Original research Peer reviewed
US swine industry productivity analysis, 2005 to 2010  
Análisis de la productividad de la industria porcina de Los Estados Unidos, 2005 a 2010
Analyse de la productivité de l’industrie porcine américaine, 2005 à 2010
Mark T. Knauer, PhD; Chris E. Hostetler, PhD
MTK: North Carolina State University, Raleigh, North Carolina. CEH: National Pork Board, Des Moines, Iowa. Corresponding author: Dr Mark Knauer, Campus Box 7621, Raleigh, NC 27695; Tel: 919-515-8797; Fax: 919-515-6316; E-mail: mtknauer@ncsu.edu.

RIS citationCite as: Knauer MT, Hostetler CE. US swine industry productivity analysis, 2005 to 2010. J Swine Health Prod. 2013;21(5):248–252.
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Summary

Objective: To quantify US swine production trends for sow-farm and grow-finish traits from a large available database.

Materials and methods: Data were provided by a data management company, representing annual production of approximately 1.8 million sows in the United States. Sow-farm traits included pigs per mated female per year, litters per mated female per year, total number born, number born alive, number weaned, preweaning mortality, weaning age, weaning weight, replacement rate, culling rate, sow mortality, lactation-feed intake, and gestation-feed intake. Grow-finish traits included entry age, entry weight, exit age, exit weight, average daily gain, feed efficiency, caloric efficiency, and mortality.

Results: From 2005 to 2010, pigs per mated female per year, litters per mated female per year, number born alive, number weaned, weaning age, weaning weight, and lactationfeed intake increased (P < .05). Sow mortality decreased (P < .05) and replacement rate did not change (P > .05). Entry age and entry weight increased (P < .05) for nursery and wean-to-finish pigs. Average daily gain improved for nursery and finishing production (P < .05), but not for wean-to-finish (P > .05). No improvements were made for finishing caloric efficiency (P > .05), and wean-to-finish caloric efficiency worsened (P < .05). Mortality for both finishing and wean-to-finish operations improved (P < .05).

Implications: Both scientists and producers can use these results to better understand US sow-farm and grow-finish production levels. Pig industry trends from 2005 to 2010 indicate varied degrees of improvement for pig production traits.

Resumen

Objetivo: Cuantificar las tendencias de la producción porcina de los Estados Unidos de las características de la granja de hembras y de crecimiento a finalización de una gran base de datos disponible.

Materiales y métodos: Los datos fueron proporcionados por una compañía de manejo de datos, que representa la producción anual de aproximadamente 1.8 millones de hembras en los Estados Unidos. Las características de las granjas de hembras incluyó los cerdos por hembra cruzada por año, camadas por hembra por año, número total de nacidos, número de nacidos vivos, número de destetados, mortalidad en maternidad, edad de destete, peso de destete, índice de reemplazo, índice de desecho, mortalidad de hembras, consumo de alimento en lactancia, y consumo de alimento en gestación. Las características de crecimiento-finalización incluyeron la edad de entrada, el peso de entrada, edad de salida, peso de salida, ganancia diaria promedio, eficiencia del alimento, eficiencia calórica, y mortalidad.

Resultados: Entre 2005 y 2010, los cerdos por hembra por año, las camadas por hembra cruzada por año, el número de nacidos vivos, el número de destetados, la edad de destete, el peso de destete, y el consumo de alimento en lactancia aumentaron (P < .05). La mortalidad de hembras disminuyó (P < .05) y el índice de reemplazo no cambió (P > .05). La edad de entrada y el peso aumentaron (P < .05) en los cerdos de lactancia y de destete a finalización. La ganancia diaria promedio mejoró en la producción de lactancia y finalización (P < .05), pero no de destete a finalización (P > .05). No hubo mejoras en la eficiencia calórica de finalización (P > .05), y la eficiencia calórica de destete a finalización empeoró (P < .05). La mortalidad para las operaciones de finalización y de destete a finalización mejoraron (P < .05).

Implicaciones: Tanto científicos como productores pueden utilizar estos resultados para comprender mejor los niveles de producción de crecimiento a finalización y las granjas de hembras de los Estados Unidos. Las tendencias de la industria porcina de 2005 a 2010 indican niveles variados de mejor en las características de producción porcina.

Resumé

Objectif: Quantifier les tendances des caractéristiques de la production porcine américaine pour les fermes de truies et d’engraissement-finition à partir d’une vaste base de données disponible.

