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ARS Home » Plains Area » Las Cruces, New Mexico » Range Management Research » Research » Publications at this Location » Publication #414092

Research Project: Knowledge Systems and Tools to Increase the Resilience and Sustainablity of Western Rangeland Agriculture

Location: Range Management Research

Title: Comparative analysis of the training response of Raramuri Criollo and Angus Cattle to Virtual Fencing

Author
item PEREA, ANDRES - New Mexico State University
item Macon, Lara
item Dunlap, Rob
item FUNK, MICAH - New Mexico State University
item WINKLER, PARKER - New Mexico State University
item CAMPA MADRID, SARAH - New Mexico State University
item SPETTER, MAXIMILLIANO - New Mexico State University
item FILBERT, M - Peak Beef Nutrition And Management Consulting, Llc
item Cibils, Andres
item Estell, Richard - Rick
item DUFF, GLENN - New Mexico State University
item VANLEEUWEN, DAWN - New Mexico State University
item UTSUMI, SANTIAGO - New Mexico State University

Submitted to: Journal of Animal Science
Publication Type: Abstract Only
Publication Acceptance Date: 4/1/2024
Publication Date: 7/25/2024
Citation: Perea, A., Macon, L.K., Dunlap, R.J., Funk, M., Winkler, P., Campa Madrid, S., Spetter, M., Filbert, M., Cibils, A.F., Estell, R.E., Duff, G., Vanleeuwen, D., Utsumi, S. 2024. Comparative Analysis of the Training Response of Raramuri Criollo and Angus Cattle to Virtual Fencing. Journal of Animal Science. Abstract.

Interpretive Summary:

Technical Abstract: Virtual fencing (VF) collars rely on GPS tracking and audio warning-electric cueing to exclude or contain livestock inside geofencing zones. Behavioral differences between breeds may occur that explain differences in adaptation to VF. Training response of nonlactating Raramuri Criollo (RC) and Angus-Herford (AH) cattle to a commercial VF system was compared at the Jornada Experimental Range (USDA-ARS) in Las Cruces, NM during November and December, 2023. Thirty RC and thirty AH cows naive to VF were instrumented with Nofence collars (Molde, Norway) and randomly allocated by breed to rectangular pens (n=6) of similar size (0.16 ha). Cows were fed wheat hay ad-libitum in feeding stations at the east and west ends. Unrestricted water, mineral supplements and shade were provided at the center of pens. Two VF exclusion areas of similar size (280 m2) were set in the east and west ends, establishing eventual VF restricted zones (RZ). The training was divided into six 3-d periods. In period 1, RZ were deactivated, allowing cows to adapt to feed, peers, operators and pens. In period 2, RZ were activated on the west end of each pen, with the east side serving as VF containment zone (CZ). In period 3, RZ were switched to the east side, with the west side serving as the CZ. Both RZs were deactivated in period 4 to serve as an extinction phase. The RZ configuration in periods 2 and 3 were repeated in periods 5 and 6, serving as testing phase. Audio warnings (AW), electric pulses (EP), and the ratio (RT) of EP to AW were analyzed with a repeated measures model to evaluate fixed effects of breed, period, day(period), and all interactions according to a completely randomized design with day(period) as repeated factor. Significant effects were tested using LSD (P<0.05). Both AW and EP were affected by the triple interaction, indicating higher AW and EP in day 1 of period 2 for AH than RC cows. Likewise, AW were higher for AH in period 2, and EP were higher for AH cows in periods 2 and 3 and for RC cows only in period 2. Among day(period), AW and EP were greater for both breeds in day 1 of period 2, and in day 1 of period 3 for AH. No interaction in RT was detected, but mean values were greater for AH than RC, in periods 2 and 3 than 5 and 6, and in day 1 than day 2 and both than day 3, as anticipated. The RT declined through time suggesting that both breeds learned to respond safely to changing VF configurations, but consistent behavioral differences may explain a different VF risk assessment and vigilance of RC cows compared to AH cows.