Browsing by Author "Belmain, Steven R."

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Dietary differences of the multimammate mouse, Mastomys natalensis (Smith, 1834), across different habitats and seasons in Tanzania and Swaziland
(CSIRO PUBLISHING, 2011-11) Mulungu, Loth S.; Mahlaba, Themb’alilahlwa A.; Massawe, Apia W.; Kennis, Jan; Crauwels, Dieter; Eiseb, Seth; Monadjem, Ara; Makundi, Rhodes H.; Katakweba, Abdul A. S.; Leirs, Herwig; Belmain, Steven R.
eastern Africa where it can cause significant crop losses. Mastomys natalensis is known to consume a variety of food in response to the availability of food items. However, it is currently unknown whether maize crop growth stages affect the spatio-temporal diet of this species. Aims. We examined the foods consumed by M. natalensis in different habitats and seasons in central Tanzania and Swaziland. Methods. Diet was investigated in Tanzania in four different habitats (woodland, vegetable gardens, maize fields and fallow land) during different maize crop growth stages between March 2008 and February 2009. In Swaziland, this was conducted in three habitats (fallow land, cultivated fields and pristine land) during three crop growth stages (pre-planting, vegetative stage and post-harvest) between March 2008 and April 2009. Micro-histological examination of undigested fragments from the stomachs of trapped animals was made whereby the preserved stomach content was placed in a Petri dish and sorted using a 25 or 50 magnification binocular stereoscope. Stomach contents were identified as: grain and/or seeds (both grasses and maize), plant material (roots, stems and leaves), invertebrates, pods of seeds, fruits (vegetable fruit such as tomato), animal hairs and unidentified matter. If necessary, a lugol solution was used to determine the presence of starch for maize and grass seeds or grains. Key results. In both countries, grain predominated in the diet of M. natalensis. Statistical analyses showed that there were no differences due to seasons or habitats. Therefore, the percentage volume and relative importance were the same across habitats and seasons in both countries. Conclusions. Our findings highlight clearly that M. natalensis is a generalist species feeding on available resources depending on the season and the habitat. Its preference for grain may account for its abundance in maize plantations and confirms it as one of the major pests in crop plantations, especially grain. Implications. This information offers a useful tool for determining the pest status in different habitats and/or seasons. The findings of this study have implications for agriculture and conservation.
Differences in diet between two rodent species, Mastomys natalensis and Gerbilliscus vicinus, in fallow land habitats in central Tanzania
(2011-10) Mulungu, Loth S.; Massawe, Apia W.; Kennis, Jan; Crauwels, Dieter; Eiseb, Seth; Mahlaba, Themb’alilahlwa A.; Monadjem, Ara; Makundi, Rhodes H.; Katakweba, Abdul A. S.; Leirs, Herwig; Belmain, Steven R.
Differences in the ecological niche requirements among rodent species competing in the same habitat may result from differences in the use of one to three resources: space, time and food or some combination of these. Alternatively, differences in resource use utilization among animal species may simply reflect availability of food, and when food is limited, different animal species compete. In this study, the diet of two rodent pest species, Mastomys natalensis and Gerbilliscus vicinus, coexisting in fallow land in central Tanzania were studied to assess the degree of diet differentiation among them. Dietary niche breadth of G. vicinus was greater than that of M. natalensis in all stages of the maize cropping seasons. The rodent species studied overlapped considerably in the food items consumed ranging from niche overlap (Ojk) of 0.77–0.89. Grains/seeds featured high in the diet of M. natalensis while plant material occurrence was high in G. vicinus. These two food categories may have contributed to differences in diet partitioning, which may, in turn, facilitate their coexistence in fallow land.
Leptospira serovars for diagnosis of leptospirosis in humans and animals in Africa: common leptospira isolates and reservoir hosts
(2015) Mgode, Georgies F.; Machang’u, Robert S.; Mhamphi, Ginethon G.; Katakweba, Abdul; Mulungu, Loth S.; Durnez, Lies; Leirs, Herwig; Hartskeerl, Rudy A.; Belmain, Steven R.
