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Some comparative tests of fly sprays, fly repellents, and the insect electrocutor as a means of control of the common flies on dairy cattle in the college dairy barnRedding, Willard Virgil January 2011 (has links)
Typescript, etc. / Digitized by Kansas State University Libraries
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Investigations on the control of the common biting flies on dairy cattle by means of some new fly spray formulaeHolmes, Floyd Arthur January 1941 (has links)
No description available.
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The relative efficiency of several sprays for repelling stable flies on dairy cattle in the field and for controlling house flies in the barnBorgmann, August Russell. January 1942 (has links)
LD2668 .T4 1942 B6 / Master of Science
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Report of the fly control campaign in Manhattan, Kansas, 1950Burkhardt, Christian Carl. January 1951 (has links)
Call number: LD2668 .T4 1951 B85 / Master of Science
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A turntable method for testing liquid household insecticides against house flies.Sullivan, William Nicholas 01 January 1938 (has links) (PDF)
No description available.
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Toxicity of Rabon to house fly larvae : bioassay of manure from chickens fed encapsulated formulations.Mkwaila, Barron 01 January 1971 (has links) (PDF)
No description available.
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The isolation and identification of a natural fly attractantJames, Richard Ernest January 2011 (has links)
Digitized by Kansas Correctional Industries
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Tsetse control, agricultural expansion and environmental change in NigeriaBourn, David January 1983 (has links)
A brief account of the history of government organised tsetse and trypanosomiasis control in Nigeria is presented, and major features of the tsetse eradication programme are summarised. The achievements are considered in the context of widespread environmental change, brought about by an increasing human population, and a long term process of agricultural expansion, which have resulted in an overall reduction in natural tsetse habitats and hosts, and led to a general decline in tsetse populations. A comparison of two areas, one within, and the other outside the tsetse eradication zone, showed that they had both experienced similar rates of change in land use, and available information indicated that human and cattle populations had also increased at similar rates. The present day distribution and abundance of tsetse and cattle in a region of the Nigerian sub-humid zone, not yet reached by the tsetse eradication programme, are described. In the virtual absence of wildlife, abundance of cattle, and concentration of the two riverine tsetse species at crossing points, it was concluded that tsetse were largely dependent on cattle and/or man for their survival. The low density of riverine tsetse populations, their restricted distribution and their low infection rates, combined with Fulani herd management practices, which limited the period of contact between tsetse and cattle, indicated that under the prevailing conditions, trypanosome challenge was likely to be very low. It is suggested that this situation was typical for many areas within the sub-humid zone, and that in the future, similar conditions are likely to become even more widespread. It is concluded that, whilst government trypanosomiasis control programmes must have contributed to the general decline of the disease which has taken place, the environmental context within which they were mounted, has changed significantly. Over the past fifty years human population has almost certainly increased three or four fold, and the extent and intensity of both farming and hunting have increased commensurately. This has resulted in an overall reduction in natural tsetse habitats and hosts, which has led to a decline in vector populations. It is argued that this, together with a trend for Fulani and their cattle to become more sedentarised, has brought about a fundamental change in the balance of relationships in the vector-host-disease complex, which has favoured the development of appropriate immune responses in Fulani cattle, and the selection of less pathogenic strains of trypanosome.
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An analysis of muscoid fly monitoring techniques with emphasis on the role of visual perceptionBeck, Andrew Francis January 1982 (has links)
Naive observers are found to estimate numbers of dots on projected slides with a consistent factor of underestimation of ca. 0.75. There is an overall difference in response between males and females and between more experienced and less experienced observers. There is an apparent trade-off between accuracy and precision when significant differences in response are recorded. Training observers with slides of revealed value alone is equally effective as a combination of slides and a reference pamphlet: both produce improvements in accuracy and precision.
A subjective visual index of house fly abundance is found to be more sensitive than Scudder grill counts, spot cards, sticky tape traps or square-foot panels to changes in house fly population densities. None of these methods is consistently the best correlated to the visual index, although the square-foot panels were most highly correlated most often. / Ph. D.
