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Cassian Teotimi Mumbi

Bio: Cassian Teotimi Mumbi is an academic researcher. The author has contributed to research in topics: Varroa sensitive hygiene & Infestation. The author has an hindex of 1, co-authored 1 publications receiving 17 citations.

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Journal Article
TL;DR: The study showed that bee colonies were performing well probably that the African honeybees is adaptive and coexist with the mites, and authorities are advised to come up with an urgent monitoring programme to determine mite infestation levels and its effects to honeybee colonies in the managed and feral colonies.
Abstract: Assessment of parasitic mites (Varroa spp) infesting the colonies of African honeybees (Apis mellifera scutellata) was conducted in 25 districts of Tanzania mainland from August, 2010 - May, 2012. The research investigated the occurrence, prevalence and examined diagnostic features of Varroa mite’s infestation in colonies. Purposive sampling was used in each district; three apiaries and hives were randomly selected for inspection. Interviews, direct observation and experimental set up were the main data collection techniques used to gather the information. The results revealed the presence of Varroa mites in honeybee in 23 (92%) out of 25 studied districts. Out of 175 inspected honeybee colonies, 85 (48%) were found infected with mites. Infestation levels showed significant relationship with changing altitudes, being highest (219 mite count) at altitudes ranging between 1201 and 1500 m a.s.l. The study showed that bee colonies were performing well probably that the African honeybees is adaptive and co-exist with the mites. Authorities are advised to come up with an urgent monitoring programme to determine mite infestation levels and its effects to honeybee colonies in the managed and feral colonies.

18 citations


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Journal ArticleDOI
TL;DR: The presence of pathogens, parasites, pests and predators of African honeybees as well as the threats they face in relation to habitat changes arising from the impact of increased human populations are discussed.
Abstract: Honeybee (Apis mellifera L.) pathogens and parasites and the negative effects thereof on honeybee populations remain an issue of public concern and the subject of active research. Africa with its high genetic diversity of honeybee sub-species and large wild population is also exposed to various factors responsible for colony losses in other parts of the world. Apart from the current American foulbrood epidemic in the Western Cape of South Africa, no large-scale colony losses have been reported elsewhere on the continent. We discuss the presence of pathogens, parasites, pests and predators of African honeybees as well as the threats they face in relation to habitat changes arising from the impact of increased human populations. In addition, we discuss current efforts aimed at protecting and promoting the health of African honeybees.

80 citations

Journal ArticleDOI
TL;DR: A high precision classification model is proposed (hit rate over 90%), which can be useful to self-predict healthy, unhealthy, and collapsing bee colony health states.

44 citations

Journal ArticleDOI
TL;DR: A long-term Varroa mite monitoring strategy is recommended in areas of varying landscape and land use factors for a clear understanding of possible changes in mite infestation levels among African honeybees for informed decision making.
Abstract: Varroa mites are ecto-parasites of honeybees and are a threat to the beekeeping industry. We identified the haplotype of Varroa mites and evaluated potential factors that influence their prevalence and infestation levels in the eastern and western highland agro-ecological zones of Uganda. This was done by collecting samples of adult worker bees between December 2014 and September 2015 in two sampling moments. Samples of bees were screened for Varroa using the ethanol wash method and the mites were identified by molecular techniques. All DNA sequences obtained from sampled mite populations in the two zones were 100 % identical to the Korean Haplotype (AF106899). Mean mite prevalence in the apiaries was 40 and 53 % for the western and eastern zones, respectively, during the first sampling. Over the second sampling, mean mite prevalence increased considerably in the western (59 %) but not in the eastern (51 %) zone. Factors that were associated with Varroa mite infestation levels include altitude, nature of apiary slope and apiary management practices during the first sampling. Our results further showed that Varroa mites were spreading from lower to higher elevations. Feral colonies were also infested with Varroa mites at infestation levels not significantly different from those in managed colonies. Colony productivity and strength were not correlated to mite infestation levels. We recommend a long-term Varroa mite monitoring strategy in areas of varying landscape and land use factors for a clear understanding of possible changes in mite infestation levels among African honeybees for informed decision making.

22 citations

Journal Article
TL;DR: Work on the diversity, distribution and abundance of the social bees must be strengthened to address the challenges that are related to these insects in Africa to contribute to answering the challenges of sustainable management of the biodiversity and economic and agricultural issues.
Abstract: Introduction. Meliponini and Apini contribute to the pollination of flowering plants and to improving agricultural yields. These bees' diversity, distribution and abundance depend on the ecosystem in which they evolve. The present work aims to summarize the diversity, distribution, abundance, potential threats, challenges and issues faced with respect to these social bees in Africa. Literature. In Africa, there were 21 species of Meliponini and 2 species of Apini (Apis). Aspects related to the species diversity, distribution, biology, ecology and abundance of nests are poorly documented, especially for Meliponini. This deficit could be related to a lack of interest of the authors or the various difficulties in performing these studies in Africa. With regard to the difficulties, there is a need to clarify the taxonomy of Meliponini, and the observation of nests in certain forest environments is difficult. Nest predation and habitat loss are the main threats that could cause the depopulation of certain social bee species in Africa. If there is currently new evidence that diseases and pests did not endanger these bees, then there is a need for further studies for better assessment of the risks that are associated with these potential threats. Conclusions. Work on the diversity, distribution and abundance of the social bees must be strengthened to address the challenges that are related to these insects in Africa. Indeed, this approach will contribute to answering the challenges of sustainable management of the biodiversity and economic and agricultural issues.

14 citations