Study of the mortality rate in pre-fattening pigs

Authors

  • Jaroslav Novotný University of Veterinary Medicine and Pharmacy, Košice, Slovakia
  • David Grivalský Veterinary clinic, Ludvika Svobodu 77, Poprad, Slovakia
  • Zuzana Krepelková University of Veterinary Medicine and Pharmacy, Košice, Slovakia
  • Katarína Bardová University of Veterinary Medicine and Pharmacy, Košice, Slovakia
  • František Zigo University of Veterinary Medicine and Pharmacy, Košice, Slovakia

DOI:

https://doi.org/10.24203/ajafs.v10i6.7096

Keywords:

pig, Pre-fattening, mortality

Abstract

The focus of this experimental work was the long-term analysis of the mortality of pigs in the pre-fattening category, as well as the determination of the most important etiological and predisposing factors of death. We carried out this research on farm in the east of Slovakia, in the Spiš region, over a period of three years. Based on our 36-month monitoring of pig mortality, we found that pre-fattening mortality was on a downward trend with mortality rates of 2.79%, 2.72% and 2.71% in consecutive years. There is also a certain seasonal impact on mortality in pre-fattening, because we found a higher incidence of deaths especially in the cold spring, autumn and winter months. Diseases such as respiratory and diarrheal diseases were among the most important etiological and predisposing factors of mortality in the observed farm.

References

Petersen H. H., Nielsen E. O., Hassing A.G., Ersbøll A. K., Nielsen J. P. 2008: Prevalence of clinical signs of disease in Danish finisher pigs. Vet Rec. 2008 Mar 22; 162(12): 377 – 382

Straw B., Bates R., May G. 2009: Anatomical abnormalities in a group of finishing pigs: prevalence and pig performance. J. Swine Health Prod. 17: 28 – 31

Neumann E., Hall W., Stevenson M., Morris R., Ling Min Than J. 2014: Descriptive and temporal analysis of post-mortem lesions recorded in slaughtered pigs in New Zealand from 2000 to 2010. N Z Vet J. 2014 May; 62(3): 110 – 116

De Jong J. A., DeRouchey J. M., Tokach M. D., Dritz S. S., Goodband R. D., Woodworth J. C., Allerson M. W. 2016: Evaluating pellet and meal feeding regimens on finishing pig performance, stomach morphology, and carcass characteristics. J. Anim. Sci. 94: 4781 – 4788

Madson D. M., Arruda P. H. E., and Arruda B. L. 2019: Nervous and locomotor system. In: Diseases of Swine, 11th ed. Zimmerman J. J., Karriker L. A., Ramirez A., Schwartz K. J., and Stevenson G. W., and Zhang J.. Ames, IA: John Wiley & Sons. 339 – 373

Thomson J. R., Friendship M. 2019: Digestive system, Intestinal torsion (volvulus) and hemorrhagic bowel syndromes In: Zimmerman JJ, Karriker LA, Ramirez A, Schwartz KJ, Stevenson GW, Zhang J (Eds): Diseases of Swine. 11th edn. John Wiley & Sons, Inc., Ames, IA, USA, 249 – 250

Larriestra, A. J., S. Wattanaphansak, E. J. Neumann, J. Bradford, R. B. Morrison, and J. Deen. 2006: Pig characteristics associated with mortality and light exit weight for the nursery phase. Can. Vet. J. 47: 560 – 566

Zotti E., Resmini F. A., Schutz L. G., Volz N., Milani R. P., Bridi A. M., Alfieri A. A., da Silva C. A. 2017: Impact of piglet birthweight and sow parity on mortality rates, growth performance, and carcass traits in pigs. R. Bras. Sootec. 46: 856 – 862

Craig J. R., Collins C. L. , Bunter K. L. , Cottrell J. J. , Dunshea F. R. , Pluske J. R. 2017: Poorer lifetime growth performance of gilt progeny compared with sowprogeny is largely due to weight differences at birth and reduced growth in the preweaning period, and is not improved by progeny segregation after weaning. J. Anim. Sci. 95: 4904 – 4916

Skorput, D., Dujmovic Z., Karolyi D. , Lukovic Z. 2018: Variability of birth weight and growth of piglets in highly prolific sows. J. Cent. Eur. Agric. 19: 823 – 828

Piñeiro C., Manso A., Manzanilla E. G. , Morales J. 2019: Influence of sows’ parity on performance and humoral immune response of the offspring. Porcine Health Manag. 5: 1

Fangman T. J., Hardin L. E., Grellner G., Carlson M. S., Zulovich J. M., and Coleman J. L. 2001: Performance and disease status of pigs grown in a wean-to-finish facility compared to pigs grown in a conventional nursery and grower-finisher facility. J. Swine Health Prod. 9: 71 – 76

