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Effect of Weight Asymmetry on Serological Parameters, Tibia Bone Characteristics and Gut Morphology of Pigs

Yıl 2021, Cilt: 38 Sayı: 1, 20 - 27, 30.04.2021
https://doi.org/10.13002/jafag4704

Öz

Sorting and rearing of pigs on equal weight basis is one of management options used in improving the welfare of pigs. A sixteen-week study was carried out to investigate the serological responses, tibia bone characteristics and gut morphology of pigs to weight asymmetry. Fifty-four Large White growing pigs (15.33±0.2 kg) were assigned to three treatments (Homozygous heavy, homozygous light and heterozygous weights) with 18 pigs per treatment, further sub-divided into 6 replicates with 3 pigs per replicate. On 16th week of the experiment, one pig per replicate group was selected, fasted and sacrificed. Blood samples, sections of the gut (duodenum. jejunum and ileum) and tibia bone were collected for the assessment. Data generated were subjected to 1-way analysis of variance using SAS (2003) package. The results showed that total protein, albumin, total cholesterol, high density lipoprotein and aspartate aminotransferase were significantly influenced by weight asymmetry. Weight asymmetry had positive impact on duodenum villus height and ileum lamina propria depth of the pigs. Wet bone weight, bone length, medial thickness and lateral thickness of the tibia were also influenced by weight asymmetry. It was concluded that weight asymmetry had positive impact on some serological parameters, gut and tibia bone characteristics of pigs.

