Responses to different feeding levels during the first month post-insemination in highly prolific multiparous sows

  1. Seoane, Senén 1
  2. De Palo, Pasquale 2
  3. Lorenzo, José M. 3
  4. Maggiolino, Aristide 2
  5. González, Pablo 3
  6. Pérez-Ciria, Leticia 4
  7. Latorre, María A. 4
  1. 1 COREN, Sociedad Cooperativa Galega, 32003 Ourense
  2. 2 University of Bari Aldo Moro, Dept. Veterinary Medicine, Italy, S.P. per Casamassima, km 3, 70010 Valenzano, Bari
  3. 3 Parque Tecnológico de Galicia, Centro Tecnológico de la Carne. Carne Galicia, Rua Galicia 4, San Cibran De Vinas, 32900 Ourense
  4. 4 Universidad de Zaragoza, IA2-Facultad de Veterinaria, Miguel Servet 177, 50013 Zaragoza
Zeitschrift:
Spanish journal of agricultural research

ISSN: 1695-971X 2171-9292

Datum der Publikation: 2020

Ausgabe: 18

Nummer: 2

Art: Artikel

DOI: 10.5424/SJAR/2020182-15825 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Andere Publikationen in: Spanish journal of agricultural research

Zusammenfassung

Aim of study: To evaluate the impact of the feed level during the first month of gestation on body weight evolution, backfat and loin muscle depths and reproductive performances in highly prolific sows.Area of study: Galicia (Northwestern Spain).Material and methods: Thirty-six Danbred sows were assigned to three experimental groups (n=12) receiving, from day 1 to 30 of pregnancy, 2.5, 3.0 or 3.5 kg/d of a standard diet (8.83 MJ net energy and 138.5 g crude protein/kg). In each group, the number of sows in the second-, third- and fourth-cycle was the same. All animals received, of the same diet, 2.5 kg/d from day 31 to 90 and 3.0 kg/d from day 91 to 107. Seven days prior the parturition, sows were moved to the farrowing-lactating facilities where spent until weaning receiving a common standard lactation diet. At 24 h post-farrowing, litters were standardized to 13 piglets each by cross-fostering.Main results: The optimal feeding level during the first 30 days of gestation was 3.0 kg/d because a lower amount penalized their body weight gain and a higher amount did not improve their fatty reserves. It is worth considering that the increase from 2.5 to 3.5 kg/d generated advantages at birth (higher and more homogenous piglet weights) but also handicaps (lower litter size). The effects were similar irrespective of the cycle number.Research highlights: Different feeding levels during the early pregnancy were tested because it is a critical period. Suppling 3.0 kg/d carried out the best productive and reproductive implications.

Informationen zur Finanzierung

Axencia Galega de Innovaci?n-GAIN (The Regional Government) ALIOPTIMA/2015 COREN provided the samples Jose M. Lorenzo is member of the MARCARNE network, funded by CYTED 116RT0503.