Matériels et méthodes: Les données ont été fournies par une compagnie de gestion de données, représentant la production annuelle d’environ 1,8 millions de truies aux États-Unis. Les caractéristiques des fermes de truies incluaient le nombre de porcs par femelle accouplée par année, le nombre de portées par femelle accouplée par année, le nombre total de porcelets nés, le nombre de nés vivants, le nombre de porcs sevrés, le taux de mortalité pré-sevrage, l’âge du sevrage, le poids au sevrage, le taux de remplacement, le taux de réforme, le taux de mortalité des truies, la quantité de moulée de lactation ingérée, ainsi que la quantité de moulée de gestation ingérée. Les caractéristiques des élevages d’engraissement-finition incluaient l’âge à l’entrée, le poids à l’entrée, l’âge à la sortie, le poids à la sortie, le gain journalier moyen, l’efficacité alimentaire, l’efficacité calorique, et la mortalité.

Résultats: Entre 2005 et 2010, le nombre de porcs par femelle accouplée par année, le nombre de portées par femelle accouplée par année, le nombre de nés vivants, le nombre de porcs sevrés, l’âge du sevrage, le poids au sevrage et la quantité de moulée de lactation ingérée augmentèrent (P < .05). Le taux de mortalité des truies diminua (P < .05) et le taux de remplacement ne changea pas (P > .05). L’âge et le poids à l’entrée augmentèrent (P < .05) pour les porcs en pouponnières ainsi que pour les naisseurs-finisseurs. Le gain journalier moyen s’améliora pour les productions de type pouponnière et de finition (P < .05), mais pas pour celles de type sevrage-finition (P > .05). Aucune amélioration ne fut notée quant à l’efficacité calorique pour les porcs en finition (P > .05), et pour le sevrage-finition l’efficacité calorique empira (P < .05). Le taux de mortalité pour les opérations de type finition et sevrage-finition s’améliora (P < .05).

Implications: Autant les scientifiques que les producteurs peuvent utiliser ces données pour mieux comprendre les niveaux de production des fermes de truies et les élevages engraissement-finition. Les tendances de l’industrie porcine de 2005 à 2010 indiquent des degrés variés d’amélioration des caractéristiques de production de porcs.

Keywords: swine, grow-finish, sow, production, trend
Search the AASV web site for pages with similar keywords.

Received: August 24, 2012
Accepted: February 1, 2013


Measuring production trends is an important step in validating industry progress. Both scientists and producers can use production benchmarks to better understand performance and trends in the pig industry. While Denmark has reported production changes for both reproduction and finishing traits,1 limited production trends for only a small number of traits are publically available for pigs in North America. Within the United States, PigCHAMP (Ames, Iowa) has reported benchmarks for reproductive measures.2,3 However, no or few production changes for finishing traits in North America are publically available. Therefore, the objective of this study was to quantify US production trends for sow-farm and grow-finish traits from a large available database.

Materials and methods

Data were provided by a data management company representing approximately 1.8 million sows of annual production in the United States. Records were available from 2005 to 2010, except for records for wean-to-finish producers, that were available from 2007 to 2010. The observational unit for the data set was a producer’s production for 1 month. A producer’s production included all farms within that production system. Therefore, an observational unit contained multiple farms from one producer. For example, the 2204 records for number weaned from 2005 to 2010 represented approximately 31 producers monthly (2204 records ÷ 6 years ÷ 12 months). Sow-farm traits included pigs per mated female per year, litters per mated female per year, total number born, number born alive, number weaned, preweaning mortality, weaning age, weaning weight, replacement rate, culling rate, sow mortality, lactation-feed intake, and gestation-feed intake. Grow-finish traits were available for nursery, finishing, and wean-to-finish production phases. These traits included entry age, entry weight, exit age, exit weight, average daily gain (ADG), gain-to-feed ratio, caloric efficiency, and mortality. Caloric efficiency was calculated as the kilocalories per kg of live-weight gain and adjusted to 5.5 to 22.7, 22.7 to 118.2, and 5.5 to 118.2 kg for nursery, finishing, and wean-to-finish phases, respectively. Summary statistics for US sow-farm and grow-finish traits from 2005 to 2010 are shown in Tables 1 and 2, respectively.

