Auditing and Scoring of Vocalization of Cattle and Pigs at Slaughter Plants as an Indicator of Poor Practices that are Detrimental to Animal Welfare
by Temple Grandin
Department of Animal Science
Colorado State University
Updated February 2020
Vocalization scores in cattle greatly improved after the restaurant audits started (Grandin, 2005a). Each animal was scored on a yes/no basis as being either a silent animal or a vocalizer. Vocalizations (moos and bellows) were scored in the stun box, single file chute (race), and crowd pen. Vocalizations in the stockyards (lairage) were not scored. Table 1 shows reductions in cattle vocalizations after the audits started.
Table 1: Percentage of Cattle Vocalizing During Stunning and Handling
|
Average |
Best Plant |
Worst Plant |
1996 - USDA survey baseline data before the audits started |
7.7% |
0% |
32% |
1999 - First year of Audits |
2.4% |
0% |
17% |
Scores for Plants that have been audited for 3 or more years |
1.7% |
0% |
6% |
Grandin (1998) found that 98% of vocalizations occurred immediately after aversive events such as missed stuns, electric prod use, slipping on the floor, excessive pressure from a restraint device or sharp edges that stuck into an animal. Reduction of electric prod use resulted in less vocalizations. In one plant, the vocalization score was reduced from 4% to 1% after electric prod use was reduced from 31% to 7% of the cattle (Grandin, 2005). In two other plants, simple changes that made it possible to reduce electric prod use greatly reduced vocalization. The changes were: adding a light at a restrainer entrance to facilitate cattle entry and adding a false floor in a restrainer to eliminate the "visual cliff effect." The percentage of cattle vocalizing was reduced from 8% to 0% and 9% to 0%. In another plant, reducing pressure applied by a head restrainer reduced vocalization from 23% to 0% (Grandin, 1996, 2003).
Update February 2020
Research continues to show that vocalization of cattle during handling is associated with aversive events such as:
- Excessive pressure from a restraint device (Bourquet et al, 2011).
- Excessive electric prod (goad) use (Hayes et al, 2015).
- Surveys on feedlots and ranches clearly shows that the percentage of cattle vocalizing during handling and restraint can be kept below 5% (Woiwode et al, 2016; Barnhardt et al, 2016; Simon et al, 2016). When problems occur, the percentage of cattle vocalizing will greatly increase.
- A review of many studies showed that vocalization scoring during handling is a valid indication of distress during handling and restraint (Losada-Espinoza et al, 2017).
Scoring Vocalization
The North American Meat Institute guidelines (Grandin, NAMI 2019) states a bovine is scored as a vocalizer regardless of the intensity of the vocalization. Each animal is scored on either a vocalization or silent. An auditor MUST write down WHY the animal vocalized. Missed stuns, falling, electric prod use, beating, slamming gates on animals, or acts of abuse are obvious, but often other serious problems that cause vocalization are less obvious. Slight slipping in either the stun box or single file chute (race)often causes cattle to vocalize. Installing a grating made from welded steel rods to reduce slipping will reduce vocalizations. To the auditor the animal appears to just be agitated, but this is often caused by repeated rapid small slips. Loud bellows in a stun box are often caused by either excessive pressure from a restraint device or a sharp edge. A very small sharp edge may cause vocalization. Two other serious welfare problems that will cause vocalization in holding an animal too long in a restraint device or leaving it isolated and alone too long in a stun box. All of the above aversive situations are serious problems and the audit is FAILED if the percentage of cattle that vocalizes exceeds 3% in plants with no head restraint and 5% in plants that use head holders for either stunning or religious slaughter.
Scoring Small Cattle Plants
There have been some problems evaluating vocalization scores in small plants. Small plants have less machinery noise and very soft low moos "humming" that would not be heard by an auditor in a large plant may be heard in a small plant. Another problem in small plants is that cattle may stand for a long period in the single file race. If they stand too long, the race is no longer an "active" handling system and cattle in the race may "talk" to cattle in the yards. If a bovine vocalizes in this situation, the auditor must write it down that this was not associated with an aversive event. The auditor should also write down if it was a small vocalization "hum" that probably could not be heard in a larger plant.
Cattle Vocalizations that are Immediately Associated with the Following Aversive Events are Counted on the Vocalization Audit
- Missed stuns or partial stuns.
- Falling down.
- Electric prod use.
- Hitting, beating, or poking sensitive parts of the animal.
- Slamming gates on animals.
- Shackling and hoisting or dragging of sensible animals.
- Repeated rapid small slips in the stun box or single file chute that causes the animal to become agitated.
- Excessive pressure from a restraint device. Animal vocalizes in direct response to application of a pusher gate, body restraint, or head holder.
- Sharp edge on a restraint device. Animal vocalizes in the restraint device or while riding on a conveyor.
- Holding an animal in a restraint device for too long. Stun or conduct religious slaughter before vocalization occurs.
- Leaving a lone animal isolated too long in a stun box or single file chute.
