Effects of attapulgite dietary supplementation on sow performance in two commercial farms in Greece


Опубликован: Jan 29, 2018
V. KANOULAS
G. A. PAPADOPOULOS
G. ARSENOS
E. D. TZIKA
P. FORTOMARIS
Аннотация

The present study investigated the effects of attapulgite supplementation in sow diets during gestation and lactation on sow performance. The study comprised two reproductive phases (cycles) in two commercial farrow to finish farms: Farm A (capacity: 550 sows) and Farm B (capacity: 220 sows). The treatment groups were: a) control group (CN): the sows were fed a common gestation or lactation diet; b) attapulgite group (AT): the sows were fed the CN diet supplemented with attapulgite at 0,7% level; c) attapulgite plus group (AT+): the sows were fed the CN diet supplemented with attapulgite (0.7%) and a mix of enzymes, live yeast and amino acids (0.1%), at a total of 0.8% level. Within each cycle the sows included per treatment were: 24 for Farm A; 12 for Farm B. Initially data were analyzed per cycle and per each farm. Data from sows that completed both cycles within each farm, were analyzed by repeated measures analysis. Regarding sow parameters, sow body weight loss during lactation tended to be greater in AT sows compared to CN sows during cycle 1 in Farm B and was greater in AT and AT+ than CN sows in Farm A that completed both cycles (P=0.063 and P=0.023, respectively). A greater litter size 24h postpartum was observed in favour of AT compared to CN group during cycle 1 in Farm A and in sows that completed both cycles in Farm A (P=0.001 and P= 0.011, respectively). Litter size at weaning was greater in sows from the AT group than CN during cycle 1 and 2 in Farm A, in cycle 1 in Farm B and in sows that completed both cycles in Farm A (P=0.004, P=0.037, P=0.037, and P=0.022, respectively). Piglet weight at weaning and average daily gain during lactation were greater in AT group than CN and AT+ in sows that completed both cycles in Farm A (P=0.049 and P=0.040 respectively). Notable similar effects, although not statistically significant, were also observed in Farm B. This field study suggests that attapulgite supplementation in sow diets can improve performance indexes. Further research should investigate the underlying mechanisms involved.

Article Details
  • Раздел
  • Research Articles
Скачивания
Данные скачивания пока недоступны.
Библиографические ссылки
Alvarez A, Santaren J, Esteban-Cubillo A, Aparicio P (2011) Current industrial applications of palygorskite and sepiolite. In: Developments in palygorskite-sepiolite research: A new outlook on these nanomaterials. Elsevier, pp. 281-298.
Auldist DE, Morrish L, Eason P, King RH (1998) The influence of litter size on milk production of sows. Anim Sci 67, 333–337.
Bampidis V, Christodoulou V, Theophilou N, Kotsampasi V (2014) Effect of dietary palygorskite on performance and blood parameters of lactating Holstein cows. Appl Clay Sci 91-92: 25–29.
Carretero MI, Pozo M (2010) Clay and non-clay minerals in the pharmaceutical and cosmetic industries Part II. Active ingredients. Appl. Clay Sci 47, 171–181.
Chalvatzi S, Arsenos G, Tserveni-Goussi A, Fortomaris P (2014) Tolerance and efficacy study of palygorskite incorporation in the diet of laying hens. Appl Clay Sci 101: 643–647.
Diebold G, Mosenthin R, Piepho HP, Sauer WC (2004) Effect of supplementation of xylanase and phospholipase to a wheat-based diet for weanling pigs on nutrient digestibility and concentrations of microbial metabolites in ileal digesta and feces. J Anim Sci 82:2647–2656.
Eissen JJ, Apeldoorn EJ, Kanis E, Verstegen MW, de Greef KH (2003) The importance of a high feed intake during lactation of primiparous sows nursing large litters. J Anim Sci 81: 594–603.
Guggenheim S, Martin RT (1995) Definition of clay and clay mineral: Joint report of the AIPEA nomenclature and CMS nomenclature committees. Clays Clay Miner 43: 255–256.
Hoving LL, Soede NM, van der Peet-Schwering CMC, Graat EM, Feitsma H, Kemp B (2011) An increased feed intake during early pregnancy improves sow body weight recovery and increases litter size in young sows. J Anim Sci 89: 3542–3550.
Kemp B, Soede NM (2012) Should Weaning be the Start of the Reproductive Cycle in Hyper-prolific Sows? A Physiological View. Reprod Dom Anim 47: 320–326
Kyriakis SC, Papaioannou D, Alexopoulos C, Polizopoulou Z, Tzika E, Kyriakis CS (2002) Experimental studies on safety and efficacy of the dietary use of a clinoptilolite-rich tuff in sows: a review of recent research in Greece. Microporous Mesoporous Mater 51: 65–74.
Matte JJ, Farmer C, Girard CL, Laforest JP (1996) Dietary folic acid, uterine function and early embryonic development in sows. Can J Anim Sci 76: 427–433.
Murray HH (2000) Traditional and new applications for kaolin, smectite, and palygorskite: A general overview. Appl Clay Sci 17: 207–221.
Noblet J, Etienne M, Dourmad JY (1998) Energetic efficiency of milk production. In: Verstegen MWA, Moughan PJ, Schrama JW (eds), The Lactating Sow. Wageningen Press, Wageningen, pp. 113–130.
Papaioannou D, Katsoulos PD, Panousis N, Karatzias H (2005) The role of natural and synthetic zeolites as feed additives on the prevention and/or the treatment of certain farm animal diseases: A review. Microporous Mesoporous Mater 84:161–170.
Papaioannou DS, Kyriakis SC, Papasteriadis A, Roumbies N, Yannakopoulos A, Alexopoulos C (2002) A field study on the effect of in-feed inclusion of a natural zeolite (clinoptilolite) on health status and performance of sows/gilts and their litters. Res Vet Sci 72: 51-59.
Prunier A, Soede NM, Quesnel H, Kemp B (2003) Productivity and longevity of weaned sows. In: Pluske JR, de Lividich J, Verstegen MWA (eds), Weaning the Pig. Wageningen Academic Publishers, Wageningen, pp. 385–419.
Schenkel AC, Bernardi ML, Bortolozzo FP, Wentz I (2010) Body reserve mobilization during lactation in first parity sows and its effect on second litter size. Livest Sci 132: 165–172.
Song M, Liu Y, Soares JA, Che TM, Osuna O, Maddox CW, Pettigrew JE (2012) Dietary clays alleviate diarrhea of weaned pigs. J Anim Sci 90: 345–360.
Williams LB, Haydel SE, Ferrell Jr RE (2009) Bentonite, bandaids, and borborygmi. Elements (Que) 5: 99–104.
Zhang J, Lv Y, Tang C, Wang X (2013) Effects of dietary supplementation with palygorskite on intestinal integrity in weaned piglets. Appl Clay Sci 86: 185–189.
Наиболее читаемые статьи этого автора (авторов)