Your search keyword '"skin lesions"' showing total 12 results

1. Estimation of indirect social genetic effects for skin lesion count in group-housed pigs by quantifying behavioral interactions.

Author

Angarita, Belcy K, Cantet, Rodolfo J C, Wurtz, Kaitlin E, O'malley, Carli I, Siegford, Janice M, Ernst, Catherine W, Turner, Simon P, and Steibel, Juan P

Subjects

*SWINE, *FIXED effects model, *GENETIC correlations, *GENETIC models, *SOCIAL groups, *SKIN diseases

Abstract

Mixing of pigs into new social groups commonly induces aggressive interactions that result in skin lesions on the body of the animals. The relationship between skin lesions and aggressive behavioral interactions in group-housed pigs can be analyzed within the framework of social genetic effects (SGE). This study incorporates the quantification of aggressive interactions between pairs of animals in the modeling of SGE for skin lesions in different regions of the body in growing pigs. The dataset included 792 pigs housed in 59 pens. Skin lesions in the anterior, central, and caudal regions of the body were counted 24 h after pig mixing. Animals were video-recorded for 9 h postmixing and trained observers recorded the type and duration of aggressive interactions between pairs of animals. The number of seconds that pairs of pigs spent engaged in reciprocal fights and unilateral attack behaviors were used to parametrize the intensity of social interactions (ISI). Three types of models were fitted: direct genetic additive model (DGE), traditional social genetic effect model (TSGE) assuming uniform interactions between dyads, and an intensity-based social genetic effect model (ISGE) that used ISI to parameterize SGE. All models included fixed effects of sex, replicate, lesion scorer, weight at mixing, premixing lesion count, and the total time that the animal spent engaged in aggressive interactions (reciprocal fights and unilateral attack behaviors) as a covariate; a random effect of pen; and a random direct genetic effect. The ISGE models recovered more direct genetic variance than DGE and TSGE, and the estimated heritabilities (h ^ D 2) were highest for all traits (P < 0.01) for the ISGE with ISI parametrized with unilateral attack behavior. The TSGE produced estimates that did not differ significantly from DGE (P > 0.5). Incorporating the ISI into ISGE, even in a small dataset, allowed separate estimation of the genetic parameters for direct and SGE, as well as the genetic correlation between direct and SGE (r ^ d s) ⁠ , which was positive for all lesion traits. The estimates from ISGE suggest that if behavioral observations are available, selection incorporating SGE may reduce the consequences of aggressive behaviors after mixing pigs. [ABSTRACT FROM AUTHOR]

Published

2019

2. Estimation of indirect social genetic effects for skin lesion count in group-housed pigs by quantifying behavioral interactions.

Author

Angarita, Belcy K, Cantet, Rodolfo J C, Wurtz, Kaitlin E, O'malley, Carli I, Siegford, Janice M, Ernst, Catherine W, Turner, Simon P, and Steibel, Juan P

Subjects

SWINE, FIXED effects model, GENETIC correlations, GENETIC models, SOCIAL groups, SKIN diseases

Abstract

Mixing of pigs into new social groups commonly induces aggressive interactions that result in skin lesions on the body of the animals. The relationship between skin lesions and aggressive behavioral interactions in group-housed pigs can be analyzed within the framework of social genetic effects (SGE). This study incorporates the quantification of aggressive interactions between pairs of animals in the modeling of SGE for skin lesions in different regions of the body in growing pigs. The dataset included 792 pigs housed in 59 pens. Skin lesions in the anterior, central, and caudal regions of the body were counted 24 h after pig mixing. Animals were video-recorded for 9 h postmixing and trained observers recorded the type and duration of aggressive interactions between pairs of animals. The number of seconds that pairs of pigs spent engaged in reciprocal fights and unilateral attack behaviors were used to parametrize the intensity of social interactions (ISI). Three types of models were fitted: direct genetic additive model (DGE), traditional social genetic effect model (TSGE) assuming uniform interactions between dyads, and an intensity-based social genetic effect model (ISGE) that used ISI to parameterize SGE. All models included fixed effects of sex, replicate, lesion scorer, weight at mixing, premixing lesion count, and the total time that the animal spent engaged in aggressive interactions (reciprocal fights and unilateral attack behaviors) as a covariate; a random effect of pen; and a random direct genetic effect. The ISGE models recovered more direct genetic variance than DGE and TSGE, and the estimated heritabilities (h ^ D 2) were highest for all traits (P < 0.01) for the ISGE with ISI parametrized with unilateral attack behavior. The TSGE produced estimates that did not differ significantly from DGE (P > 0.5). Incorporating the ISI into ISGE, even in a small dataset, allowed separate estimation of the genetic parameters for direct and SGE, as well as the genetic correlation between direct and SGE (r ^ d s) ⁠ , which was positive for all lesion traits. The estimates from ISGE suggest that if behavioral observations are available, selection incorporating SGE may reduce the consequences of aggressive behaviors after mixing pigs. [ABSTRACT FROM AUTHOR]