- Running an animal over the top of another one on purpose.
Vocalization Scoring of Pigs
There have been questions about the2005 American Meat Institute guideline on vocalization scoring of pigs in the restrainer. The first sets of data arriving from the plants show that the plants that use either V conveyor restrainers or center track restrainers for either market pigs or sows are able to comply with the standard of 5% or less of the pigs squealing in the restrainer (Table 2 & 3). Each pig is scored using yes/no scoring as either silent or a vocalizer (squealing). It has to be fully in the restrainer to be scored. The reason pigs are not scored like cattle, in all parts of the facility, is because it is difficult to determine which pig is squealing. Common causes of pigs squealing in the restrainer are: hold-down rack is pushing on their backs, restrainer is too narrow, sharp edges, or one side runs faster than the other. Vocalizations that occur immediately after an electric stunner is applied are scored as a separate "hot wand" score. They are NOT included in the restrainer vocalization score. The auditor does NOT need to determine other reasons for squealing. All squeals count because they are easy to hear regardless of plant size. Grunting and dog bark "wuff" sounds are not counted. The European Welfare Quality Protocol for pigs at slaughter uses vocalization scoring. Edwards et al (2010) found that pig squeals were increased by electric prods.
Table 2: Percentage of Market Pigs Squealing in the Restrainer (2006 Data)
|
Vocalization Score |
Percentage of Pigs Prodded with an Electric Prod |
Plant 1 |
3% - Pass |
12% |
Plant 2 |
3% - Pass |
3% |
Plant 3 |
0% - Pass |
4% |
Plant 4 |
2% - Pass |
0% |
Plant 5 |
2% - Pass |
14% |
Plant 6 |
5% - Pass |
1% |
Plant 7 |
12% - Fail |
4% |
Plant 8 |
0% - Pass |
1% |
Table 3: Percentage of Sows Squealing in the Restrainer (2006 Data)
|
Vocalization Score |
Percentage of Sows Prodded with an Electric Prod |
Plant 1 |
3% - Pass |
5% |
Plant 2 |
4% - Pass |
2% |
Plant 3 |
Less than 5% - Pass |
Not Available |
Plant 4 |
Less than 5% - Pass |
Not Available |
Plant 5 - First 25 Sows |
28% - Fail |
8% |
Plant 5 - Last 25 Sows |
4% - Pass |
8% |
Plant 3 and 4 had data from numerous internal audits. Data from plant 3 showed improvement over a period of several months. Manager at plants 3 and 4 are very proud of the work they have done to reduce squealing. Plant 5 had finished building a new facility two days before the audit. The false floor which prevents sows from seeing the "visual cliff" effect under the V restrainer had not been re-installed and was still missing. This caused balking. The line speed was 30 to 35 per hour. The squeal score greatly improved for the second 25 sows because fewer sows were put in the lead-up chute. To promote following behavior, two sows were moved into the restrainer at a time.
References
Grandin, T., 1996. Factors that impede animal movement in slaughter plants. J. Amer. Vet. Med. Assoc. 209:757-759.
Grandin, T., 1998. The feasibility of vocalization scoring as an indicator of poor welfare during slaughter. Applied Animal Behavior Science. 56:121-128.
Grandin, T., 2003. Cattle vocalizations are associated with handling and equipment problems in beef slaughter plants. Applied Animal Behavior Science. 71:191-201.
Grandin, T., 2005a. Maintenance of good animal welfare standards in beef slaughter plants by use of auditing programs. J. Amer. Vet. Med. Assoc. 226:370-373.
Grandin, T., 2019. Recommended animal handling guidelines and audit guide. North American Meat Institute. Washington D.C.)
References on Vocalization Scoring
Barnhardt, T.R. et al, 2016. Implementation of industry oriented assessment in Kansas cattle feeding operations. Bovine Practitioner. 28(3): 428-434.
Bourquet, C. et al, 2011. Behavioral and physiological reactions of cattle in a commercial abattoir relationship with organizational aspects of the abattoir and animal characteristics. Meat Science. 88:156-168.
Edwards et al, 2010. The use of exsanguination blood lactate to assess the quality of pre-slaughter handling. Meat Science. 86:384-390.
Hayes, N. et al, 2015. The relationship between pre-harvest stress and carcass characteristics of beef heifers qualified for Kosher designation. Meat Science. 100:134-138.
Losada-Espinoza, N. et al, 2017. Pre-slaughter welfare indicators fro use in commercial abattoirs wtih voluntary monitoring systems: A systematic review. Meat Science. 138:34-38.
Simon, G.E. et al, 2016. Assessing cow-calf welfare, Part 2: Risk factors for beef cow health and behavior and stock person handling. Journal of Animal Science. 94:3488-3500.
Woiwode, R et al, 2016. Compliance of large feedyards in the northern high plains with Beef Quality Assurance Feedyard Assessment. Professional Animal Scientist. 32:5750-757.
Welfare Quality Network, 2009. Assessment Protocols.
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