The burden of leptospirosis in humans and animals in Africa is higher than that reported from other parts of the world. However, the disease is not routinely diagnosed in the continent. One of major factors limiting diagnosis is the poor availability of live isolates of locally circulating Leptospira serovars for inclusion in the antigen panel of the gold standard microscopic agglutination test (MAT) for detecting antibodies against leptospirosis. To gain insight in Leptospira serovars and their natural hosts occurring in Tanzania, concomitantly enabling the improvement of the MAT by inclusion of fresh local isolates, a total of 52 Leptospira isolates were obtained from fresh urine and kidney homogenates, collected between 1996 and 2006 from small mammals, cattle and pigs. Isolates were identified by serogrouping, cross agglutination absorption test (CAAT), and molecular typing. Common Leptospira serovars with their respective animal hosts were: Sokoine (cattle and rodents); Kenya (rodents and shrews); Mwogolo (rodents); Lora (rodents); Qunjian (rodent); serogroup Grippotyphosa (cattle); and an unknown serogroup from pigs. Inclusion of local serovars particularly serovar Sokoine in MAT revealed a 10-fold increase in leptospirosis prevalence in Tanzania from 1.9% to 16.9%in rodents and 0.26% to 10.75% in humans. This indicates that local serovars are useful for diagnosis of human and animal leptospirosis in Tanzania and other African countries.
Prevalence of haemoparasites, leptospires and coccobacilli with potential for human infection in the blood of rodents and shrews from selected localities in Tanzania, Namibia and Swaziland
(African Zoology, 2012-02) Katakweba, Abdul A.S.; Mulungu, Loth S.; Eiseb, Seth J.; Mahlaba, Themb’alilahlwa A.; Makundi, Rhodes H.; Massawe, Apia W.; Borremans, Benny; Belmain, Steven R.
The prevalence of haemoparasites, leptospirosis and Yersinia pestis was investigated in rodents and shrews from Tanzania, Namibia and Swaziland. Blood smears originating from rodents and shrews from the three countries indicated the presence of Trypanosoma lewisi (72.7%; n =950), Bacillus spp. (25.6%; n =950), Borrelia sp. (0.01%; n =950) and bipolar coccobacilli (0.01%; n =950). The blood smears from Namibia (n =26) had no haemoparasites while only 1.33% (n =75) of those from Swaziland showed presence of T. lewisi. Leptospira interrogans was found in rodent blood sera from Tanzania in the following serogroup proportions (n =350): Icterohaemorrhagiae (10.29%), Pomona (2.86%), Hardjo (1.14%), Bullum (0.86%), Grippotyphosa (1.43%) and Canicola (1.14%). Serodiagnosis of antibodies against the F1 antigen of Y. pestis using the enzyme linked immunosorbent assay (ELISA) was negative for all the serum samples from central Tanzania, while two samples of serum from two species of rodents, Rhabdomys pumilio and Gerbilliscus leucogaster, collected in the Kavango Region of Namibia were positive. These results suggest an enzootic plague activity in this region in Namibia. It is concluded that zoonotic agents, that are infectious to humans, are prevalent in rodents and shrews in the three countries, and that local communities should apply rodent control measures to reduce the risk of human infections.
Socio-Economic tools for rodent management research: recent experience from Africa and Asia
(ICRBM, 2006) Krebs, Charles; Zhang, Zhibin; Tuat, Nguyen Van; Singleton, Grant; Makundi, Rhodes H.; Hinds, Lyn; Ylönen, Hannu; Leirs, Herwig; Sudarmaji; Belmain, Steven R.; Jacob, Jens; Brown, Peter; Zhang, Jianxu; Avenant, N.L.