Published

2019

3. Effect of Mixing at Weaning and Dietary Nutrient Density on Growth Performance and Welfare of Pigs.

Author

González-Solé, Francesc, Montoro, Jordi Camp, Solà-Oriol, David, Francisco Pérez, José, Lawlor, Peadar G., Boyle, Laura A. A., and Garcia Manzanilla, Edgar

Subjects

*ANIMAL weaning, *SWINE breeding, *NUTRIENT density, *SWINE, *ANIMAL welfare, *NUTRITIONAL requirements, *ANIMAL aggression, *SWINE housing

Abstract

Mixing pigs at weaning compromises animal welfare and may reduce growth performance (GP). Reducing nutrient density of the nursery diet is a strategy to avoid gastrointestinal problems in newly weaned pigs. However, the potential for compensatory growth in subsequent stages and the impact on welfare are still unknown. This study investigated the effect of mixing and reducing dietary nutrient density on GP, body lesions (BL), and behavior in pigs from weaning to slaughter. Forty-eight litters [554 pigs, 11-12 pigs/litter; Danish Duroc × (Large White × Landrace)] were included in the trial. At 28 days of age, pigs were housed in the nursery rooms as litter pens (INTACT, n = 24) or mixed with other litters by body weight to reduce variability within pen (MIXED, n = 24). A dietary regimen meeting the nutritional requirements (CON) of the pigs and a low-density regimen (LOW; -10% energy and protein) completed a 2x2 factorial arrangement (Mixing x Diet, n =12). On day 73, pigs moved to a growing-finishing room without further mixing and all pigs received the CON dietary regimen. At the beginning and at the end of each production phase, the number of BL and the frequency of aggressions and damaging behavior were determined. Data were analyzed using general linear mixed models. Mixing increased FCR by 4.0 % during the nursery period (P = 0.003; Table 1). Pigs fed LOW had decreased GP during the nursery period but better feed conversion ratio (FCR; P = 0.008) during the growing-finishing period, when all groups were fed the same diet. However, pigs fed LOW showed a lower slaughter weight (-2.6 kg; P = 0.025). Initial differences in the coefficient of variation (CV) between MIXED (10.4%) and INTACT (17.6%; P < 0.001) were reduced in CON pens (6.9 % to 0.5 %) but not in LOW pens (7.9 % to 4.5 %; interaction P = 0.025) at the end of the nursery period. Pigs in MIXED pens showed 358% more BL (P < 0.001), more aggressions (P = 0.005) and damaging behavior (P = 0.042) at weaning, and more aggressions (P = 0.003) after being moved to growing-finishing rooms. Animals fed LOW showed more aggressions at weaning (P < 0.001) and more damaging behavior at the end of the nursery period (P < 0.001). When their diet was changed to CON, they showed 14% more BL (P = 0.009) but less aggressions (P = 0.004). Mixing animals at weaning had little impact on GP, but lesions, aggressions and damaging behavior towards pen mates indicate a detrimental effect on welfare and strategies to avoid mixing should be studied. The provision of a low-density diet during the nursery period had negative effects on welfare and growth was not totally compensated during the growing-finishing period. [ABSTRACT FROM AUTHOR]

Published

2023

4. Effects of tail docking and tail biting on performance and welfare of growing-finishing pigs in a confinement housing system.

Author

Li, Y. Z., Zhang, H. F., Johnston, L. J., Martin, W., Peterson, J. D., and Coetzee, J. F.