Bibliographische Referenzen

  • Almeida L, Goncalves MAD, Orlando UAD, Maiorka A, 2017. Effects of feeding levels during wean-to-estrus interval and first week of gestation on reproductive performance of sows. J Anim Sci 95: 76-77 suppl. 2 (Abstr.). https://doi.org/10.2527/asasmw.2017.12.162
  • Ashworth CJ, 1992. Synchrony embryo-uterus. Anim Reprod Sci 28: 259-267. https://doi.org/10.1016/0378-4320(92)90112-Q
  • Cerisuelo A, Sala R, Gasa J, Chapinal N, Carrión D, Coma J, Baucells MD, 2008. Effects of extra feeding during mid-pregnancy on gilts productive and reproductive performance. Span J Agric Res 6: 219-229. https://doi.org/10.5424/sjar/2008062-313
  • Cerisuelo A, Baucells MD, Gasa J, Coma J, Carrión D, Chapinal N, Sala R, 2009. Increased sow nutrition during midgestation affects muscle fiber development and meat quality, with no consequences on growth performance. J Anim Sci 87: 729-739. https://doi.org/10.2527/jas.2007-0677
  • Cerisuelo A, Sala R, Gasa J, Carrión D, Coma J, Chapinal N, Baucells MD, 2010. Effects of extra feeding in mid-pregnancy for three successive oartities on lean sows' productive performance and longevity. Can J Anim Sci 90: 521-528. https://doi.org/10.4141/cjas10040
  • Close WH, Cole DJA, 2000. Nutrition of sows and boars. Nottingham Univ Press, Nottingham, UK. 377 pp.
  • Damgaard LH, Rydhmer L, Lovendahl P, Grandison K, 2003. Genetic parameters for within-litter variation in piglet birth weight and chance in within-litter variation during suckling. J Anim Sci 81: 604-610. https://doi.org/10.2527/2003.813604x
  • den Hartog LA, van Kempen GJM, 1980. Relation between nutrition and fertility in pigs. Neth J Agric Sci 28: 211-227.
  • Dourmad JY, Etienne M, Noblet J, Causeur D, 1997. Prédiction de la composition chimique de truies reproductrices á partir du poids vif et de l'ápaisseur de lard dorsal. Application á la definition des besoins énergétiques. J Rech Por France 29: 255-262.
  • Dwyer CM, Stickland NC, Fletcher JM, 1994. The influence of maternal nutrition on muscle fiber number development in the porcine fetus and on subsequent postnatal growth. J Anim Sci 72: 911-917. https://doi.org/10.2527/1994.724911x
  • FEDNA, 2010. Normas FEDNA para la formulación de piensos compuestos. Fundación Española para el Desarrollo de la Nutrición Animal, Madrid, Spain.
  • Gatford KL, Ekert JE, Blackmore K, De Blasio MJ, Boyce JM, Owens JA, Campbell RG, Owens PC, 2003. Variable maternal nutrition and growth hormone treatment in the second quarter of pregnancy in pigs alter semitendinosus muscle in adolescent progeny. Br J Nutr 90: 283-293. https://doi.org/10.1079/BJN2003893
  • Gondret F, Lefaucheur L, Juin H, Louveau I, Lebret B, 2006. Low birth weight is associated with enlarged fibre area and impaired meat tenderness of the longissimus muscle in pigs. J Anim Sci 84: 93-103. https://doi.org/10.2527/2006.84193x
  • Hoving LL, Soede NM, van der Peet-Schwering CMC, Graat EAM, 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. https://doi.org/10.2527/jas.2011-3954
  • Hoving L, Soede NM, Feitsma H, Kemp B, 2012. Embryo survival, progesterone profiles and metabolic responses to an increased feeding level during second gestation in sows. Theriogen 77: 1557-1569. https://doi.org/10.1016/j.theriogenology.2011.11.024
  • Jansen-Venneboer S, 2011. Influence of backfat thickness, body weight and body condition score of sows during gestation and lactation on the vitality of pre-weaned piglets and litter performance. Thesis Report, Univ. of Applied Sciences. 58 pp.
  • Jindal R, Cosgrove JR, Foxcroft GR, 1997. Progesterone mediates nutritionally induced effects on embryonic survival in gilts. J Anim Sci 75: 1063-1070. https://doi.org/10.2527/1997.7541063x
  • Kemp B, Wientjes JGM, Soede NM, 2009. The post partum sow: Physiology of the sow during lactation. Wageningen Univ., Wageningen, The Netherlands.