The scientific development of anti-coagulant rodenticides led to a complete transformation of rodent pest control services throughout the world. Suddenly it became economically practical to eradicate localised rodent populations in agricultural or urban environments. The success of chronic poisons became doctrine among rodent experts. However, understanding how rodent behaviour was exploited by chronic poisons, the differences between chronic and acute poisons, and the way poisons need to be delivered, continue to be poorly understood by the general public and people attempting to manage their own rodent pest problems. The success of chronic rodenticides has its limitations prescribed by human knowledge, socio-cultural context and, of course, by the nature of the rodent pest problem experienced. In short, our best rodent management tools can and do fail when individuals and experts do not understand the circumstances and tools with which they are attempting to carry out rodent management. Recently completed research to develop ecologically-based rodent management (EBRM) strategies for rural agricultural communities in Bangladesh and South Africa has shown that it is vitally important to understand the knowledge, attitudes and practices (KAP) of people experiencing rodent pest problems. Tools for evaluating ethno-ecology and human behaviour were developed and implemented as part of these EBRM research projects. Community focus groups were used to understand the decision making process and the risks and benefits of rodents and management actions. Resource maps, cropping calendars and decision analysis matrices helped describe the opportunities and constraints experienced by community members; while changes in human behaviour in response to rodent management interventions were monitored through the use of individual KAP survey questionnaires and farmer diaries. By using these socio-economic tools, it was possible to quantify the impact of rodent pests on people’s livelihoods as well as the cost-benefits of new rodent management strategies. Data from these studies showed that communities could cost-beneficially reduce rodent impacts. Participatory approaches of research were adopted which allowed rodent ecology research to be carried out that would not have otherwise been feasible, while at the same time improving knowledge among community members about rodents and appropriate management strategies. The prospects of positive long-term changes in human behaviour were enhanced through using these socio-economic tools. Anthropological and economic studies are essential when trying to understand the impact of rodents on people’s lives. Research in the RatZooMan project studying the role of rodents in the transmission of zoonotic diseases in southern Africa showed that human behaviour and actions are often responsible for the persistence and spread of zoonosis in the environment as well as affecting the individual risk of exposure to disease. Socio- economics also affect people’s health care seeking behaviour, causing delay or inappropriate treatment choices. Witchcraft, curses, superstitions and religion can influence the fundamental knowledge within a community about human disease and can even affect the way in which rodent pest problems are perceived and managed. Scientists who desire to be praised (and not cursed) for their research on rodent pest management would ignore the socio-economic aspects of rodent management at their peri
Spatial and temporal population dynamics of rodents in three geographically different regions in Africa: implication for ecologically-based rodent management
(Tailor & Francis, 2015-04-20) Massawe, Apia W.; Mulungu, Loth S.; Makundi, Rhodes H.; Dlamini, Nomfundo; Eiseb, Seth J.; Kirsten, Frikkie; Mahlaba, Themb’alilahlwa; Malebane, Phanuel; Maltitz, Emil Von; Monadjem, Ara; Taylor, Peter; Tutjavi, Vassana; Belmain, Steven R.
As part of a three-year study to develop ecologically-based rodent management (EBRM) in southern Africa, a capture–mark–recapture study was carried out in Tanzania, Namibia and Swaziland to establish the demographic patterns and population dynamics of rodents. Two study grids were established in each country. In Tanzania, ten species of rodents and one shrew (Crocidura sp.) were identified in the study area. The rodent species consisted of Mastomys natalensis, Aethomys chrysophilus, Arvicanthis neumanni, Gerbilliscus vicina, Acomys spinosissimus, Lemniscomys griselda, Lemniscomys zebra, Rattus rattus, Graphiurus sp. and Mus minutoides. Mastomys natalensis was dominant and contributed more than 70% of the captures. In Namibia, five species were captured, namely Mastomys natalensis, Gerbilliscus leucogaster, Saccostomus campestris, Mus minutoides and Steatomys pratensis. Mastomys natalensis contributed about 50% of the captures. In Swaziland, only M. natalensis was captured in the study grids. There was a clear pattern in the population dynamics, with breeding confined to the wet seasons in the three countries. Mastomys natalensis was the dominant pest species, for which EBRM should focus on. The highest population density of M. natalensis occurred during and after the rains, which coincided with the most susceptible phenological stage of crops. The breeding seasonality and density fluctuations observed in the three countries conform with observations made elsewhere in Africa, which support the hypothesis that rainfall events promote primary productivity on which murid rodents depend. Development of EBRM in these countries will be determined by the local conditions and how they influence the demographic processes of the rodent populations. EBRM should make use of the available ecological knowledge of the local rodent pest species and the focus should be on (ecological) management practices applicable at the community level including community based intensive trapping, field hygiene, removing cover and sources of food for rodents.