Kaynakça

  • Bostami ABMLR, Islam MM, Mun HS, Yang JS, Yang CJ (2015). Weight grouping as an animal welfare issue on performance, immunity and meat composition in pigs. International Journal of Advanced Research, 3(12):1607-18.
  • Cheng J, Claudy J, Allen E, Schinckel. AP, Thompson N (2018). Pigs and the Tyson foods marketing grid: Impact of sorting errors and sort loss and optimal market weight for market pigs. Purdue Extension, extension.purdue.edu/extmedia/AS/AS-643-W.PDF (Accessed to web: 06.02.2019).
  • Couillard C, Després J, Lamarche B. et al (2001). Effects of endurance exercise training on plasma HDL cholesterol levels depend on levels of triglycerides. Arteriosclerosis, Thrombosis, and Vascular Biology, 21:1226–32.
  • Daly TM, Kempe KC, Scott MG (1996). Bouncing Creatinine levels. New England Journal of Medicine, 334: 1749–50.
  • Dong GZ, Pluske JR (2007). The low feed intake in newly-weaned pigs’ problems and possible solutions. Asian-Australian Journal of Animal Science, 20: 440-52.
  • Douma BT, Briggs HG (1972). Serum Albumin by Bromo Cresol Green Binding Stand. Meth. Clinical. Chemistry, 7: 175-9
  • Elena Lara de la Casa (2017). Intensively pig farming: Ethical considerations. Derecho Animal, 8(3):1-8. http://ddd.uab.cat/pub/da/da_a2017v8n3/da_a2017v8n3a3.pdf
  • Fels M, Hartung J, Hoy S (2014). Social hierarchy formation in piglets mixed in different group compositions after weaning. Applied Animal Behaviour Science, 152:17–22.
  • FUNAAB (2013). Policy on research of the Federal University of Agriculture. Abeokuta. Nigeria, (Accessed to web: 21.09.2018).
  • Halas D, Hansen CF, Hampson DJ et al (2010). Dietary supplementation with benzoic acid improves apparent ileal digestibility of total nitrogen and increases villous height and caecal microbial diversity in weaner pigs. Animal and Feed Science Technology, 160: 137-47
  • Hampson DJ (1986). Alterations in piglet small intestinal structure at weaning. Research in Vetinary Science; 40:32–4.
  • Heo JM, Opapeju FO, Pluske JR, Kim JC, Hampson DJ, Nyachoti CM (2013). Gastrointestinal health and function in weaned pigs: a review of feeding strategies to control post-weaning diarrhoea without using in-feed antimicrobial compounds. Journal of Animal Physiology and Animal Nutrition, 97: 207–37
  • Janssen I, LeBlanc A (2010). Systematic review of the health benefits of physical activity and fitness in school aged children and youth. International Journal of Behavioural, Nutritional and Physical Activity, 7(40): 1-16.
  • Kwiatkowska K, Kwiecien M, Winiarska-Mieczan A (2017). Fast-growing chickens fed with lucerne protein-xanthophyll concentrate: growth performance, slaughter yield and bone quality. Journal of Animal and Feed Sciences, 26(2):131-4
  • Leibowitz A, Klin Y, Gruenbaum BF et al (2012). Effects of strong physical exercise on blood glutamate and its metabolite 2-ketoglutarate levels in healthy volunteers. Acta Neurobiological Experiment, 72:385–96.
  • Marchant-Forde JN, Marchant-Forde RM (2005). Minimizing inter-pig aggression during mixing. Pig News and Information, 26(3): 63N-71N
  • Nabuurs MJA, Hoogendoorn A, Van Der Molen EJ, Van Osta ALM (1993). Villus height and crypt depth in weaned and unweaned pigs, reared under various circumstances in the Netherlands. Res Vet Science, 55:78–84.
  • National Research Council (NRC, 1998). Nutrient requirement of swine (10th Revised Ed.). Sub Committee on Animal Nutrition, National Research Council, 210.
  • Njoku CP, Olorunsola RA, Osofowora AO, Apata SD, Ayano TR, Omoniyi Jo, Adeyemi OA (2020) Body weight asymmetry as an animal welfare concern on carcass yield, ham proximate composition, mineral and lipid profiles of growing pigs. Nigerian Journal of Animal Science 22(3):216-228.
  • Nkukwana TT, Muchenje V, Masika PJ, Hoffman LC, Dzama K. The effect of Moringa Oleifera leaf meal supplementation on tibia strength, morphology and inorganic content of broiler chickens. South African Journal of Animal Science 2014; 44:228-39.
  • Pluske JR, Hampson DJ, Williams IH (1997). Factors influencing the structure and function of the small intestine in the weaned pigs: a review. Livestock Science, 51:215-36
  • Puppe B, Langbein J, Bauer J, Hoy S (2008). A comparative view on social hierarchy formation at different stages of pig production using sociometric measures. Livestock Science, 113(2-3): 155-162
  • Rodenburg TB, Koene P (2007). The impact of group size on damaging behaviours, aggression, fear and stress in farm animals. Applied Animal Behaviour Science, 103(3): 205-14
  • SAS. Statistical Analysis Systems Institute. SAS user’s guide: statistics 2003; Version 9.1, SAS Institute Inc., Cary, NC, USA.
  • Shaw AL, Blake JP, Moran E (2010). Effects of flesh attachment on bone breaking and of phosphorus concentration on performance of broilers hatched from young and old flocks. Poultry Science, 89(2): 295-02.
  • Sheri R, Colberg RJ. Sigal B et al (2010). Exercise and Type 2 Diabetes. Diabetes Care, 33: 147– 67
  • Sogunle OM, Olaniyi OA, Egbeyale LT, Akinola OS, Shittu TA, Abiola SS, Ladokun AO, Sobayo RA. {2012). Free range and deep litter poultry production systems: effect on performance, carcass yield and meat composition of cockerel chickens. Tropical Animal Health and Production, 45:281–288.
  • Spreevwenberg MAM, Verdonk JMA, Gaskins HJ, Verstegen MWA (2001). Small intestine epitherial barrier function is compromised in pigs with low feed intake at weaning. Journal of Animal Nutrition, 131: 1520-1527.
  • Tietz R, Norbert W (1995). Clinical guide to laboratory tests (2nd ed.) Philadelphia, P.A, W.B. Saunders Company, 1096
  • Uadia PO, Orumwensodia KO, Arainru GE, Agwubike EO, Akpata CBN (2016). Effect of physical and flexibility exercise on plasma levels of some liver enzymes and biomolecules of young Nigerian adults. Tropical Journal of Pharmaceutical Research, 15(2): 421-425.
  • Van Beers-Schreurs HMG, Nabuurrs MJA, Vellenga L, Breukink HJ (1995). The effect of weaning and diets on villous height and crypt depth in the small intestines of piglets. In Proc. of IXth Int’l Conf. Prod. Dise. Farm Anim. Berlin, Germany, Pp. 103.
  • Van Nevel CJ, Decuypere JA Dieric NA, Moll K (2005). Incorporation of galactomannans in the diet of newly weaned piglets: Effect on bacteriological and some morphological characteristics of the small intestine. Arch. Anim. Nutr., 59:123–138
  • Verdonk JMAJ, Bruininx EMAM, Van der Meulen J (2007). Post-weaning feed intake level modulates gut morphology but not gut permeability in weaned piglets. Livestock Science, 108:146–149
  • World Health Organisation (WHO, 1995). The use and interpretation of anthropometry. Geneva: WHO; World Health Organisation, 64: 929-941.

