Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Behavioural effects of yearling grain-finished heifers exposed to differing environmental conditions and growth-promoting agents

T. L. Mader A E , J. B. Gaughan B , W. M. Kreikemeier C and A. M. Parkhurst D
+ Author Affiliations
- Author Affiliations

A Department of Animal Science, University of Nebraska, Concord, NE 68728, USA.

B School of Animal Studies, University of Queensland, Gatton, Qld 4343, Australia.

C Nova Microbial Technologies, Callaway, NE 68825, USA.

D Department of Statistics, University of Nebraska, Lincoln, NE 68583, USA.

E Corresponding author. Email: tmader@unlnotes.unl.edu

Australian Journal of Experimental Agriculture 48(9) 1155-1160 https://doi.org/10.1071/EA07385
Submitted: 17 November 2007  Accepted: 7 May 2008   Published: 7 August 2008

Abstract

Two groups of 108 Angus cross yearling heifers were utilised to determine the effects of growth-promoting agents on behaviour, when utilised under thermoneutral, hot and cold environmental conditions. Pens of heifers were observed throughout the day for feed intake pattern via bunk score, panting (hot), degree of bunching and shivering (cold). For cattle that were exposed to cold stress, feed intake was greater earlier in the day, with the majority of the feed consumed by 1500 hours and little or no feed consumed at night, while the opposite trend occurred under heat stress. Nearly 46% of the pens containing heat-stressed heifers had greater than 50% of their feed remaining in the bunk at 1900 hours. Pens of heifers exposed to thermoneutral conditions had a tendency to show elevated panting scores at 0700 hours, while heifers exposed to hot conditions did not, indicating some acclimation to heat stress had already taken place for the heifers exposed to hot conditions. Panting score did not appear to be affected by growth-promoting treatment. Under cold stress, 100% of the cattle displayed bunching behaviour throughout the day, while under hot and thermoneutral conditions, maximum bunching (25 to 30%) occurred at 1500 hours. Within an environmental condition, trenbolone acetate cattle tended to bunch more under thermoneutral and hot conditions, particularly in the morning, when compared with other treatment groups; control and oestrogen-treated cattle tended to bunch less under the same conditions, regardless of the time of day. Although data were inconclusive as to overall effects of growth promotants on mitigating cold stress, shivering scores were increased with a more aggressive growth-promoting treatment (P < 0.05). These findings suggest that if growth promotants, which are used in feedlot cattle, impact cattle exposed to adverse environmental conditions, then they tend to be more effective at mitigating heat stress than cold stress.

Additional keywords: beef cattle, environmental stress, hormone growth promotants.


References


Bloss RE, Northam JI, Smith LW, Zimbelman RG (1966) Effects of oral melengestrol acetate on the performance of feedlot cattle. Journal of Animal Science 25, 1048–1053.
CAS |
[Verified 1 July 2008]

Thom EC (1959) The discomfort index. Weatherwise 12, 57–59. open url image1

Trenkle A (1997) Mechanisms of action of estrogens and androgens on performance of cattle – hormonal basis. In ‘Symposium: impact of implants on performance and carcass value of beef cattle. Publ. No. P-957’. pp. 15–22. (Oklahoma Agricultural Experiment Station)

Tudor GD, James T, Hunter RA (1992) Seasonal growth and carcass characteristics of grazing steers implanted with trenbolone acetate and oestradiol. Australian Journal of Experimental Agriculture 32, 683–687.
Crossref | GoogleScholarGoogle Scholar | CAS | open url image1

Webster AJ (1973) Heat loss from cattle with particular emphasis on the effects of cold. In ‘Heat loss from animals and man: assessment and control’. (Eds JL Monteith, LB Mount) pp. 205–231. (Butterworths: London)

Young BA (1981) Cold stress as it affects animal production. Journal of Animal Science 52, 154–163.
CAS | PubMed |
open url image1

Yousef MK, Johnson HD (1985) Endocrine systems and thermal environment. In ‘Stress physiology in livestock: basic principles’. pp. 133–141. (CRC Press Inc.: Boca Raton, FL)

Zinn RA (1985) Growth implants in growing-finishing steers: dosage level and implant frequency. California Feeders Day Report, el Centro, CA.