Subjects

*SWINE behavior, *BLOOD proteins, *IMMUNOSPECIFICITY, *INFLAMMATION, SWINE anatomy

Abstract

A study was conducted to evaluate the effect of tail docking on the welfare and performance of victimized pigs by tail biting and tail biters. Pigs (n = 240; 25.7 ± 2.9 kg average weight), including 120 pigs that were tail docked at birth and 120 pigs that remained with intact tails, were used. Pigs were housed in 8 pens of 30 pigs in a confinement barn for 16 wk, with 4 pens each housing pigs of both sexes with docked or intact tails. Tail biters and victimized pigs with damaged tails were identified during outbreaks of tail biting. Growth performance was monitored, and skin lesions on the tail, ears, and body were assessed. Blood samples were collected from focal tail biters, victimized pigs, and nonvictimized pigs for analysis of total serum protein, IgG, and substance P concentrations. When pigs were marketed, carcass weights and the number of pigs with carcass trim loss were recorded. During the growing-finishing period, 48% of pigs with docked tails and 89% of pigs with intact tails experienced lesions on their tails, including 5% of docked pigs and 30% of intact pigs identified as victimized pigs that experienced puncture wounds with signs of infection on their tails or loss of tails (P < 0.001). Victimized pigs tended to gain less weight (P = 0.07) between 17 and 21 wk of age than other pigs when tail biting prevailed in this study. Victimized pigs were more frequently (P = 0.04) sold for less than full value and had a lower dressing percentage (P < 0.001) compared with nonvictimized pigs. For victimized pigs, total serum protein and IgG concentrations were elevated 5 d after tails were injured, suggesting that tail damage can cause inflammation, which may lead to carcass abscesses and trim loss. Compared with victimized pigs and nonvictimized pigs, tail biters had lower total serum protein (P = 0.01) and IgG (P = 0.01) concentrations, indicating that tail biters may experience poor immune functions. Results of this study demonstrated that tail docking reduced tail damage in pigs kept in a confinement system. Tail damage can cause inflammation and reduce the value of market pigs. More research is needed to test whether compromised immune functions predispose pigs to tail biting. [ABSTRACT FROM AUTHOR]

Published

2017

5. Validation of carcass lesions as indicators for on-farm health and welfare of pigs.

Author

van Staaveren, N., Doyle, B., Manzanilla, E. G., Díaz, J. A. Calderón, Hanlon, A., and Boyle, L. A.

Subjects

*SWINE diseases, *ANIMAL carcasses, *ANIMAL welfare, *MEAT inspection, *SWINE, *ANIMAL health

Abstract

Incorporating indicators for pig health and welfare at meat inspection could reduce the need for on-farm assessments. Skin and tail lesions are important welfare indicators in pigs with good potential to record during meat inspection and could possibly function as iceberg indicators of on farm welfare. The aim of this study was to validate the use of these carcass lesions at meat inspection for the assessment of pig health and welfare on farm. Thirty-one farrow-to-finish pig farms (~12% of Irish herds) were assessed using an adapted version of the Welfare Quality protocol by inspecting 6 randomly selected pens of pigs in the first weaner (4 to 8 wk), second weaner (8 to 13 wk) and finisher stage (13 to 23 wk). The average prevalence of welfare outcomes for each stage was calculated. One batch of pigs was observed at slaughter and skin and tail lesions were scored according to severity for each carcass. The average prevalence of carcass lesion outcomes was calculated for each farm. Linear regression models were developed to predict the prevalence of each welfare outcome in each stage based on the prevalence of the different carcass lesions. The welfare outcomes of different welfare aspects that were best predicted by abattoir information (highest R2) were poor body condition (first weaner stage), bursitis (second weaner stage), huddling (first weaner stage), severe tail lesions (finisher stage) and coughing (second weaner stage). Regression trees and receiver-operating curves (ROC) were used to evaluate the usefulness of carcass lesions as monitoring tools. Receiver-operating curves were created using the 75th percentile to classify farms as a problem farm for these welfare outcomes. Cut-off values of predictive carcass lesion prevalence were similar using both techniques. Models for predicting problem farms with poor body condition, bursitis and severe tail lesions were moderately accurate. Sensitivity and specificity ranged from 75 to 100% and 70 to 87%, respectively at the optimal cut-off value of the predictive carcass lesion prevalence. Results show potential for using carcass skin and tail lesions as iceberg indicators of pig health and welfare on farm. Future work is needed to evaluate the cost of including carcass lesion recording at meat inspection, the cost of failing to identify problem farms and the cost of incorrectly visiting or penalizing problem farms before carcass lesions can be used as welfare indicators in a commercial setting. [ABSTRACT FROM AUTHOR]

Published

2017

6. Genetic relationships between measures of sexual development, boar taint, health, and aggressiveness in pigs.

Author

Parois, S. P., Prunier, A., Mercat, M. J., Merlot, E., and Larzul, C.

