Population dynamics and breeding patterns of Mastomys natalensis Smith 1932 in irrigated rice in eastern Tanzania

Mulungu, L.S., Ngowo, V., Mdangi, M., Katakweba, A.S., Tesha, P., Mrosso, F.P., Mchomvu, M

Impact of spatio-temporal simulations of rat damage on yield of rice (Oryza sativa L.) and implications for rodent pest management

Rodents often damage crops throughout the growing season, from germination to harvest, thus making it difficult to understand the cumulative effects of rodent damage for crops such as rice that are able to partially compensate for damage. Compensation can make it difficult to understand the impact of variable rodent damage in terms of when the damage occurs, its severity and thus when, whether and how rodent pests should be controlled. The compensatory responses of rice to simulated rat damage carried out at different growth stages and at different spatial levels of severity showed that higher yield was recorded during the wet season in comparison to the dry season. However, yield loss was observed during all cropping stages for all levels of simulated damage for wet and dry season crops, with significant compensation noted at the transplanting [14 days after sowing (DAS)] and vegetative (45 DAS) stages. Only damage at the maturity (110 DAS) stage resulted in significant reductions in rice crop yield. Seasonal differences suggest water availability was an important factor that perhaps enhanced rice production. The ability of rice to compensate for early rodent damage could potentially reduce a farmer's perception of damage. However, failing to control rodents at these earlier crop growth stages could lead to increased rodent populations at the time of maturity when compensatory effects are limited

Domestic Cat (Felis silvestris catus) Urine Odour as a Potential Rodent Management Strategy

The aim of this study was to investigate the effects of cat urine odour extract on rodent pest species to reduce crop losses. Cat urine from the captured cats was drawn using cat catcher. Urinary catheter was inserted into the urethra up to the urinary bladder and a syringe attached to the urinary catheter was used to draw urine which was stored in universal bottles at a temperature below -20ºC. The stored cat urine was directly bound to the maize starch by slowly mixing the urine with the starch until dough was formed which was then granulated. The granules were dried at room temperature and packed in a tight closed jar. Mastomys natalensis of 25 – 40 g were used in this study. Wild captured individuals were acclimatized in a room for 7 days prior to experiment by providing them with food and water. The effect of cat urine odours on rodent pest species was studied in a single box. Camera traps were set at the top of each room in order to monitor rodents’ activities. Our Findings suggests that cat urine odour has a potential to repel rodent pest species whereas female cat urine was more effective than male cat urine. However, more investigations are needed to evaluate its effectiveness under field conditions

Survival and recruitment of the multimammate mouse, Mastomys natalensis (Smith 1834), in a rice agro-ecosystem

We investigated the recruitment and survival of the multimammate mouse, Mastomys natalensis, within irrigated rice and fallow field habitats at different time periods related to rice crop growth stages. Capture-Mark-Recapture data were collected for M. natalensis each month from June 2010 to May 2012, and both recruitment and survival were estimated in relation to land use (irrigated rice or fallow field) within the agro-ecosystem. Higher recruitment and survival were observed in rice fields than in fallow fields suggesting the relationship was compensatory when there was a higher abundance of food resources. In terms of management, farmers in the study area should implement management strategies in rice fields at both transplanting and maturity stages of crop growth in order to maintain recruitment and survival at low levels.The Zonal Agricultural Research and Development Funds (ZARDEF) through Eastern Zone.http://www.degruyter.com/view/j/mamm2017-03-30am2016Mammal Research InstituteZoology and Entomolog

Home ranges, sex ratio and recruitment of the multimammate rat (Mastomys natalensis) in semi-arid areas in Tanzania

Investigation of home ranges, sex ratio and recruitment of the multimammate rat (Mastomys natalensis) in semi-arid areas of Tanzania was conducted in maize and fallow fields using the capture-mark-release (CMR) technique. The aim of this study was to generate useful data for the management of M. natalensis. The relative home range size of M. natalensis was significantly higher during the wet [544 m2±25 standard error (SE)] than during the dry (447 m2 ±18 SE) season, in males (521 m2 ±23 SE) than in females (450 m2 ±17 SE) and in adults (576 m2 ±34 SE) than in juveniles (459 m2 ±16 SE). However, there were no significant differences between habitats. Sex ratio was not significantly different (p=0.44) between habitats. Recruitment was significantly higher (p=0.000) in maize fields (mean=0.43) than in fallow land (mean=0.32) and differed significantly over time (p=0.0001) with the highest recruitment recorded from April to July and the lowest from October to December. Management strategies should focus on managing rodents inhabiting maize fields using methods that affect their recruitment in order to reduce the population increase of M. natalensi

On-farm maize storage systems and rodent postharvest losses in six maize growing agro-ecological zones of Kenya

Rodents are one of the major postharvest pests that affect food security by impacting on both food availability and safety. However, knowledge of the impact of rodents in on-farm maize storage systems in Kenya is limited. A survey was conducted in 2014 to assess magnitudes of postharvest losses in on-farm maize storage systems in Kenya, and the contribution of rodents to the losses. A total of 630 farmers spread across six maize growing agro-ecological zones (AEZs) were interviewed. Insects, rodents and moulds were the main storage problems reported by farmers. Storage losses were highest in the moist transitional and moist mid-altitude zones, and lowest in the dry-transitional zone. Overall, rodents represented the second most important cause of storage losses after insects, and were ranked as the main storage problem in the lowland tropical zone, while insects were the main storage problem in the other AEZs. Where maize was stored on cobs, total farmer perceived (farmer estimation) storage weight losses were 11.1 ± 0.7 %, with rodents causing up to 43 % of these losses. Contrastingly, where maize was stored as shelled grain, the losses were 15.5 ± 0.6 % with rodents accounting for up to 30 %. Regression analysis showed that rodents contributed significantly to total storage losses (p < 0.0001), and identified rodent trapping as the main storage practice that significantly (p = 0.001) lowered the losses. Together with insecticides, rodent traps were found to significantly decrease total losses. Improved awareness and application of these practices could mitigate losses in on farm-stored maize