Effect of Weight Asymmetry on Serological Parameters, Tibia Bone Characteristics and Gut Morphology of Pigs

Yıl 2021, Cilt: 38 Sayı: 1, 20 - 27, 30.04.2021
https://doi.org/10.13002/jafag4704

Öz

Sorting and rearing of pigs on equal weight basis is one of management options used in improving the welfare of pigs. A sixteen-week study was carried out to investigate the serological responses, tibia bone characteristics and gut morphology of pigs to weight asymmetry. Fifty-four Large White growing pigs (15.33±0.2 kg) were assigned to three treatments (Homozygous heavy, homozygous light and heterozygous weights) with 18 pigs per treatment, further sub-divided into 6 replicates with 3 pigs per replicate. On 16th week of the experiment, one pig per replicate group was selected, fasted and sacrificed. Blood samples, sections of the gut (duodenum. jejunum and ileum) and tibia bone were collected for the assessment. Data generated were subjected to 1-way analysis of variance using SAS (2003) package. The results showed that total protein, albumin, total cholesterol, high density lipoprotein and aspartate aminotransferase were significantly influenced by weight asymmetry. Weight asymmetry had positive impact on duodenum villus height and ileum lamina propria depth of the pigs. Wet bone weight, bone length, medial thickness and lateral thickness of the tibia were also influenced by weight asymmetry. It was concluded that weight asymmetry had positive impact on some serological parameters, gut and tibia bone characteristics of pigs.

Kaynakça

  • Bostami ABMLR, Islam MM, Mun HS, Yang JS, Yang CJ (2015). Weight grouping as an animal welfare issue on performance, immunity and meat composition in pigs. International Journal of Advanced Research, 3(12):1607-18.
  • Cheng J, Claudy J, Allen E, Schinckel. AP, Thompson N (2018). Pigs and the Tyson foods marketing grid: Impact of sorting errors and sort loss and optimal market weight for market pigs. Purdue Extension, extension.purdue.edu/extmedia/AS/AS-643-W.PDF (Accessed to web: 06.02.2019).
  • Couillard C, Després J, Lamarche B. et al (2001). Effects of endurance exercise training on plasma HDL cholesterol levels depend on levels of triglycerides. Arteriosclerosis, Thrombosis, and Vascular Biology, 21:1226–32.
  • Daly TM, Kempe KC, Scott MG (1996). Bouncing Creatinine levels. New England Journal of Medicine, 334: 1749–50.
  • Dong GZ, Pluske JR (2007). The low feed intake in newly-weaned pigs’ problems and possible solutions. Asian-Australian Journal of Animal Science, 20: 440-52.
  • Douma BT, Briggs HG (1972). Serum Albumin by Bromo Cresol Green Binding Stand. Meth. Clinical. Chemistry, 7: 175-9
  • Elena Lara de la Casa (2017). Intensively pig farming: Ethical considerations. Derecho Animal, 8(3):1-8. http://ddd.uab.cat/pub/da/da_a2017v8n3/da_a2017v8n3a3.pdf
  • Fels M, Hartung J, Hoy S (2014). Social hierarchy formation in piglets mixed in different group compositions after weaning. Applied Animal Behaviour Science, 152:17–22.
  • FUNAAB (2013). Policy on research of the Federal University of Agriculture. Abeokuta. Nigeria, (Accessed to web: 21.09.2018).
  • Halas D, Hansen CF, Hampson DJ et al (2010). Dietary supplementation with benzoic acid improves apparent ileal digestibility of total nitrogen and increases villous height and caecal microbial diversity in weaner pigs. Animal and Feed Science Technology, 160: 137-47
  • Hampson DJ (1986). Alterations in piglet small intestinal structure at weaning. Research in Vetinary Science; 40:32–4.
  • Heo JM, Opapeju FO, Pluske JR, Kim JC, Hampson DJ, Nyachoti CM (2013). Gastrointestinal health and function in weaned pigs: a review of feeding strategies to control post-weaning diarrhoea without using in-feed antimicrobial compounds. Journal of Animal Physiology and Animal Nutrition, 97: 207–37
  • Janssen I, LeBlanc A (2010). Systematic review of the health benefits of physical activity and fitness in school aged children and youth. International Journal of Behavioural, Nutritional and Physical Activity, 7(40): 1-16.
  • Kwiatkowska K, Kwiecien M, Winiarska-Mieczan A (2017). Fast-growing chickens fed with lucerne protein-xanthophyll concentrate: growth performance, slaughter yield and bone quality. Journal of Animal and Feed Sciences, 26(2):131-4
  • Leibowitz A, Klin Y, Gruenbaum BF et al (2012). Effects of strong physical exercise on blood glutamate and its metabolite 2-ketoglutarate levels in healthy volunteers. Acta Neurobiological Experiment, 72:385–96.