Stojanac N., Stevancevic O., Potkonjak A. , Savic B. , Stancic I., Vracar V. 2014: The impact of space allowance on productivity performance and Salmonella spp. shedding in nursery pigs. Livest. Sci. 164: 149 – 153

Pallares F. J., Yaeger M. J. , Janke B. H. , Fernandez G. , Halbur P. G. 2002: Vitamin E and selenium concentration in livers of pigs diagnosed with mulberry heart disease. J. Vet. Diagn. Invest. 14: 412 – 414

Shen H., Thomas P. R. , Ensley S. M. , Kim W. I. , Loynachan A. T. , Halbur P. G. , Opriessnig T. 2011: Vitamin E and selenium levels are within normal range in pigs diagnosed with mulberry heart disease and evidence for viral involvement in the syndrome is lacking. Transbound. Emerg. Dis. 58: 483 – 491

Hopkins, D., Poljak Z., Farzan A. , Friendship R. 2018: Factors contributing to mortality during a Streptoccocus suis outbreak in nursery pigs. Can. Vet. J. 59:623 – 630.

Agostini P. S., Manzanilla E. G., Blas C., Fahey A. G., Silva C. A., and Gasa J. 2015. Managing variability indecision making in swine growing-finishing units. Ir. Vet. J. 68: 20

Calderon Diaz J. A., Manzanilla E. G. , Diana A., Boyle L. A. 2018: Cross-fostering implications for pig mortality, welfare, and performance. Front. Vet. Sci. 5: 123

Lopez-Verge, S., J. Gasa, J. Coma, J. Bonet, and D. SolaOriol. 2019: Effect of lactation length caused by the management production system on piglet performance until slaughter. Livest. Sci. 224: 26 – 30

Zomborszky M. K., Vetesi F. , Repa I., Kovacs F., Bata A., Horn P., Toth A., Romvari R. 2000: Experiment to determine the limits of tolerance for Fumonisin B1 in weaned piglets. J. Vet. Med. B. Infect. Dis. Vet. Public Health. 47: 277 – 286

Ensley S. M. and Radke S. L. 2019: Toxic minerals, chemicals, plants, and gases. In: J. J. Zimmerman, L. A. Karriker, A. Ramirez, K. J. Schwartz, and G. W. Stevenson, and J. Zhang. Diseases of swine, 11th ed. Ames, IA: John Wiley & Sons, 1072 – 1088

Gebhardt J. T., Tokach M. D., Dritz S. S., DeRouchey J. M., Woodworth J. C., Goodband R. D., Henry S. C. 2020: Postweaning mortality in commercial swine production. I: review of non-infectious contributing factors. Transl Anim Sci. 2020 May 21;4(2):txaa068. doi: 10.1093/tas/txaa068

Sobestiansky J., Morés N., Weiblen R., Reis R. & Barcellos D. E. N. 2012: Classificação das doenças, p.14-20. In: Sobestianksy, J. & Barcellos D.E.N. 2012. Doenças dos suínos. 2ª ed. Cânone, Goiânia.

Knauer M. T., and Hostetler C. E. 2013: US swine industry productivity analysis, 2005 to 2010. J. Swine Health Prod. 21: 248 – 252

USDA 2015. Swine 2012: Part I: Baseline reference of swine health and management in the United States, 2012. Fort Collins, CO: USDA-APHIS-VS, CEAH. #663.0814

Mondal S.K., De U.K., Das G.K., Powde A.M. & Verma A.K. 2012: Pattern of mortality of crossbred pigs in an organized swine production farm. J. Livest. Sci. 3:37-44.

Losinger W. C., Bush E. J., Smith M. A., and Corso B. A. 1998: An analysis of mortality in the grower/finisher phase of swine production in the United States. Prev. Vet. Med. 33: 121 – 145

Dutta B. & Rahman T. 2006. Epidemiological studies on the preweaning mortality of piglets in the organized farms of Assam. Indian Vet. J. 83(4):376-378.

Maes D.G., Duchateau L., Larriestra A., Deen J., Morrison R.B. & de Kruif A. 2004: Risk factors for mortality in grow-finishing pigs in Belgium. J. Vet. Med. B 51(7):321-326. <https://dx.doi.org/10.1111/j.1439-0450.2004.00780.x>

Jensen T.B. & Toft N. 2009: Causes of and predisposing risk factors for leg disorders in growing-finishing pigs. CAB Rev., Perspectives Agricult. Vet. Sci. Nutr. Nat. Resources 4(010):1-8. <https://dx.doi.org/10.1079/PAVSNNR20094010>

Maes D., Larriestra A., Deen J., and Morrision R. 2001: A retrospective study of mortality in grow-finish pigs in a multi-site production system. J. Swine Health Prod. 9: 267 – 273.

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Published

2023-01-07

How to Cite

Study of the mortality rate in pre-fattening pigs. (2023). Asian Journal of Agriculture and Food Sciences, 10(6). https://doi.org/10.24203/ajafs.v10i6.7096

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