Domestic Cat (Felis silvestris catus) Urine Odour as a Potential Rodent Management Strategy
DOI:
https://doi.org/10.61538/huria.v22i0.68Abstract
 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 ÂReferences
Abbott, D.H, Baines, D.A Faulkes, C. G. Jennens, D. C. Ning, P. C. Y. K. and Tornlinson A. J. (1990). A natural deer repellent: chemistry and behavior. Pages 599-609 in D. W. Macdonald, D. Miiller-Schwarze, and S. E. Natynezuk, eds. Chemical Signals in Vertebrates V. OxfordUniversity Press, Oxford, United Kingdom.
Andelt, W. F., D. L. Baker, and K. P. Burnham (1992). Relative preference of captive cow elk for repellent-treated diets. J. Wildl. Manage. 56: 164-173.
Arnould, C., and J. Signoret (1993). Sheep food repellents: efficacy of various products, habituation, and social facilitation. J. Chem. Ecol. 19:225-236.
Blanchard, D.C., and Blanchard, R.J. Behavioral correlates of chronic dominance-subordination relationships of male rats in a seminatural situation. Neurosci Biobehav Rev 14:455-462, 1990.
Fendt, M and MS Fanselow (1999). The neuroanatomical and neurochemical basis of conditioned fear Neuroscience & Biobehavioral. Reviews 23 (5), 743-760
Mashaka Mdangi, Loth S. Mulungu, Apia W. Massawe, Seth Eiseb, Vasana Tutjavi, Frikkie Kirsten, Temba Mahlaba, Phanuel Malebane, Emil VON Maltitz, Ara Monadjem, Nomfundo Dlamini, Rhodes H. Makundi, and Steven R. Belmain (2013) Assessment of rodent damage to stored maize (Zea mays L.) on smallholder farms in Tanzania. International Journal of Pest Management, 59(1): 55–62
Massawe, Apia W., Loth S. Mulungu, Rhodes H. Makundi, N. Dlamini, Seth J. Eiseb, Frikkie Kirstin, Themb’a A. Mahlaba, Phanuel Malebane, Emil Von Maltitz, Ara Monadjem, Peter J. Taylor, V. Tutjavi & Steven R.
Belmain (2011) Spatial and temporal population dynamics of rodents in three geographically different regions in Africa: Implication for Ecologically-based rodent management. African Zoology, 46(2): 393-405 Mulungu L. S.; Ngowo, V.H. R.H. Makundi, A.W. Massawe and Leirs, H. (2010) Winning the Fight against Rodent Pest: Recent Developments in Tanzania. Journal of Biological Sciences, 10(4): 333-340.
Mulungu, L. S., Makundi, R. H., Leirs, H. (2003b). Robustness of techniques for estimating rat damage and yield loss in maize fields. In: Singleton GR, Hinds LA, Krebs CJ, Spratt DM, eds. Rats, mice and people: Rodent biology and management. ACIAR, Canberra, pp.224-8
Mulungu, L.S. (2003). Assessment of maize (Zea mays l.) damage and yield loss due to rodents in the field. PhD Thesis Sokoine University of Agriculture, Morogoro, Tanzania. 178pp
Mulungu, L.S., Makundi, R.H. &Massawe, A.W. (2006) Characteristics of Rodent Damage to Major Crops in Tanzania And Crop Loss Assessment Techniques. In: Makundi, R.H. (Ed.). Management of Selected Crop Pests in Tanzania. Pp. 248 – 267, Tanzania Publishing House Limited, Dar Es Salaam, Tanzania (ISBN 9976 1 0210 0), 476pp
Mulungu, L.S., Mlyashimbi, E.C.M, V. Ngowo, M. Mdangi, A.S. Katakweba, P. Tesha, F.P. Mrosso, M. Mchomvu, Kilonzo, B.S. and S.R. Belmain (2014) Food preferences of the Multi-mammate mouse, Mastomys natalensis (Smith 1834) in irrigated rice field in eastern Tanzania. International Journal of Pest Management, 60(1): 1-8
Mulungu,L.S., Makundi, R.H.,Leirs, H.,Massawe,A.W., Vibe-Petersen, S. and Stenseth, N.C. (2003a). The rodent density-damage function in maize fields at an early growth stage. In: Rats, mice and people: Rodent biology and management. (Edited by Singleton,G.R., Hinds, L.A., Krebs, C.J. and Spratt, D.M.). ACIAR, Canberra. pp301-303.
Myllymäki, A. (1987). Control of rodent problems by the use of rodenticides:
rationale and constraints. In: Control of mammal pests. (Edited by C.G.J. Richards and T.Y. Ku). Taylor& Francis, London. New York, Philadelphia. Pp. 83 - 111.
Sullivan M, Hornig NC, Porstmann T, Uhlmann F (2004) Studies on substrate recognition by the budding yeast separase. J Biol Chem 279(2):1191-6
Sullivan, T. P. (1985). The use of predator odors as repellents to reduce feeding damage by herbivores. 11. Black-tailed deer
(Odocoileushemoniuscolumbianus). J Chem. Ecol. 11:921-935.
Sullivan, T. P. and Crump, D.R (1986) F eeding responses of snowshoe hares (Lepusamericanus) to volatile constituents of red fox (Vulpesvulpes) urine.
J . Chem. Ecol. 12:729-739.
Swihart, R. K., J. J. Pignatello, and M. J. I. Mattina. (1991)Aversive responses of whitetailed deer, Odocoileusvirginianus, to predator urines. J. Chem. Ecol. 17: 767-777.
Wiltgen, B. J., Fanselow, M. S. (2003). A model of hippocampal-
corticalamygdala interactions based on contextual fear conditioning. In: The neurobiology of spatial behaviour (Jeffery KJ, ed), pp 83–103. New York: Oxford UP.