  • Marchant-Forde JN, Marchant-Forde RM (2005). Minimizing inter-pig aggression during mixing. Pig News and Information, 26(3): 63N-71N
  • Nabuurs MJA, Hoogendoorn A, Van Der Molen EJ, Van Osta ALM (1993). Villus height and crypt depth in weaned and unweaned pigs, reared under various circumstances in the Netherlands. Res Vet Science, 55:78–84.
  • National Research Council (NRC, 1998). Nutrient requirement of swine (10th Revised Ed.). Sub Committee on Animal Nutrition, National Research Council, 210.
  • Njoku CP, Olorunsola RA, Osofowora AO, Apata SD, Ayano TR, Omoniyi Jo, Adeyemi OA (2020) Body weight asymmetry as an animal welfare concern on carcass yield, ham proximate composition, mineral and lipid profiles of growing pigs. Nigerian Journal of Animal Science 22(3):216-228.
  • Nkukwana TT, Muchenje V, Masika PJ, Hoffman LC, Dzama K. The effect of Moringa Oleifera leaf meal supplementation on tibia strength, morphology and inorganic content of broiler chickens. South African Journal of Animal Science 2014; 44:228-39.
  • Pluske JR, Hampson DJ, Williams IH (1997). Factors influencing the structure and function of the small intestine in the weaned pigs: a review. Livestock Science, 51:215-36
  • Puppe B, Langbein J, Bauer J, Hoy S (2008). A comparative view on social hierarchy formation at different stages of pig production using sociometric measures. Livestock Science, 113(2-3): 155-162
  • Rodenburg TB, Koene P (2007). The impact of group size on damaging behaviours, aggression, fear and stress in farm animals. Applied Animal Behaviour Science, 103(3): 205-14
  • SAS. Statistical Analysis Systems Institute. SAS user’s guide: statistics 2003; Version 9.1, SAS Institute Inc., Cary, NC, USA.
  • Shaw AL, Blake JP, Moran E (2010). Effects of flesh attachment on bone breaking and of phosphorus concentration on performance of broilers hatched from young and old flocks. Poultry Science, 89(2): 295-02.
  • Sheri R, Colberg RJ. Sigal B et al (2010). Exercise and Type 2 Diabetes. Diabetes Care, 33: 147– 67
  • Sogunle OM, Olaniyi OA, Egbeyale LT, Akinola OS, Shittu TA, Abiola SS, Ladokun AO, Sobayo RA. {2012). Free range and deep litter poultry production systems: effect on performance, carcass yield and meat composition of cockerel chickens. Tropical Animal Health and Production, 45:281–288.
  • Spreevwenberg MAM, Verdonk JMA, Gaskins HJ, Verstegen MWA (2001). Small intestine epitherial barrier function is compromised in pigs with low feed intake at weaning. Journal of Animal Nutrition, 131: 1520-1527.
  • Tietz R, Norbert W (1995). Clinical guide to laboratory tests (2nd ed.) Philadelphia, P.A, W.B. Saunders Company, 1096
  • Uadia PO, Orumwensodia KO, Arainru GE, Agwubike EO, Akpata CBN (2016). Effect of physical and flexibility exercise on plasma levels of some liver enzymes and biomolecules of young Nigerian adults. Tropical Journal of Pharmaceutical Research, 15(2): 421-425.
  • Van Beers-Schreurs HMG, Nabuurrs MJA, Vellenga L, Breukink HJ (1995). The effect of weaning and diets on villous height and crypt depth in the small intestines of piglets. In Proc. of IXth Int’l Conf. Prod. Dise. Farm Anim. Berlin, Germany, Pp. 103.
  • Van Nevel CJ, Decuypere JA Dieric NA, Moll K (2005). Incorporation of galactomannans in the diet of newly weaned piglets: Effect on bacteriological and some morphological characteristics of the small intestine. Arch. Anim. Nutr., 59:123–138
  • Verdonk JMAJ, Bruininx EMAM, Van der Meulen J (2007). Post-weaning feed intake level modulates gut morphology but not gut permeability in weaned piglets. Livestock Science, 108:146–149
  • World Health Organisation (WHO, 1995). The use and interpretation of anthropometry. Geneva: WHO; World Health Organisation, 64: 929-941.
Toplam 34 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Araştırma Makaleleri
Yazarlar

Chiemeka Promise Njoku Bu kişi benim 0000-0001-5035-9343

Tugay Ayasan Bu kişi benim 0000-0002-4210-4049

Olajide Ayorinde Adeyemı Bu kişi benim 0000-0002-1875-0681

Olufemi Sunday Akınola Bu kişi benim 0000-0001-8578-9933

Olukayode Ola Mobolajı Bu kişi benim 0000-0003-0009-7271

Toyin Ronke Ayano Bu kişi benim

Fatimah Monilade Arazı Bu kişi benim 0000-0002-4210-4049

Yayımlanma Tarihi 30 Nisan 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 38 Sayı: 1

Kaynak Göster

APA Njoku, C. P., Ayasan, T., Adeyemı, O. A., Akınola, O. S., vd. (2021). Effect of Weight Asymmetry on Serological Parameters, Tibia Bone Characteristics and Gut Morphology of Pigs. Journal of Agricultural Faculty of Gaziosmanpaşa University (JAFAG), 38(1), 20-27. https://doi.org/10.13002/jafag4704