Table 1: Summary statistics for US sow-farm traits from 2005 to 2010*

Trait No. of units Mean SD
Reproductive efficiency
Piglets/mated female/year 2194 23.2 2.18
Litters/mated female/year 2182 2.36 0.135
Total no. born 2217 12.46 0.706
No. born alive 2202 11.33 0.630
No. weaned 2204 9.83 0.619
Preweaning mortality (%) 2202 13.3 3.28
Piglet weaning
Weaning age (days) 2186 19.5 1.45
Weaning weight (kg/pig) 2203 5.7 0.50
Sow removal
Replacement rate (%) 2069 54.8 13.44
Culling rate (%) 2138 45.8 12.25
Sow mortality (%) 2196 9.5 4.04
Feed intake
Lactation-feed intake (kg/day) 2192 6.5 0.89
Gestation-feed intake (kg/day) 2190 2.34 0.296

*   Data were provided by a data management company representing the annual production of approximately 1.8 million sows in the United States, using records available from 2005 to 2010.

†   No. of observational units. The observational unit for the data set was a producer’s production for 1 month, including all farms within that production system.

SD = standard deviation.

Table 2: Summary statistics for US nursery, finishing, and wean-to-finish production traits from 2005 to 2010*

Trait Production type
Nursery Finishing Wean-to-finish
No. of units Mean SD No. of units Mean SD No. of units Mean SD
Entry age (days) 2170 19.4 1.42 2305 66.4 4.86 633 19.3 1.74
Entry weight (kg) 2188 5.7 0.51 2301 24.0 3.82 633 5.8 0.60
Exit age (days) 2180 65.7 4.96 2311 186 10.6 642 183 10.3
Exit weight (kg) 2186 51.3 7.00 2318 264 11.6 638 262 12.5
ADG (kg) 2188 0.38 .050 2319 0.80 .056 640 0.69 0.045
Gain-to-feed ratio 2187 0.64 .051 2311 0.36 0.026 643 0.39 0.025
Caloric efficiency‡ 2192 5111 708 2310 9332 570 645 9431 847
Mortality (%) 2170 3.6 2.12 2311 5.0 2.17 633 7.6 3.47

* Source of data and observational unit described in Table 1.

† Records for wean-to-finish producers were available from 2007 to 2010.

‡ Caloric efficiency = kilocalories/kg of live-weight gain.

SD = standard deviation; ADG = average daily gain.

Weighted means for each trait were also provided by the data management company. Weighted means were weighted by farm size, thus allowing actual means to be computed. Data were analyzed using PROC MIXED in SAS (SAS Institute, Inc, Cary, North Carolina). The PROC MIXED procedure is an analysis of variance that compares means using an F test. A value of P < .05 was considered statistically significant in all tests. All models included year and month as fixed effects.

Results

Sow-farm trait means from 2005 to 2010 are shown in Table 3. Pigs per mated female per year, litters per mated female per year, total number born, number born alive, number weaned, preweaning mortality, weaning age, weaning weight, culling rate, and lactation-feed intake were greater (P < .05) in 2010 than in 2005. Sow mortality and gestation-feed intake were lower (P < .01) and replacement rate did not differ (P > .05) in 2005 compared to 2010.

Table 3: US sow-farm trait means from 2005 to 2010*

Trait Year SE P
2005 2006 2007 2008 2009 2010
Reproductive efficiency
Piglets/mated female/year 21.5a 21.9b 22.4c 22.9d 23.4e 23.6e 0.12 < .01
Litters/mated female/year 2.31a 2.34b 2.34b 2.35b 2.34b 2.34b 0.010 .02
Total no. born 11.82a 12.07b 12.27c 12.52d 12.77e 13.03f 0.029 < .01
No. born alive 10.77a 10.92b 11.11c 11.33d 11.61e 11.83f 0.033 < .01
No. weaned 9.30a 9.39b 9.55c 9.72d 9.98e 10.08f 0.035 < .01
Preweaning mortality (%) 13.7a 14.1a 14.0a 14.2a 14.0a 14.8b 0.27 < .01
Weaning
Weaning age (days) 18.9a 19.0a 19.2b 19.6c 20.2d 20.6e 0.08 < .01
Weaning weight (kg) 5.46a 5.54b 5.62c 5.63c 5.74d 5.86e 0.015 < .01
Sow removal
Replacement rate (%) 54.1ab 57.8c 56.0bc 56.1bc 51.4a 52.2a 1.42 < .01
Culling rate (%) 41.9a 44.2b 43.4ab 48.2c 48.7c 47.5c 1.17 < .01
Sow mortality (%) 11.2a 10.7b 10.4cd 10.3c 9.8d 10.4cd 0.15 < .01
Sow feed intake
Lactation-feed intake (kg) 6.11a 6.29b 6.41c 6.41c 6.70d 6.62d 0.050 < .01
Gestation-feed intake (kg) 2.33a 2.33a 2.30ab 2.30ab 2.27b 2.27b 0.016 < .01