Subjects

*SWINE breeding, *SWINE genetics, *SWINE behavior

Abstract

Breeding intact boars is a promising alternative to surgical castration of piglets. Genetic selection should enable farmers to solve problems due to boar taint and aggressiveness while taking into account potential consequences on other traits of interest. The aim of the study was to estimate genetic relations between sexual development, boar taint, health, and aggressiveness. About 1,600 Pietrain (purebred) or Pietrain × Large White (crossbred) boars were raised in a testing station. Blood samples were collected at about 105 kg BW for measuring sex hormones (testosterone and estradiol) and indicators of the inflammatory status (C-reactive protein [CRP], pig major acute-phase protein [pigMAP], and blood formula). Animals were slaughtered 9 d later and measured for boar taint compounds present in fat (androstenone and skatole) and skin lesions on carcass, an indicator of aggressiveness. For both genetic types, heritability was moderate for sex hormones (from 0.17 to 0.29) and skatole (0.24 for purebred and 0.37 for crossbred) and high for androstenone (0.63 and 0.70 for purebred and crossbred, respectively). Genetic correlations between sex hormones and boar taint compounds were moderate to high (from 0.31 to 0.95). Heritability was moderate for CRP (0.24 and 0.46 for purebred and crossbred, respectively) and very low for pigMAP (0.06 and 0.05 for purebred and crossbred, respectively). Numbers of leukocytes had moderate to high heritabilities according to the genetic type (from 0.21 to 0.52). Heritability of skin lesions was moderate for both genetic types (0.31). Genetic correlations were negative between sex hormones and inflammatory measures (from -0.46 to -0.05), positive between testosterone and number of lesions (0.43 and 0.53 for purebred and crossbred, respectively), and low between androstenone and lesions (-0.06 and -0.17 for purebred and crossbred, respectively[). Overall, both breeds of pigs had very similar estimations of heritabilities, but estimates of genetic correlations were different for some pairs of traits. It would be possible to select boars based on their plasma concentration of sex hormones to decrease boar taint and aggressiveness without important consequences on the immune response. However, because of the strong links between boar taint and reproductive function, the possible consequences on the reproductive performance should be evaluated. [ABSTRACT FROM AUTHOR]

Published

2015

7. Genetic associations of short-and long-term aggressiveness identified by skin lesion with growth, feed efficiency, and carcass characteristics in growing pigs.

Author

Desire, S., Turner, S. P., D'Eath, R. B., Doeschl-Wilson, A. B., Lewis, C. R. G., and Roehe, R.

Subjects

*SWINE genetics, *ANIMAL aggression, *INGESTION, *LIVESTOCK carcasses, *ANIMAL development, *FEED utilization efficiency of swine

Abstract

The objective of this study was to investigate the genetic relationships between skin lesion traits in group housed growing pigs as a measure of short-(in a newly mixed group) and long-(in a socially stable group) term aggression and commonly used commercial performance measures: growth, feed intake, feed efficiency, and carcass traits. Data on 2,413 growing pigs (138 groups) were available. Pigs were mixed into new social groups of 18 animals, and skin lesions were counted 24 h (SL24h) and 5 wk (SL5wk) postmixing. The animal model was used to estimate genetic parameters for skin lesion traits, test daily gain, lifetime daily gain, daily feed intake, feed efficiency (calculated as test daily gain divided by daily feed intake), loin depth, back fat, and HCW. Skin lesions had a heritable component, ranging from 0.08 for anterior SL24h to 0.22 for central SL5wk and would, therefore, be suitable as a method of phenotyping aggression for selection purposes. Significant positive genetic correlations were found between SL24h and SL5wk (0.46 to 0.81). Positive genetic correlations were also found between SL24h (central and posterior body regions) or SL5wk (all body regions) and the production traits lifetime daily gain, test daily gain, and HCW (0.29 to 0.54). Central SL24h, anterior SL5wk, and posterior SL5wk were found to correlate positively with feed efficiency (0.39 to 0.50), suggesting that pigs with more lesions convert feed more efficiently. Where significant, the magnitude of phenotypic correlations was low but positive (0.07 to 0.10). These results suggest that, genetically, animals that receive many lesions show improved performance compared to those with few lesions, except for anterior SL24h, which had previously been shown to be genetically positively correlated with the initiation of nonreciprocal attacks. It may, therefore, be possible, via selection against anterior skin lesions at mixing, to reduce this form of 1-sided aggression without adversely affecting production traits. [ABSTRACT FROM AUTHOR]

