OJAS  Vol.4 No.2 , April 2014
Separation Behavior for Parturition of Red Angus Beef Cows
Abstract: Increased predation losses in beef cattle in the Northern Rocky Mountains raise the importance of research concerning maternal behavior around the time of parturition. Separation behavior of multiparous cows at parturition was studied by measuring the distance (m) between the birth place and the main herd with a GPS device. Age of cows and forehead hair whorl pattern (HW) were analyzed as possible factors affecting separation distance. A total of 333 cows (95% Red Angus and 5% Angus × Hereford commercial crossbreds; age range: 3 - 6 yrs) were studied. Separation distance was determined by approaching the cow-calf pair with a utility vehicle that gradually decreased the distance to the pair. The geographic coordinates per pair were recorded and the separation distance was calculated as a straight line between each pair and the main herd. The HW on the forehead of each animal was used as a measure of individual differences in temperament. Age and HW were collected when the animals were held in a squeeze chute. HW was classified into one of six groups: high, middle, low, abnormal, multiple HWs and no HW. The age of a cow influenced the separation distance for parturition (P < 0.001). Four-year-old cows were on average about 150 m further away than other aged cows when calving. Eighty-eight percent of cows separated more than 100 m from the herd. The hair whorl position had no influence on the separation distance (P = 0.405). Distinct separation behavior for parturition was observed in this herd which appears to be an innate behavior that is influenced by the individual temperament of the cow.
Cite this paper: Flörcke, C. and Grandin, T. (2014) Separation Behavior for Parturition of Red Angus Beef Cows. Open Journal of Animal Sciences, 4, 43-50. doi: 10.4236/ojas.2014.42007.

[1]   Singh, N.J., Grachev, I.A., Bekenov, A.B. and Milner-Gulland, E.J. (2010) Saiga Antilope Calving Site Selection is Increasingly Driven by Human Disturbance. Biological Conservation, 143, 1770-1779.

[2]   Estes, R.D. (1976) The Significance of Breeding Synchrony in the Wildebeest. African Journal of Ecology, 14, 135-152.

[3]   Rettie, W.J. and Messier, F. (2001) Range Use and Movement Rates of Woodland Caribou in Saskatchewan. Canadian Journal of Zoology, 79, 1933-1940.

[4]   Bowyer, R.T., van Ballenberghe, V., Kie, J.G. and Maier, J.A.K. (1999) Birth-Site Selection by Alaskan Moose: Maternal Strategies for Coping with a Risky Environment. Journal of Mammalogy, 80, 1070-1083.

[5]   Leuthold, W. (1977) African Ungulates. A Comparative Review of Their Ethology and Behavioral Ecology. Springer Verlag, Berlin, Heidelberg, New York, 158-168.

[6]   Bangs, E.E. and Fritts, S.H. (1996) Reintroducing the Gray Wolf to Central Idaho and Yellowstone National Park. Wildlife Society Bulletin, 24, 402-413.

[7]   Fl?rcke, C., Engle, T.E. and Grandin, T. (2012) Individual Differences in Calf Defence Patterns in Red Angus Beef Cows. Applied Animal Behaviour Science, 139, 203-208.

[8]   Fl?rcke, C. and Grandin, T. (2013) Loss of Anti-Predator Behaviors in Cattle and the Increased Predation Losses by Wolves in the Northern Rocky Mountains. Open Journal of Animal Sciences, 3, 248-253.

[9]   Clark, P.E. and Johnson, D.E. (2009) Wolf-Cattle Interactions in the Northern Rocky Mountains. In: Range Field Data 2009 Progress Report. Special Report 1092. Oregon State University. Agricultural Experiment Station, Corvallis, 1-7.

[10]   Lidfors, L.M., Moran, D., Jung, J., Jensen, P. and Castren, H. (1994) Behaviour at Calving and Choice of Calving Place in Cattle Kept in Different Environments. Applied Animal Behaviour Science, 42, 11-28.

[11]   Morris, C.A., Cullen, N.G., Kilgour, R. and Bremner, K.J. (1994) Some Genetic Factors Affecting Temperament in Bos Taurus Cattle. New Zealand Journal of Agricultural Research, 37, 167-175.