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Modelling the control of tsetse and African trypanosomiasis through application of insecticides on cattle in Southeastern UgandaKajunguri, Damian 03 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: In Uganda, cattle are an important reservoir of Trypanosoma brucei rhodesiense, a parasite
that causes human African trypanosomiasis or sleeping sickness. We developed mathematical
models to examine the transmission of T. b. rhodesiense by tsetse vector species,
Glossina fuscipes fuscipes in a host population that consists of humans, domestic and wild
mammals, and reptiles. The models were developed and analysed based on the situation in
Tororo district in Southeastern Uganda, where sleeping sickness is endemic and which has a
cattle and human population of 40, 000 and 500, 000, respectively. Assuming populations of
cattle and humans only, the impact of mass chemoprophylaxis and vector control through
insecticide-treated cattle (ITC) is evaluated. Keeping 12% or 82% of the cattle population
on insecticides that have an insecticidal killing effect of 100% at all times or trypanocides
that have 100% efficacy, respectively, can lead to the control of T. b. rhodesiense in both
humans and cattle. Optimal control of T. b. rhodesiense is shown to be achieved through
ITC alone or a combination of chemoprophylaxis and ITC, the former being the cheapest
control strategy. Allowing for the waning effect of insecticides and including wildhosts,
T. b. rhodesiense control can be achieved by keeping 21% or 27% of the cattle population
on insecticides through whole-body or restricted application, respectively. Restricting
the treatment of insecticides to adult cattle only would require 24% or 33% of the adult
cattle population to be kept on insecticides through whole-body or restricted application,
respectively, to control T. b. rhodesiense. A cost-effectiveness and benefit-cost analysis of
using ITC to control T. b. rhodesiense show that restricted application of insecticides is
a cheaper and more beneficial strategy compared to whole-body treatment. The results of
the study show that the restricted application of insecticides on cattle provides a cheap,
safe and farmer-based strategy for controlling tsetse and trypanosomiasis. / AFRIKAANSE OPSOMMING: In Uganda is beeste ’n belangrike reservoir van Trypanosoma brucei rhodesiense, ’n parasiet
wat tripanosomiase of slaapsiekte in mense veroorsaak. Ons het wiskundige modelle ontwikkel
wat die oordrag van T. b. Rhodesiense deur tesetse vektor spesies, Glossina fuscipes
fuscipes in ’n draer populasie wat bestaan uit mense, mak en wilde diere en reptiele, ondersoek.
Die modelle was ontwikkel en geanaliseer gebaseer op die oordrag situasie in die
Tororo distrik in Suidoostelike Uganda, ’n gebied waar slaapsiekte endemies is en wat ’n
populasie van 40, 000 beeste en 500, 000 mense het. Die impak van massa chemoprofilakse
en vektor beheer deur insekdoder-behandelde beeste is gevalueer onder die aanname van
bees en mens populasies alleenlik. Beheer oor T. b. Rhodesiense in beide mense en beeste
kan verkry word deur of 12% van die bees populasie te behandel met ’n insekdoder wat
100% effektief is ten alle tye of 82% van die bees populasie te behandel met tripanosiedes
wat 100% effektief is. Daar is aangetoon dat optimale beheer van T. b. Rhodesiense
bereik kan word deur die gebruik van insekdoders alleenlik of ’n kombinasie van insekdoders
en chemoprofilakse, hoewel eersgenoemde die goedkoopste strategie is. Wanneer die
kwynende effek van insekdoders asook wilde diere as draers in ag geneem word, kan T.
b. Rhodesiense beheer verkry word deur 21% van beeste se hele liggaam met insekdoders
te behandel of 27% gedeeltelik te behandel. As slegs volwasse beeste met insekdoders
behandel word, moet 24% se hele liggaam of 33% gedeeltelik behandel word vir beheer
van T. b. Rhodesiense. ’n Koste-effektiwiteit en voordeel-koste analise van insekdoders as
beheermaatstaf vir T. b. Rhodesiense toon aan dat gedeeltelike behandeling van die bees
se liggaam die goedkoper en meer voordelige strategie is in vergelyking met behandeling
van die hele liggaam. Die resultate van die studie wys dat gedeeltelike behandeling van
beeste met insekdoders ’n goedkoop, veilige en landbouer-gebaseerde strategie is om tsetse
en tripanosomiase te beheer.
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