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Development of contraceptive vaccines for the control of rodents and other mammalsHirschhorn, Daniel 06 July 2011 (has links)
Not available / text
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Rattus tanezumi in the upland rice terraces of Banaue, Philippines: demography, habitat use, crop damage and yield assessment.Miller, Rachel Weslie, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW January 2007 (has links)
Rodents cause significant damage to agricultural crops throughout the world, including rice, the staple food for the increasing population of Southeast Asia. Little is known about the ecology of pest rodent species, resulting in much effort being concentrated on ineffective, time consuming control practices. This research was designed to understand the demography and habitat use of the major pest rodent (Rattus tanezumi) of the Banaue rice terraces in order to identify the most efficient time and location to undertake pest control. Rodent crop damage and associated yield loss was also assessed in order to provide information for a cost : benefit analysis of rodent control practices. And the beliefs, perceptions and practices of Banaue rice farmers were investigated to assist in identifying future compatible rodent control programs. Replicated cage trapping was undertaken for a twelve month period over the entire rice cropping season in two study sites in the Municipality of Banaue Philippines. The breeding season of R. tanezumi corresponded with periods of food availability from the transplanted to ripening stages of the rice crop. A non-breeding season occurred from the fallow to seedling stages. The distinct breeding season occurred within the rice fields and adjacent village and scrub habitats. Radio-tracked and spool-and-line tracked R. tanezumi moved from adjacent habitats into the rice field during the breeding season, and individuals persisted in all habitat types, including the rice field, during the fallow, nonbreeding season. Overall rice yield was significantly greater (43%) in areas where rodents were excluded by fencing compared to areas where rodents were not excluded. More rodent damage to rice tillers occurred at the booting than at the ripening stage of the rice crop. These results suggest that to prevent rodent damage, control should be undertaken at the end of the R. tanezumi non-breeding season (prior to transplanting), before rodent numbers multiply and crop damage occurs. Further, the cost-benefit analysis of non-chemical rodent control programs in Banaue, suggests that benefits accrue once yield loss is likely to exceed 5%.
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Rattus tanezumi in the upland rice terraces of Banaue, Philippines: demography, habitat use, crop damage and yield assessment.Miller, Rachel Weslie, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW January 2007 (has links)
Rodents cause significant damage to agricultural crops throughout the world, including rice, the staple food for the increasing population of Southeast Asia. Little is known about the ecology of pest rodent species, resulting in much effort being concentrated on ineffective, time consuming control practices. This research was designed to understand the demography and habitat use of the major pest rodent (Rattus tanezumi) of the Banaue rice terraces in order to identify the most efficient time and location to undertake pest control. Rodent crop damage and associated yield loss was also assessed in order to provide information for a cost : benefit analysis of rodent control practices. And the beliefs, perceptions and practices of Banaue rice farmers were investigated to assist in identifying future compatible rodent control programs. Replicated cage trapping was undertaken for a twelve month period over the entire rice cropping season in two study sites in the Municipality of Banaue Philippines. The breeding season of R. tanezumi corresponded with periods of food availability from the transplanted to ripening stages of the rice crop. A non-breeding season occurred from the fallow to seedling stages. The distinct breeding season occurred within the rice fields and adjacent village and scrub habitats. Radio-tracked and spool-and-line tracked R. tanezumi moved from adjacent habitats into the rice field during the breeding season, and individuals persisted in all habitat types, including the rice field, during the fallow, nonbreeding season. Overall rice yield was significantly greater (43%) in areas where rodents were excluded by fencing compared to areas where rodents were not excluded. More rodent damage to rice tillers occurred at the booting than at the ripening stage of the rice crop. These results suggest that to prevent rodent damage, control should be undertaken at the end of the R. tanezumi non-breeding season (prior to transplanting), before rodent numbers multiply and crop damage occurs. Further, the cost-benefit analysis of non-chemical rodent control programs in Banaue, suggests that benefits accrue once yield loss is likely to exceed 5%.
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Rattus tanezumi in the upland rice terraces of Banaue, Philippines: demography, habitat use, crop damage and yield assessment.Miller, Rachel Weslie, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW January 2007 (has links)
Rodents cause significant damage to agricultural crops throughout the world, including rice, the staple food for the increasing population of Southeast Asia. Little is known about the ecology of pest rodent species, resulting in much effort being concentrated on ineffective, time consuming control practices. This research was designed to understand the demography and habitat use of the major pest rodent (Rattus tanezumi) of the Banaue rice terraces in order to identify the most efficient time and location to undertake pest control. Rodent crop damage and associated yield loss was also assessed in order to provide information for a cost : benefit analysis of rodent control practices. And the beliefs, perceptions and practices of Banaue rice farmers were investigated to assist in identifying future compatible rodent control programs. Replicated cage trapping was undertaken for a twelve month period over the entire rice cropping season in two study sites in the Municipality of Banaue Philippines. The breeding season of R. tanezumi corresponded with periods of food availability from the transplanted to ripening stages of the rice crop. A non-breeding season occurred from the fallow to seedling stages. The distinct breeding season occurred within the rice fields and adjacent village and scrub habitats. Radio-tracked and spool-and-line tracked R. tanezumi moved from adjacent habitats into the rice field during the breeding season, and individuals persisted in all habitat types, including the rice field, during the fallow, nonbreeding season. Overall rice yield was significantly greater (43%) in areas where rodents were excluded by fencing compared to areas where rodents were not excluded. More rodent damage to rice tillers occurred at the booting than at the ripening stage of the rice crop. These results suggest that to prevent rodent damage, control should be undertaken at the end of the R. tanezumi non-breeding season (prior to transplanting), before rodent numbers multiply and crop damage occurs. Further, the cost-benefit analysis of non-chemical rodent control programs in Banaue, suggests that benefits accrue once yield loss is likely to exceed 5%.