[12]   Gauly, M., Mathiak, H., Hoffman, K., Kraus, M. and Erhardt, G. (2001) Estimating Genetic Variability in Temperamental Traits in German Angus and Simmental Cattle. Applied Animal Behaviour Science, 74, 109-119.

[13]   Dingemanse, N.J., Both, C., Drent, P.J., van Oers, K. and van Noordwijk, A.J. (2002) Repeatability and Heritability of Exploration Behaviour in Great Tits from the Wild. Animal Behaviour, 64, 929-938.

[14]   Grandin, T., Deesing, M.J., Struthers, J.J. and Swinker, A.M. (1995) Cattle with Hair Whorl Patterns above the Eyes Are More Behaviorally Agitated during Restraint. Applied Animal Behaviour Science, 46, 117-123.

[15]   Randle, H.D. (1998) Facial Hair Whorl Position and Temperament in Cattle. Applied Animal Behaviour Science, 56, 139-147.

[16]   Murphy, J. and Arkins, S. (2008) Facial Hair Wholrs (Trichoglyphs) and the Incidensce of Motor Laterality in the Horse. Behavioural Processes, 79, 7-12.


[18]   De Boyer Des Roches, A., Richard-Yris, M.-A., Henry, S., Ezzaou?a, M. and Hausberger, M. (2008) Laterality and Emotions: Visual Laterality in the Domestic Horse (Equus caballus) Differs with Objects’ Emotional Value. Physiology & Behavior, 94, 487-490.

[19]   Milner-Gulland, E.J. (2001) A Dynamic Game Model for the Decision to Join an Aggregation. Ecological Modelling, 145, 85-99.

[20]   Tulloch, D.G. (1979) The Water Buffalo, Bubalus bubalis, in Australia: Reproductive and Parent-Offspring Behaviour. Australian Wildlife Research, 6, 265-287.

[21]   Lott, D.F. and Galland, J.C. (1985) Parturition in American Bison: Precocity and Systematic Variation in Cow Isolation. Zeitschrift für Tierpsychologie, 69, 66-71.

[22]   Barbknecht, A.E., Fairbanks, W.S., Rogerson, J.D., Maichak, E.J., Scurlock, B.M. and Meadows, L.L. (2011) Elk Parturition Site Selection at Local and Landscape Scales. The Journal of Wildlife Management, 75, 646-654.

[23]   Barten, N.L., Bowyer, R.T. and Jenkins, K.J. (2001) Habitat Use by Female Caribou: Tradeoffs Associated with Parturition. The Journal of Wildlife Management, 65, 77-92.

[24]   Gustine, D.D., Parker, K.L., Lay, R.J., Gillingham, M.P. and Heard, D.C. (2006) Calf Survival of Woodland Caribou in a Multi-Predator Ecosystem. Wildlife Monographs, 165, 1-32.[1:CSOWCI]2.0.CO;2

[25]   Price, E.O., Thos, J. and Anderson, G.B. (1981) Maternal Responses of Confined Beef Cattle in Single versus Twin Calves. Journal of Animal Science, 53, 934-939.

[26]   Lent, P.C. (1974) Mother-Infant Relationships in Ungulates. The Behavior of Ungulates and Its Relationship to Management. IUCN Publications, Morges, 14-55.

[27]   Edwards, S.A. (1983) The Behaviour of Dairy Cows and Their Newborn Calves in Individual or Group Housing. Applied Animal Ethology, 10, 191-198.

[28]   Owens, J.L., Edey, T.N., Bindon, B.M. and Piper, L.R. (1985) Parturient Behaviour and Calf Survival in a Herd Selected for Twinning. Applied Animal Behaviour Science, 13, 321-333.

[29]   Illmann, G. and Spinka, M. (1993) Maternal Behaviour of Dairy Heifers and Suckling of Their Newborn Calves in Group Housing. Applied Animal Behaviour Science, 36, 91-98.

[30]   Rubenstein, D.I. (1978) On Predation, Competition and the Advantages of Group Living. Perspectives in Ethology, 3, 205-231.