Impact of sow transition diet, genetic line on reproduction

Study explores promising sow transition technologies with farrowing duration and piglet characteristics.

December 3, 2020

5 Min Read
Impact of sow transition diet, genetic line on reproduction
North Carolina State University

Evaluating sow transition diets, defined as diets fed in late gestation and/or early lactation, have recently received increased attention in the U.S. The mindset of our research lab is that we may be able to use sow transition nutrition to reduce the need for farrowing assistance, thus reducing the need for farrowing house labor, while maintaining or enhancing productivity.

Past research suggests sow transition nutrition may help the farrowing process and enhance piglet survival. The Danes (Feyera et al., 2017) found feeding greater levels of fiber reduced sow farrowing duration, and the Dutch (Ramaekers, 2013) reported feeding hemicellulose to improve sow fecal scores. In a review paper, Pettigrew (1981) analyzed feeding increased levels of fat during the transition period and suggests feeding 2.2 pounds of added fat pre-farrow enhances piglet survival when piglet survival is lower than 80%. Yet the majority of the studies in Pettigrew’s review were conducted in the 1970’s. Farrowing management has evolved since that time. Hence revisiting the value of fat feeding pre-farrow is warranted. More recently, scientists (Manu et al., 1981; Batson et al., 2018) found super dosing phytase pre-farrow reduced farrowing duration. Of late, U.S. research reports (Vallet et al., 2014; Holen et al., 2020) showed feeding high levels of zinc sulfate pre-farrow enhanced piglet survival. In relation to production management, Denmark (Feyera et al., 2018) and the U.S. (Miller et al., 2020; Gourley et al., 2020) have found feeding multiple meals pre-farrow reduced stillborns or enhanced piglet survival. While promising studies exist, more research is needed to confirm initial positive results in the area of sow transition diets.

The objective of the current study was to relate a combination of promising sow transition technologies with farrowing duration and piglet characteristics. One batch of second parity sows (n = 78) were farrowed at the North Carolina Department of Agriculture’s (NCDA) Tidewater Research Station this past July. The sows consisted of two genetic lines (See et al., 2019), one selected since 2012 for young age at puberty and the other selected for old age at puberty. From day 109 of gestation until day 3 of lactation (approximately 10 days), sows were fed either 6 pounds of lactation diet once per day or 3 pounds twice per day of a transition diet. The transition diet contained 45% wheat midds (fiber source), 8% added soybean oil, 3000 FTU/kg of phytase and 500 ppm zinc sulfate.

Results of the study are shown in Table 1. Sows fed the transition diet took 43 minutes less to farrow than those receiving the lactation diet. While not statistically different, this study builds on past studies suggesting diet can influence farrowing duration. The percentage of stillborn piglets did not differ between diets which is perhaps due to the very low percentage reported in this study (less than 2%). Younger parity sows are known to have fewer stillborn piglets. Yet given the conditions of the study—extreme summer heat and minimal farrowing assistance—we were intrigued how few stillborns farrowed.

NCSU Dec. 3 chart.png

There were a few surprises when we received the diet analysis back from the lab, and we believe a few nutritional factors may further explain the low percentage of stillborns observed in this study. Sows fed the transition diet tended to have a shorter wean-to-estrus interval than sows fed the lactation diet. Given the relatively low lactation feed intake of these sows, one may speculate the diet containing soybean oil helped sows meet their essential fatty acid requirements. However, the transition diet purposely confounded several technologies. Hence, one cannot clearly relate one piece of the transition diet to a given parameter.

Sows from the young puberty genetic line tended to have a greater feed intake during lactation when compared to old puberty line females. Young puberty sows also had a greater percentage of females exhibiting estrus by day 7 after weaning when compared to the old puberty genetic line (80% vs. 57%). This adds to the slim body of evidence suggesting younger puberty females experience less seasonal infertility than older puberty animals. Yet, further work in this area is needed.

We would like to thank the NCDA Tidewater Research Station for their continued partnership, help and support. Contact Mark Knauer with questions.

 

References

Feyera, T., C. K. Højgaard, J. Vinther, T. S. Bruun, and P. K. Theil. 2017. Dietary supplement rich in fiber

fed to late gestating sows during transition reduces rate of stillborn piglets. J. Anim. Sci. 95:5430–5438.

Ramaekers, P. 2013. Effect of high fiber intake in sows in the transition period on piglet survival.  

Pettigrew, J. 1981. Supplemental dietary fat for peripartal sows: A review. J. Anim. Sci. 53:107-117.

Manu, H, D. Pangeni, P. Wilcock, and S. Baidoo. 2018. The effect of superdosing phytase from 109 days

of gestation through lactation on farrowing duration, piglet and sow performance. J. Anim. Sci. Suppl. 2. 96:148.

Batson, K. L., H. Calderon Cartagena, R. D. Goodband, J. C. Woodworth, M. D. Tokach, S. S. Dritz, and J.

M. DeRouchey. 2019. Effects of high phytase supplementation in lactation diets on sow and litter performance. Kansas Agricultural Experiment Station Research Reports: Vol. 5: Iss. 8.

Vallet, J. L., L. A. Rempel, J. R. Miles, and S. K. Webel. 2014. Effect of essential fatty acid and zinc

supplementation during pregnancy on birth intervals, neonatal piglet brain myelination, stillbirth, and preweaning mortality. J. Anim. Sci. 92:2422–2432.

Holen, J. P., P. E. Urriola, M. Schwartz, J.-C. Jang, G. C. Shurson, and L. J. Johnston. 2020. Effects of

supplementing late-gestation sow diets with zinc on preweaning mortality of pigs under commercial rearing conditions. Transl. Anim. Sci. 4:1-12.

Feyera, T., T. F. Pedersen, U. Krogh, L. Foldager, and P. K. Theil. 2018. Impact of sow energy status

during farrowing on farrowing kinetics, frequency of stillborn piglets, and farrowing assistance. J. Anim. Sci. 96:2320–2331.

Miller, K., T. A. Kellner. 2020. Impact of pre-farrow feeding amount and timing on stillborn rate of sows.

J. Anim. Sci. Suppl. 3. 98:100.

K. M. Gourley, A. J. Swanson, R. Q. Royall, J. M. DeRouchey, M. D. Tokach, S. S. Dritz, R. D. Goodband,

C. W. Hastad, J. C. Woodworth. 2020. Effects of timing and size of meals prior to farrowing on sow and litter performance. Transl. Anim. Sci. 4:724–736

G. M. See and M. T. Knauer. 2019. Associations with four generations of divergent selection for age at

puberty in swine. J. Anim Sci. 97:2320–2328.

 

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