  • Mallmann AL, Camilotti E, Fagundes DP, Vier CE, Mellagi APG, Ulguim RR, Bernardi ML, Orlando UAD, Gonçalves MAD, Kummer, Bortolozzo FP, 2019. Impact of feed intake during late gestation on piglet birth weight and reproductive performance: a dose-response study performed in gilts. J Anim Sci 97: 1262-1272. https://doi.org/10.1093/jas/skz017
  • Morrow WEM, Leman AD, Wilianson NB, Morrison RB, Robinson RA, 1992. An epidemiological investigation of reduced second-litter size in swine. Prev Vet Med 12: 15-26. https://doi.org/10.1016/0167-5877(92)90065-N
  • Mullan BP, Williams LH, 1989. The effect of body reserves at farrowing on the reproductive performance of first-litter sows. Anim Prod 48: 449-457. https://doi.org/10.1017/S0003356100040459
  • Pettigrew JE, Yang H, 1997. Protein nutrition of gestating sows. J Anim Sci 75: 2723-2730. https://doi.org/10.2527/1997.75102723x
  • Prime GR, Symonds HW, 1993. Influence of plane of nutrition on portal blood flow and the metabolic clearance rate of progesterone in ovariectomized gilts. J Agri Sci 121: 389-397. https://doi.org/10.1017/S0021859600085580
  • Quesnel H, Boulot S, Serriere S, Venturi E, Martinat-Botté S, 2010. Post-insemination level of feeding does not influence embryonic survival and growth in highly prolific gilts. Anim Reprod Sci 120: 120-124. https://doi.org/10.1016/j.anireprosci.2010.04.006
  • Ren P, Yang XJ, Kim JS, Menon D, Baidoo SK, 2017. Effect of different feeding levels during three short periods of gestation on sow and litter performance over two reproductive cycles. Anim Reprod Sci 177: 42-55. https://doi.org/10.1016/j.anireprosci.2016.12.005
  • Rigon CA, Lovatto PA, Weschenfelder VA, Lelnen CR, Neutzling B, Andretta I, Speroni M, 2008. Meta-analysis of relation among backfat thickness and nutritional variables of gestating and lactating sows. Ciencia Rural 38: 1085-1091. https://doi.org/10.1590/S0103-84782008000400028
  • SAS Institute, 2001. SAS User's guide V9.2: Statistics SAS Inst Inc, Cary, NC, USA.
  • Sinclair AG, Bland VC, Edwards SA, 2001. The influence of gestation feeding strategy on body composition of gilts at farrowing and response to dietary protein in a modified lactation. J Anim Sci 79: 2397-2405. https://doi.org/10.2527/2001.7992397x
  • Solà-Oriol D, Gasa J, 2017. Feeding strategies in pig production: Sows and their piglets. Anim Feed Sci Technol 233: 34-52. https://doi.org/10.1016/j.anifeedsci.2016.07.018
  • Thaker MY, Bilkei G, 2005. Lactation weight loss influences subsequent reproductive performance of sows. Anim Reprod Sci 88: 309-318. https://doi.org/10.1016/j.anireprosci.2004.10.001
  • Tummaruk PN, Lundeheim N, Einarsson S, Dalin AM, 2000. Factors influencing age at first mating in purebred Swedish Landrace and Swedish Yorkshire gilts. J Anim Reprod Sci 63: 241-253. https://doi.org/10.1016/S0378-4320(00)00184-6
  • Varley MA, Prime GR, 1993. The effect of food intake on prolificacy and plasma progesterone concentration in multiparous sows. Livest Prod Sci 34: 267-279. https://doi.org/10.1016/0301-6226(93)90112-U
  • Virolainen JV, Tast A, Sorsa A, Love JR, Peltoniemi OAT, 2004. Changes in feeding level during early pregnancy affect fertility in gilts. Anim Reprod Sci 80: 341-352. https://doi.org/10.1016/j.anireprosci.2003.08.005
  • Virolainen JV, Peltoniemi OAT, Munsterhjelm C, Tast A, Einarsson S, 2005. Effect of feeding level on progesterone concentration in early pregnant multiparous sows. Anim Reprod Sci 90: 117-126. https://doi.org/10.1016/j.anireprosci.2005.01.012
  • Whittemore CT, Morgan CA, 1990. Model components for the determination of energy and protein requirements for breeding sows: a review. Livest Prod Sci 26: 1-37. https://doi.org/10.1016/0301-6226(90)90053-9
  • Young MG, Tockach MD, Aherne FX, Main RG, Dritz SS, Goodband RD, Nelssen JL, 2004. Comparison of the three methods of feeding sows in gestation and the subsequent effects on lactation performance. J Anim Sci 82: 3058-3070. https://doi.org/10.2527/2004.82103058x