*   Source of data described in Table 1.

a-f Values within a row with no common superscript are statistically different (P < .05; F test for homogeneity of variances).

SE = standard error.

Nursery production means from 2005 to 2010 are shown in Table 4. Nursery entry age, entry weight, exit weight, ADG, gain-to-feed ratio, and mortality ’were greater (P < .01) and caloric efficiency was lower (P < .01) in 2005 than in 2010.

Table 4: US nursery production means from 2005 to 2010*

Trait Year SE P
2005 2006 2007 2008 2009 2010
Entry age (days) 19.2a 19.0a 19.2a 19.6b 20.1c 20.5d 0.11 < .01
Entry weight (kg) 5.53a 5.56a 5.58a 5.58a 5.70b 5.85c 0.026 < .01
Exit age (days) 68.3a 66.1b 66.2b 67.0c 66.4b 67.1c 0.2 < .01
Exit weight (kg) 22.71a 22.43a 22.21c 22.62a 22.79a 23.42d 0.09 < .01
ADG (kg) 0.367ab 0.362a 0.359a 0.364a 0.374b 0.382c 0.0041 < .01
Gain-to-feed ratio 0.637a 0.645a 0.644b 0.632a 0.652c 0.655c 0.0031 < .01
Caloric efficiency† 5183a 5267a 5218ab 5227ab 5042c 4903d 38.6 < .01
Mortality (%) 4.6a 4.4a 4.4a 5.9b 5.2c 5.0c 0.19 < .01

*    Source of data described in Table 1.

†   Caloric efficiency = kilocalories/kg of live-weight gain.

a-d Values within a row with no common superscript are statistically different (P < .05; F test for homogeneity of variances).

SE = standard error; ADG = average daily gain.

Finishing production means from 2005 to 2010 are shown in Table 5. Entry age, entry weight, exit weight, ADG, and gain-to-feed ratio were greater (P < .01) in 2010 than in 2005. Exit age and mortality were lower (P < .01) and caloric efficiency did not differ (P > .05) in 2010 compared to 2005.

Table 5: US finishing production means from 2005 to 2010*

Trait Year SE P
2005 2006 2007 2008 2009 2010
Entry age (days) 66a 65b 66ac 67c 66ac 68d 0.4 < .01
Entry weight (kg) 23.0a 23.4ab 23.0a 22.9a 23.0a 24.0b 0.29 < .01
Exit age (days) 191a 185b 188c 190d 188c 190d 0.5 < .01
Exit weight (kg) 117.7a 116.9b 117.8a 117.9a 118.8c 119.9d 0.41 < .01
ADG (kg) 0.735a 0.763b 0.800c 0.786c 0.798c 0.797c 0.0070 < .01
Gain-to-feed ratio 0.354a 0.361b 0.361bc 0.357d 0.364c 0.364bc 0.0015 < .01
Caloric efficiency† 9399ab 9358abc 9231c 9216c 9257bc 9464a 79.4 < .01
Mortality (%) 6.7ab 6.3bc 7.1a 5.9cd 5.4de 5.2e 0.34 < .01

*    Source of data described in Table 1.

†   Caloric efficiency = kilocalories/kg of live-weight gain.

a-d Values within a row with no common superscript are statistically different (P < .05; F test for homogeneity of variances).

SE = standard error; ADG = average daily gain.

Wean-to-finish production means from 2007 to 2010 are shown in Table 6. Entry age, exit age, exit weight, and caloric efficiency were greater (P < .05) in 2010 than in 2007. Mortality was lower (P < .01) in 2010 than in 2007. Entry weight, ADG, and gain-to-feed ratio did not differ (P > .05) between years.

Discussion

The authors acknowledge that the data set does not represent all producers in the United States. However, the study does characterize a major portion of the pigs in the United States and can be construed as such.