Evaluation of sweet wormwood (artemisia annua l.) as stored grain protectant against maize storage weevil (sitophilus zeamays, motschulsky) and larger grain borer (prostephanus truncatus, horn) on stored maize grains

African Journal of Science and Research,2016; (5)3:07-10The objectives of the study were to evaluate the effects of Artemisia annua powder on the mortality of S. zeamays and P. truncatus in the treated maize grain. The experiments were set up as a Completely Randomized Design (CRD) with three replications. The experiments were conducted in SUA Pest Management Centre(SPMC) for 8 weeks. The treatments consisted of different levels of natural protectant A. annua powder (viz: 0.5 g, 1.0 g and 10 g) and untreated control. Actellic Super Dust was included as a standard insecticide control. The data collected included the number of dead and live insects, number of damaged maize grains and percentage damage. Grains treated with Actellic dust, and A. annua powder at all tested levels had significantly controlled S. zeamays insect. Maize seeds treated with Actellic Super Dust surpassed other treatments in controlling P. truncatus due to lower number of live insects and damaged seeds. Artemisia annua at 1.0 g and 10 g had an effect on number of damaged seeds and dead insects as compared to the control. Generally, A. annua powder is effective in controlling these tested storage pest species of maize grains

Evaluation of sweet wormwood (artemisia annua l.) as stored grain protectant against maize storage weevil (sitophilus zeamays, motschulsky) and larger grain borer (prostephanus truncatus, horn) on stored maize grains

African Journal of Science and Research,2016; (5)3:07-10The objectives of the study were to evaluate the effects of Artemisia annua powder on the mortality of S. zeamays and P. truncatus in the treated maize grain. The experiments were set up as a Completely Randomized Design (CRD) with three replications. The experiments were conducted in SUA Pest Management Centre(SPMC) for 8 weeks. The treatments consisted of different levels of natural protectant A. annua powder (viz: 0.5 g, 1.0 g and 10 g) and untreated control. Actellic Super Dust was included as a standard insecticide control. The data collected included the number of dead and live insects, number of damaged maize grains and percentage damage. Grains treated with Actellic dust, and A. annua powder at all tested levels had significantly controlled S. zeamays insect. Maize seeds treated with Actellic Super Dust surpassed other treatments in controlling P. truncatus due to lower number of live insects and damaged seeds. Artemisia annua at 1.0 g and 10 g had an effect on number of damaged seeds and dead insects as compared to the control. Generally, A. annua powder is effective in controlling these tested storage pest species of maize grains

Knowledge and attitudes of communities on small mammalian carnivores in Mbomipa wildlife management area, Iringa, Tanzania

African Journal of Science and Research, 2015, (4)6:43-46The term Wildlife Management Area (WMA) refers to an area set aside by village governments and gazetted by the Government for the purpose of conserving natural resources, improving the life standard of communities and alleviating poverty across rural areas in Tanzania. With an area of 771 km2, MBOMIPA is among the three WMA’s bordering Ruaha National Park in Iringa region with large number of animals. However, little has been documented on small mammalian carnivores (SMC) in the area. This study was therefore designed to assess communities’ knowledge and attitudes on trends and threats of SMC in the area. Structured questionnaires were used for collecting information from village game scouts, local tourist hunters (campsite attendants, hunters guide, drivers and tour guides). Eleven SMC species were reported in the current study, viz. Black backed jackal, Aardwolf, Bat eared Fox, Zorilla, Cape clawless otter, Striped weasel, African civet, Wild cat, Caracal, Honey badger, and Banded mongoose. Eighteen respondents reported an increase of SMC despite presence of many threats against their survival. Competition (20.8%) and fire (16.5%) were reported to be the leading factors threatening the SMC in the area. Information gathered from this study was considered important for wildlife managers when implementing conservation activities and future research on SMC

Farmer’s knowledge, attitude and practice on rodent management in lowland irrigated rice in Central-eastern Tanzania

Journal of Plant Science.Rodents are one of the major factors limiting crop production in Central-eastern Tanzania. A quantitative study was conducted at Hembeti village to obtain information on knowledge, attitude and practice of villagers with respect to rodent management. Structured questionnaires were administered to 30 randomly selected farmers and the results obtained were analysed by the SPSS Ver. 12 Computer programme. It was revealed that 80-90% of the farmers cultivate maize and paddy in small fields ranging from 0.5 to 1.5 acres. Rodents were reported to be the leading pests causing 20- 60% crop losses both in fields and stores yearly. Methods used to assess presence of rodents in the area included presence of burrows and unearthed seedlings in fields and damaged grains and rodent noises in stores. It was further found out that farmers were responsible for control of rodents and that 53% and 47 % were using rodenticides and physical killing methods respectively. Financial constraints were reported to be the major factors limiting farmers to acquire and apply rodenticides. Need for training farmers on other management methods basing on ecological approaches was recommended