Published

2015

8. Behavioral and physiological responses of primiparous sows to mixing with older, unfamiliar sows.

Author

Ison, S. H., Donald, R. D., Jarvis, S., Robson, S. K., Lawrence, A. B., and Rutherford, K. M. D.

Subjects

*SWINE, *HYDROCORTISONE, *SALIVA analysis, *SKIN diseases, *SOWS

Abstract

Pigs are mixed into new social groups at various stages of production, and this study investigated the response of gilts to mixing with older unfamiliar sows. Four groups of 6 gilts and 1 group of 5 gilts were housed in stable groups until the most recently bred female reached d 39 of gestation. Then, stable groups were split such that 15 gilts remained in their home pens (CON) and 14 gilts were mixed (MIX) with 3 multiparous sows for 1 wk (M 1 ), returned to the home pen for 1 wk, and then mixed with 3 different sows for 1 wk (M2). Continuous behavioral observations of gilt location in the pen, posture, aggressive, and other social interactions were made from the start of Ml and M2 for 5 h. Five-minute scans of location, posture, and behavior as well as salivary Cortisol measurements were taken before, during, and after each mix week, whereas skin lesions were counted before and after each mix. During the mixed period, MIX gilts spent more (P ≤ 0.009) time in the individual feeding stalls, ventral lying, sitting, involved in aggression, and idle and less (P < 0.001) time in the straw-bedded area, lateral lying, and performing exploratory behavior (chewing, nosing, and rooting) than CON gilts. Additionally, MIX gilts had greater (P < 0.001 ) salivary Cortisol concentrations and accumulated more (P < 0.001) skin lesions during mixing sessions compared to CON gilts. Mixed gilts in M2 spent more (P ≤ 0.013) time in the feeding stalls and ventral lying and less (P ≤ 0.029) time standing and in the dunging passageway compared to M1. Compared to Ml, gilts had lower (P ≤ 0.001) salivary Cortisol concentrations and fewer (P < 0.027) lesions in front and middle regions of the body during M2. During M2, salivary Cortisol concentration was positively correlated with time spent in the dunging passageway (Spearman's rank correlation [rs] = 0.650, P = 0.022) and negatively correlated with time spent in the feeding stalls (rs = -0.762, P = 0.004). Results indicated that gilts adapted their behavior during M2 by using the feeding stalls more, and they became less active, especially when interacting with the sows. Despite this adaptation in M2, lesions and salivary Cortisol in M IX gilts were much greater than in CON gilts, highlighting the severity of mixing gilts with multiparous sows. [ABSTRACT FROM AUTHOR]

Published

2014

9. Stress susceptibility in pigs supplemented with ractopamine.

Author

Athayde, N. B., Costa, O. A. Dalla, Roça, R. O., Guidoni, A. L., Ludtke, C. B., Oba, E., Takahira, R. K., and Lima, G. J. M. M.

Subjects

*SWINE nutrition, *SWINE, *DISEASE susceptibility, *RACTOPAMINE, *EXSANGUINATION, *LIVESTOCK carcasses, *CREATINE kinase, *ANIMAL health

