Comparison of the Effects of Three Different Dehorning Techniques on Behaviour and Performance in Feeder Cattle in a Western Kansas Feedlot
Dehorning is a familiar subject for cattlemen and is a long practiced technique done to ensure farm safety of both farmers and animals. The three methods, tipping, dehorning, and banding are evaluated here by looking at how individual animals reacted after treatment by researchers C.D. Neely, D.U. Thomson, C.A. Kerr, D.E. Anderson, and C.D. Reinhardt.Introduction
Removing the horns of cattle when they arrive at feeding facilities is a common practice
to reduce injury to other cattle. Bruising on carcasses of cattle that have been housed in
pens containing horned cattle increases noticeably. Horned feeder cattle marketed in
Arkansas regional livestock auction barns received average discounts of $3.23/cwt in
2005, giving producers the incentive to dehorn their cattle before marketing.
Three common techniques (tipping, dehorning, and banding) are utilized in the field
to remove or reduce horn length in beef cattle. Tipping is the practice of removing
the tip of the horn such that the diameter of the horn is approximately 1 to 1.5 inches
in diameter. Dehorning is mechanically cutting the horns off at the base of the horn
near the head. The use of high-tension rubber bands to dehorn cattle has recently been
implemented in some cattle feeding facilities. The band restricts blood circulation to the
horns, resulting in necrosis, and the horns eventually fall off. This study was conducted
to establish baseline data on behavior and feedlot performance in cattle dehorned using
these techniques.
Experimental Procedures
Forty crossbred horned steers and heifers (body weight = 693 ± 10.5 lb) were identified
at a commercial feedyard (Dodge City, KS) and used to determine the effects of
dehorning methods on cattle behavior and performance. The cattle were blocked by
weight and sex and randomly assigned to 1 of 4 treatments within the blocks (n = 10
animals per treatment): (1) non-dehorned control (CON), (2) banded using a hightension
elastic rubber (BAND), (3) mechanically removed (MECH), or (4) tipped
horn (TIP). After arrival, cattle were processed and moved to a new home pen and were
allowed a 14-day alimentation period after arrival and prior to initiation of treatments.
Cattle were dehorned by their respective treatment assignment on d 0 of the trial and
were housed together for the duration of the study.
A vocalization score and information on chute behavior were recorded during the
dehorning process. Vocalization scores were assigned based on behavior: 0 = no vocalization;
1 = low volume, <1-second vocalization; and 2 = >1-second or greater volume
intensity. After dehorning, cattle were placed in a feeding pen where all trial cattle were
fed together. Cattle were individually weighed on days 0, 7, 14, 21, and 28. Behavior
was evaluated and recorded daily (between 8:00 and 9:30 a.m., following the a.m.
feeding) for depression, gait, and posture and lying for 28 days following treatment application. The depression scoring was assigned as follows: 0 = bright, alert, responsive,
1 = quiet but rouses only when approached, 2 = quiet but rouses only when pen was
entered, 3 = did not move when pen was entered or had to be touched to get up. Cattle
that scored 3 were evaluated by the attending veterinarian and treatment according to
diagnosis was applied. Gait and posture were documented: 0 = normal; 1 = reluctant to
move, stiff gait; 2 = mild incoordination when stimulated, hunched posture; 3 = obvious
ataxia or head tilt, hunching, dragging of one or more limbs. Cattle lying down were
documented and scored as follows: 0 = lying normally, head up, ruminating; 1 = lying
with head down; 2 = lying with full or partial extension of hind legs; 3 = lying in lateral
position.
Data were analyzed using the MIXED and GLIMMIX procedures of SAS (Cary, NC),
and the independent variables used in the model were treatment and week for vocalization,
depression, gait and posture, lying, and average daily gain.
Results and Discussion
Success of the banding technique over the 4-week time period was poor to inconclusive during the trial. Four of the bands fell off without removing the horn in the first 4 days of the trial. During the trial, only 3 horns that had been banded fell off during a 28-day period, leaving 13 out of the 20 horns at the end of the 4-week trial with the bands still attached.
Vocalization Scores on Day of Treatment in the Chute.
MECH and BAND had greater vocalization scores than CON and TIP (P < 0.05; Figure 1). Cattle with the MECH treatment had the most extended vocalization, indicating the greatest discomfort during the procedure. The BAND group had lower vocalization scores than the MECH group at the time of dehorning but greater vocalization post-procedure. Vocalization scores for cattle treated with TIP and CON did not differ.
Attitude Score Across the Entire Duration of the Trial.
Cattle from the BAND group tended to have higher depression scores than cattle from other treatment groups (P < 0.10; Figure 2). No other differences were measured in depression scores in cattle dehorned by TIP, MECH, or CON.
Gait and Posture Score for the Entire Duration of the Trial.
Cattle in the BAND group tended to exhibit higher gait and posture scores than cattle in other dehorning treatment groups (P < 0.10; Figure 3). No other differences were observed in gait and posture due to dehorning methods.
Cattle dehorned with the banding technique had higher abnormal lying scores than cattle dehorned with other techniques (P = 0.04; Figure 4). No other lying score differences were observed between cattle dehorned with other methods (P > 0.10).
Lying Score for the Entire Duration of the Trial.
The amount of weight gained by cattle in all four dehorning treatment groups was similar across treatments (P = 0.81; Figure 5).
Average Daily Gain (ADG; lb/day) for the Entire 28-Day Duration of the Trial Treatment (Treatment Effect, P = 0.81).
Based on treatment effects on vocalization, depression, abnormal gait and posture, and abnormal lying, banding appears to be a relatively painful process that has lasting effects. Mechanical dehorning is correlated with increases in vocalization (P < 0.01) at the time of the procedure, which can be associated with an increase in pain response. Tipping the horns had the least amount of pain-associated behavior observed throughout the trial and was similar to not dehorning based on the evaluation of vocalization, depression, gait and posture, and lying; however, no difference was detected in performance between the different dehorning procedures (P = 0.81).
Other than vocalization during dehorning, mechanical dehorning caused no differences in behavior post-procedure compared with tipping or no dehorning, and tipping was not different than no dehorning with respect to behavior measures.
Implications
Dehorning can be a stressful procedure, but if done quickly and properly, stress response on feeder calves can be minimized.
February 2013