The United States continues to show improvements in sow productivity. Number weaned per litter increased from 9.30 in 2005 to 10.08 in 2010. This improvement is in agreement with reports from other US databases.2-5 In 2006 and 2007, PigCHAMP2,3 reported numbers weaned in the United States were 9.30 and 9.60 pigs per litter, respectively. The United States Department of Agriculture’s Quarterly Hogs and Pigs4,5 reported numbers weaned in 2005 and 2010 were 9.02 and 9.78, respectively. Collectively, these studies document increases in sow productivity for US pig farms. These improvements can be attributed to both improved management and genetics.

Results from the current study showed that 86% of the improvement in pigs per mated female per year was due to an increase in number weaned per litter, and 14% of the improvement was due to an increase in litters per mated female per year. In agreement, Denmark1 reported number weaned increased from 9.9 in 1996 to 11.6 in 2006, while litters per sow per year decreased from 2.27 in 1996 to 2.23 in 2006. Thus, producers have predominantly focused on increasing pigs per mated female per year by increasing number weaned.

The current analysis found varied levels of improvement for grow-finish throughput traits (growth rate, mortality) and cost traits (feed efficiency, caloric efficiency) across production types. Mixed levels of improvement have also been reported in Denmark.1 From 1996 to 2007, the Danes reported ADG for nursery and finisher pigs improved from 0.420 to 0.434 kg and 0.762 to 0.866 kg, respectively, while gain-to-feed ratio for finishers improved from 0.341 to 0.358.1 However, the same study reported mortality for nursery and finisher pigs increased from 2.8% to 3.1% and 3.2% to 4.3%, respectively. Perhaps improvements in ADG and gain-to-feed ratio can be explained by improvements in genetics and nutrition. A study by Fix et al6 reported that changes in both genetics and feeding programs between 1980 and 2005 resulted in improvements for both growth rate and feed efficiency.

Cost-effective improvements in production metrics will enable pig producers to maximize profitability. Scientists from multiple disciplines (engineering, genetics, immunology, nutrition, physiology, veterinary medicine, etc) should work together to solve complex problems that impact cost of production and pig performance. The trends outlined in the current study will help educate scientists on how the pig industry has improved and where there are opportunities to improve.

Implications

•  Scientists and producers can apply the annual production data from approximately 1.8 million sows, in this study used to represent the US swine industry, to better understand US sow-farm and grow-finish production data.

•  Pig industry trends from 2005 to 2010 indicate varied degrees of improvement for production traits.

Conflict of interest

None reported.

References

1. Danish Pig Production. List of annual reports. Copenhagen, Denmark; 2009. Available at: http://www.danishpigproduction.dk/Annual_reports/Annual_Reports.htm. Accessed 22 April 2013.

2. Anil SS, Deen J. PigCHAMP. Benchmark PigCHAMP year in review. Ames, Iowa: Farms.com Media and PigCHAMP; 2007. Available at: http://www.pigchamp.com/Portals/_default/Skins/PigChamp/Creative/Assets/PDF/Benchmark_2007_File_A.pdf. Accessed 22 April 2013.

3. Deen J. PigCHAMP. Benchmark 2007 Summary of the PigCHAMP database. Ames, Iowa: Farms.com Media and PigCHAMP; 2008. Available at: http://www.pigchamp.com/Portals/_default/Skins/PigChamp/Creative/Assets/PDF/Benchmark_2008.pdf. Accessed 22 April 2013.

4. National Agricultural Statistics Service, United States Department of Agriculture. Quarterly Hogs and Pigs. 2006. Available at: http://usda01.library.cornell.edu/usda/nass/HogsPigs//2000s/2007/HogsPigs-03–30–2007.txt. Accessed 22 April 2013.

5. National Agricultural Statistics Service, Agricultural Statistics Board, United States Department of Agriculture. Quarterly Hogs and Pigs. 2011. Available at: http://usda01.library.cornell.edu/usda/nass/HogsPigs//2010s/2012/HogsPigs-03–30–2012.txt. Accessed 22 April 2013.

6. Fix JS, Cassady JP, Herring WO, Holl JW, Culbertson MS, See MT. Effect of piglet birth weight on body weight, growth, backfat, and longissimus muscle area of commercial market swine. Livest Sci. 2010;127:51–59.