Abstract

Ractopamine is a ß-adrenergic agonist used as an energy repartitioning agent in the diets of finishing pigs. Most ractopamine studies are limited to evaluations of growth performance and meat quality, and there is little information on the effects of this additive on the behavior and welfare of pigs. Therefore, the objective of this study was to evaluate various indicators of stress caused by feeding diets containing ractopamine. One hundred seventy barrows and 170 gilts weighing 107.3 kg were allocated to 30 pens with 10 to 12 barrows or gilts per pen. Pigs were offered 1 of the 3 dietary treatments (0, 5, or 10 mg ractopamine/kg) for 28 d with 5 barrow pens and 5 gilt pens per treatment. Pigs were evaluated for behavior 3 d per week 1 wk before the initiation of the experiment and throughout the experiment. Each pig was classified into 1 of the 13 activities (drinking water, lying alone, lying in clusters, standing, nosing pig, sitting, feeding, biting pig, walking, exploring, running away, playing, and mounting pen mates) and also grouped into 1 of the 3 categories (calm, moving, and feeding themselves) based on those activities. At the end of the experiment, 3 pigs from each pen were slaughtered, and blood samples were collected during exsanguination to determine physiological indicators of stress (cortisol, lactate, and creatine-kinase enzymes). The incidence of skin and carcass lesions was determined at shoulder, loin, and ham. Ractopamine had no effect (P > 0.05) on pig behavior, total number of skin and carcass lesions, or blood concentrations of cortisol or lactate. However, there was an increase (P < 0.05) of creatine kinase concentrations in pigs receiving ractopamine-supplemented feed. This finding is consistent with the concept that ractopamine may cause muscular disorders, and this warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2013

10. Genetic associations between behavioral traits and direct-social effects of growth rate in pigs.

Author

Canario, L., Turner, S. P., Roehe, R., Lundeheim, N., D'Eath, R. B., Lawrence, A. B., Knol, E., Bergsma, R., and Rydhmer, L.

Subjects

*SWINE growth, *SWINE genetics, *SWINE behavior, *SKIN diseases, *ANIMAL aggression, *ANIMAL social behavior, *SWINE

Abstract

This study examined the behavioral con-sequences of selecting pigs using a social genetic model for growth. Calculations enable each member of a group of pigs to be given a direct breeding value (DBV) and a social breeding value (SBV), which can be summa-rized into a total breeding value (TBV) for growth. Selection for growth TBV could affect animal behavior because social effects account for within-group interac-tions. Data were recorded from 96 groups of Yorkshire and Yorkshire x Landrace pigs in a nucleus herd. Each group contained 15 pigs fed ad libitum from 2 feeders; the space allowance was 0.85 m2/pig. Average daily gain was quantified from 35 to 100 kg of BW. Fighting and bullying activity at mixing (period 1), lying frequency 3 wk after mixing (period 2), and counts of skin lesions in periods 1 and 2 were recorded. The DBV for these traits were estimated with a classic animal model. We simu-lated different correlations between the direct genetic effect and the social genetic effect on growth rate (rDS), 2 components that respectively determine a pig's genetic capacity to grow and its genetic influence on growth of group mates: rDS was successively assumed to be 0 and ±0.12, ±0.20, ±0.29, and ±0.58. Finally, the correlations between DBV, SBV, and TBV for ADG, as well as the DBV for behavior and skin lesions, were calculated and tested for a level of significance at P < 0.05. The gra-dient from negative to positive values of rDS refers to a progressive path running from genetic antagonism to genetic mutualism for growth. If rDS in the population truly ranged between -0.58 and -0.20, correlations for TBV for ADG with DBV for fighting and bullying pro-gressively increased with rDS. Consequently, if rDS was low (between -0.12 and +0.12) or positive (>±0.12), pigs with high TBV for ADG had higher DBV for bul-lying other pigs in the group and for fighting than pigs with lower TBV for ADG. Pigs with high TBV for ADG did not differ from other pigs in their DBV for lesions to the anterior part of the body, but they had a lower DBV for posterior lesions, whereas in period 2, they had high-er DBV for posterior lesions and lower DBV for lying. Under genetic mutualism for growth and in housing conditions similar to those in the present study, selection for growth TBV would promote the rapid establishment of the dominance relationships, with more aggressive contests among group mates at mixing. Pigs would sub-sequently be more active but, judging by skin lesions, less willing to fight in a more stable social situation. [ABSTRACT FROM AUTHOR]

Published

2012

11. Influence of increased feeding frequency on behavior and integument lesions in growing-finishing restricted-fed pigs.

Author

Hessel, E. F., Wülbers-Mindermann, M., Berg, C., Van Den Weghe, H. F A., and Algerst, B.