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Community-based rodent control in Regae (Limpopo Province, South Africa)Tshwana, Modise Philemon. January 2011 (has links)
Thesis (MTech. degree in Agriculture.)--Tshwane University of Technology, 2011. / Using the Participatory Extension Approach adopted by the Limpopo Department of Agriculture, this study documented the development, implementation and impact of a community-based rodent control strategy at Regae in Limpopo Province. The results of a homestead survey and the trapping of rodents in dwellings, home gardens and fields confirmed the severity of the rodent problem in the village, which was caused by Rattus rattus, Mus musculus, Mus minutoides, Mastomys coucha and Rhabdomys pumilio.
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Rodent damage control in commercial forestry in the Natal Midlands, South Africa.Taylor, Stuart. January 1996 (has links)
Rodents cause damage in commercial forests by gnawing at the bark of the trees. It is currently
estimated that rodent damage in commercial forestry costs the industry R50 million per annum.
The species of rodents which cause the damage are not known, neither is the reason behind this
behaviour. Through stomach analysis it has been established that 3 species are involved Otomys
irroratus, Rhabdomys pumilio and Mastomys natalensis, however this behaviour is confined to the
winter. Chemical analysis of the bark reveals that the percentage concentration of nitrogen varies
seasonally. The period of high concentration correlates with periods when the natural food of the
rodents is restricted and when bark gnawing is most prevalent. In the past the industry's response
to the damage has been to treat the areas with rodenticides. Using standard CMR methods, the two
commercially-licensed rodenticides and raptor perches were tested to examine their efficacy as
rodent control strategies. It was found that at a lower application of I block of rodenticide every
third tree there is little difference in the effectiveness of the rodenticide brands and there is also
little reduction in the abundance of the rodents. At a higher application rate of I block per tree, the
abundance of rodents is reduced but termination of the treatment results in the rodent numbers
quickly recovering, indeed they surpassed their original population numbers within 4 months.
Apart from the environmental dangers of applying such concentrations of poison, this is clearly an
uneconomic solution. My results indicate that at first planting, the sites should be provisioned with
raptor perches at a density of 16 ha⁻².
Contrary to accepted policy the perches do not require cross
pieces, which add to the expense and offer no advantage in raptor residency time. In areas of very
high rodent abundance the provisioning of tree collars provide physical protection to the trees. An
additional benefit of the collars is that the collars cause a beneficial microclimate around the tree
which enhances its growth rate. When the tree is around 2 years old it should be pruned to a height of I ffi, the slash being left in the inter-row. Results show that trees treated in such a way
experience no further attack and the rodents browse on the prunings. As the cost of the perches is
reduced and the cost of pruning is non-recurring the recommendations provide an economical and
environmentally sympathetic alternative to rodenticide application. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1996.
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Response of rodents to land use gradients in small-holder farms in Northern Limpopo: implications for ecologically-based rodent management (EBRM)Nembudani, Nkhumeleni Lesly 18 September 2017 (has links)
MENVSC / Department of Ecology and Resource Management / Rodents can quickly respond to land use changes whether the change positively or negatively
influences their life. In the case of positive influence, rodents exploit the additional food resources
and increase their numbers to potential pest level, especially in the absence of predators. Such a
population increase can potentially be harmful to humans due to the diseases that rodents carry and
the costs due to damage to crops, stored foods and personal possessions that they may cause to small
holder farmers. Small holder farmers live in a mixed landscape that is constantly changing. Such
changes are changes in land use and they do not only affect rodent population dynamics and species
composition, but also their ecosystem services and integrity. Understanding how rodents respond to
these land use changes (crop, grazing and settlement) will not only improve the implementation of
Ecologically Based Rodent Management (EBRM), but might also enable the monitoring of
ecosystem integrity. Rodent trapping was conducted in two different study sites which experience
different rainfalls during wet and dry season. A 70 m x 70 m grid was set in three different land uses
(crops, grazing and settlement) per study site. A mark-recapture technique was applied and all
captures were processed on a temporal station on site. In all grids at a distance of 30 m a line of 20
snap traps were set. With the tapping effort of 1470 trap nights per season for both seasons in this
study we captured 839 rodents and 2 shrews, which represented 469 individual rodents and 1
individual shrew. At Vyeboom, cropping land use had the highest number capture (210) and the
highest in species richness (9) rodent species and 1 shrew. The settlement land use was second at 144
captures for 8 rodent species and lastly the grazing land use at 80 captures with 7 rodent species. On
the other hand, at Ka-Ndengeza also cropping land use had the highest capture (186) with highest
richness at 7 rodent species. When it comes to settlement and grazing, settlement was second (129)
to cropping in terms of the number of capture but last in terms of richness (5) whilst grazing was last
in terms of number of captures 92 and second in terms of richness (6). Despite the high diversity of
rodents, only Mastomys natalensis, Gerbilliscus leucogaster, Steatomys pratensis and Rattus rattus
were captured in meaningful sample sizes to allow for robust density estimation. Similarly there
were strong seasonal effects on rodent captures, with almost no captures during the wet season.
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