Campbell, Dana L M; Lea, Jim M; Farrer, William J; Haynes, Sally J; Lee, Caroline

Author(s)

Campbell, Dana L M

Lea, Jim M

Farrer, William J

Haynes, Sally J

Lee, Caroline

Publication Date

2017-09-18

Abstract

Global Positioning System (GPS)-based virtual fences offer the potential to improve the management of grazing animals. Prototype collar devices utilising patented virtual fencing algorithms were placed on six Angus heifers in a 6.15 hectare paddock. After a "no fence" period, sequential, shifting virtual fences restricted the animals to 40%, 60%, and 80% of the paddock area widthways and 50% lengthways across 22 days. Audio cues signaled the virtual boundary, and were paired with electrical stimuli if the animals continued forward into the boundary. Within approximately 48 h, the cattle learned the 40% fence and were henceforth restricted to the subsequent inclusion zones a minimum of 96.70% (±standard error 0.01%) of the time. Over time, the animals increasingly stayed within the inclusion zones using audio cues alone, and on average, approached the new fence within 4.25 h. The animals were thus attentive to the audio cue, not the fence location. The time spent standing and lying and the number of steps were similar between inclusion zones (all <i>p</i> ≥ 0.42). More lying bouts occurred at the 80% and lengthways inclusion zones relative to "no fence" (<i>p</i> = 0.04). Further research should test different cattle groups in variable paddock settings and measure physiological welfare responses to the virtual fencing stimuli.

Citation

Animals, 7(9), p. 1-12

ISSN

2076-2615

Link

https://hdl.handle.net/1959.11/29962

Publisher

MDPI AG

Rights

Attribution 4.0 International

Title

Tech-Savvy Beef Cattle? How Heifers Respond to Moving Virtual Fence Lines

Type of document

Journal Article

Entity Type

Publication

Author(s)	Campbell, Dana L M Lea, Jim M Farrer, William J Haynes, Sally J Lee, Caroline
Publication Date	2017-09-18
Abstract	Global Positioning System (GPS)-based virtual fences offer the potential to improve the management of grazing animals. Prototype collar devices utilising patented virtual fencing algorithms were placed on six Angus heifers in a 6.15 hectare paddock. After a "no fence" period, sequential, shifting virtual fences restricted the animals to 40%, 60%, and 80% of the paddock area widthways and 50% lengthways across 22 days. Audio cues signaled the virtual boundary, and were paired with electrical stimuli if the animals continued forward into the boundary. Within approximately 48 h, the cattle learned the 40% fence and were henceforth restricted to the subsequent inclusion zones a minimum of 96.70% (±standard error 0.01%) of the time. Over time, the animals increasingly stayed within the inclusion zones using audio cues alone, and on average, approached the new fence within 4.25 h. The animals were thus attentive to the audio cue, not the fence location. The time spent standing and lying and the number of steps were similar between inclusion zones (all <i>p</i> ≥ 0.42). More lying bouts occurred at the 80% and lengthways inclusion zones relative to "no fence" (<i>p</i> = 0.04). Further research should test different cattle groups in variable paddock settings and measure physiological welfare responses to the virtual fencing stimuli.
Citation	Animals, 7(9), p. 1-12
ISSN	2076-2615
Link	https://hdl.handle.net/1959.11/29962
Publisher	MDPI AG
Rights	Attribution 4.0 International
Title	Tech-Savvy Beef Cattle? How Heifers Respond to Moving Virtual Fence Lines
Type of document	Journal Article
Entity Type	Publication

Tech-Savvy Beef Cattle? How Heifers Respond to Moving Virtual Fence Lines

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