Subjects

*SWINE disease diagnosis, *SWINE behavior, *SKIN cancer, *ANIMAL feeding, *ANIMAL feeds, *LIVESTOCK, *RANGE management, *ANIMAL culture, *ANIMAL industry

Abstract

This study evaluated how feeding frequency affects behavior and the occurrence of skin lesions in growing-finishing pigs. One hundred eighty pigs (27 to 112 kg of BW) were reared in one environ- mentally controlled room (20 pens; 9 pigs/pen). Pigs in 10 pens were fed 3 times daily (reference group), whereas the others were fed 9 times daily (experimental group). Both groups received the same total amount of liquid feed. Rations were adjusted to the mean pen weights. Behavioral observations (scan sampling, as well as continuous focal pig observations) were made in wk 4, 10, and 14 of the growing-finishing period. After each observation, skin lesions were assessed individually for each pig. Pigs fed 9 times daily tended to lie laterally for less time (P = 0.083) and tended to be active (P = 0.054) during the day, especially in growing-finishing wk 4 (P = 0.007). With continuously observed focal pigs, no differences in time allocations for feeding were found between groups. During feeding in growing-finishing wk 4, focal pigs belonging to the experimental group displayed more aggressive actions (P = 0.019), tended to perform aggressive actions for a longer time (P = 0.076), and tended to be belly-nosed for a longer time (P = 0.083) compared with the reference group. In addition, in growing-finishing wk 14, pigs in the experimental group had greater scores for skin lesions (head, P = 0.001; belly, P < 0.001; caudal part, P <0.001) and tended to be belly-nosed for a longer time (P = 0.084). In the case of pigs restricted-fed liquid feed, a greater frequency of feeding per day appears to be a condition that results in greater competitive feeding than with a lower feeding frequency. [ABSTRACT FROM AUTHOR]

Published

2006

12. Estimation of indirect social genetic effects for skin lesion count in group-housed pigs by quantifying behavioral interactions1.

Author

Angarita BK, Cantet RJC, Wurtz KE, O’Malley CIO, Siegford JM, Ernst CW, Turner SP, and Steibel JP

Subjects

Aggression, Animals, Female, Male, Models, Genetic, Phenotype, Skin injuries, Swine genetics, Animal Welfare, Behavior, Animal, Swine physiology

Abstract

Mixing of pigs into new social groups commonly induces aggressive interactions that result in skin lesions on the body of the animals. The relationship between skin lesions and aggressive behavioral interactions in group-housed pigs can be analyzed within the framework of social genetic effects (SGE). This study incorporates the quantification of aggressive interactions between pairs of animals in the modeling of SGE for skin lesions in different regions of the body in growing pigs. The dataset included 792 pigs housed in 59 pens. Skin lesions in the anterior, central, and caudal regions of the body were counted 24 h after pig mixing. Animals were video-recorded for 9 h postmixing and trained observers recorded the type and duration of aggressive interactions between pairs of animals. The number of seconds that pairs of pigs spent engaged in reciprocal fights and unilateral attack behaviors were used to parametrize the intensity of social interactions (ISI). Three types of models were fitted: direct genetic additive model (DGE), traditional social genetic effect model (TSGE) assuming uniform interactions between dyads, and an intensity-based social genetic effect model (ISGE) that used ISI to parameterize SGE. All models included fixed effects of sex, replicate, lesion scorer, weight at mixing, premixing lesion count, and the total time that the animal spent engaged in aggressive interactions (reciprocal fights and unilateral attack behaviors) as a covariate; a random effect of pen; and a random direct genetic effect. The ISGE models recovered more direct genetic variance than DGE and TSGE, and the estimated heritabilities (h^D2) were highest for all traits (P < 0.01) for the ISGE with ISI parametrized with unilateral attack behavior. The TSGE produced estimates that did not differ significantly from DGE (P > 0.5). Incorporating the ISI into ISGE, even in a small dataset, allowed separate estimation of the genetic parameters for direct and SGE, as well as the genetic correlation between direct and SGE (r^ds), which was positive for all lesion traits. The estimates from ISGE suggest that if behavioral observations are available, selection incorporating SGE may reduce the consequences of aggressive behaviors after mixing pigs., (© The Author(s) 2019. Published by Oxford University Press on behalf of the American Society of Animal Science. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019