso and has many advantages, including the availability of honey resources, of endogenous knowledge and support from public policies. However, it faces challenges, including health problems, which are poorly documented. This cross-sectional study was conducted between March and May 2019 in the Central and Central-west regions of Burkina Faso to determine the prevalence and risk factors of wax moth in bee colonies. A total of 200 modern hives were visited of which 106 were colonized or previously colonized. Methods of observation and inspection of the hives were used to search for witnesses of the wax moth infestation: eggs, larvae, pupae cocoons, woven silk cloth, gallery in wax or adult butterflies. A pre-tested questionnaire was used to collect information on beekeepers and apiaries characteristics. An inspection sheet was used to record observations made during the inspection of the hives. The results revealed that the average size was 18 hives by apiary. Hives used were Kenyan, Dadant, and rectangular frame hives with a colonization rate of 53%. The overall prevalence of wax moth was 23.6% [15.5-31.7%]. Other predators/pests were observed in 43.4% of the hives, the main ones being beetles (25.5%) and ants (17%). The analysis of the radio adjusted odds ratio showed the absence of risk factors among the modalities of the studied variables. In view of the results of this pilot study, more extensive studies could be carried out to have a better understanding of the epidemiology of the infestation and its possible impact that it can have on honey production

X-rays are as effective as gamma-rays for the sterilization of Glossina palpalis gambiensis Vanderplank, 1911 (Diptera: Glossinidae) for use in the sterile insect technique

Abstract An area-wide integrated pest management strategy with a sterile insect technique (SIT) component requires a radiation source for the sterilisation of male insects. Self-contained gamma irradiators, which were exclusively used in past SIT programmes, are now facing increasing constraints and challenges due to stringent regulations. As a potential alternative, new generation high output X-ray irradiators have been proposed. The feasibility of using X-ray irradiators was assessed by comparing the effects of both gamma- and X-ray irradiators on biological parameters of Glossina palpalis gambiensis (Vanderplank, 1911), that are important for SIT applications. The gamma irradiator Foss Model 812 and two X-ray irradiators, the Rad Source 2400 and the blood irradiator Raycell Mk2 were used. Glossina palpalis gambiensis males were exposed to radiation as pupae. A radiation dose of 110 Gy or above induced more than 97% sterility in females that mated with the irradiated males for all the irradiators. Adult emergence rate, flight propensity, survival and mating performance did not differ between gamma- and X-rays irradiators. These results suggest that irradiating pupae with a dose of 110 Gy is optimal for both gamma-and X-ray irradiators used in this study, to achieve a sterility of approximately 99%. Similar research on other tsetse species could gradually phase out the use of gamma-ray irradiators in favour of X-rays irradiators, especially for smaller SIT programmes