Animal Nutrition & Health

Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 5

Part 5 - Ingredient Selection and Formulation Considerations for the First Diets After Weaning

Weaning is a critical period in a pig's life because it induces significant stress due to the transition from a liquid-based diet to a solid feed. This abrupt dietary change leads to notable alterations in their gastrointestinal physiology, microbiology, and immunology (Pluske et al., 1997), so piglets experience a substantial decrease in food consumption immediately after weaning as a consequence. Therefore, the nutritional composition of their initial diets plays a crucial role in supporting their growth, health, and development (Pluske et al., 1997; Pluske et al., 2007). Formulating a diet for these piglets requires careful consideration of their nutritional requirements during this stage, since they need all the necessary nutrients to support their growth, promote their gut health, and enhance their immune system (Blavi et al., 2021).

During the growth phase, piglets have a high protein requirement to support muscle development and tissue repair (Rudar et al., 2018). As a result, premium protein sources like soybean meal, fish meal, and plasma proteins are commonly included in their diets in combination to achieve an adequate amino acid profile (Menegat et al., 2019). Notably, the use of spray-dried porcine plasma (SDPP) has been shown to improve post-weaning performance by promoting greater feed intake and enhanced feed efficiency (Lange et al., 2010).

Another important consideration when formulating piglet diets after weaning is dietary energy. Energy is crucial not only because it allows for maintenance and growth, but also because it represents approximately 50% of the total feed cost. Thus, it is essential to avoid under or oversupplying energy in the diet (Menegat et al., 2019). Cereal grains such as corn and wheat are widely used as energy sources in piglet diets due to their high starch content.

However, when utilizing plant-derived ingredients, it is important to be cautious about the anti-nutritional factors (ANFs) present in them. ANFs have the potential to hinder nutrient absorption in animals, negatively affecting feed intake and nutrient utilization in pigs (Woyengo et al., 2017). For example, phytate, a salt derived from phytic acid and the primary reservoir of phosphorus (P) in plant-based animal feed, is not efficiently digested by pigs, leading to incomplete P digestibility (Rosenfelder-Kuon et al., 2020). To overcome this, feed enzymes such as phytase and xylanase are widely used in pig nutrition to improve nutrient digestion and support growth. These enzymes have shown promising effects beyond their traditional roles, indicating their importance in promoting overall gut well-being and microbial balance in pigs (Moita & Kim, 2022). 

Another technique that has been employed is diet acidification, wherein the addition of inulin alone or in combination with benzoic acid has demonstrated positive outcomes in reducing the duration of diarrhea (Halas et al., 2009). Various studies have indicated that the addition of diet acidifiers can reduce instances of digestive scouring and decrease the abundance of coliform populations in the gastrointestinal tract of young pigs (White et al., 1969; Cole et al., 1968; Thomlinson and Lawrence, 1981).

Apart from protein and energy, other ingredients should be considered when formulating diets for piglets after weaning, such as fiber. Although high-fiber diets generally offer reduced nutritional value for young pigs in the nursery stage due to their limited ability to digest such nutrient, the various components of dietary fiber have shown positive impacts on gut health and development, particularly in helping to alleviate post-weaning gut disorders (Menegat et al., 2019). 

Additionally, diets for piglets must provide an adequate supply of vitamins and minerals, which play a crucial role in various physiological processes and support overall health and immunity (Sampath et al., 2023). Vitamin and mineral premixes are commonly added to ensure the proper balance of essential nutrients; particularly during the weaning period, calcium, phosphorus, iron, zinc, and vitamins A, D, and E are of significant importance (Gaudré & Quiniou, 2009).

In conclusion, ingredient selection and formulation considerations for diets for piglets after weaning are crucial for their growth, health, and development. These diets should meet the nutritional requirements of the animals, focusing on protein, energy, vitamins, and minerals. In that sense, optimal feed intake and nutrient utilization can be achieved by selecting high-quality ingredients with good digestibility and appropriate physical form. Additionally, ingredient quality and digestibility are key considerations when formulating piglet diets, as they ensure the availability and bioavailability of nutrients.

References

Blavi L, Solà-Oriol D, Llonch P, López-Vergé S, Martín-Orúe SM, Pérez JF. Management and Feeding Strategies in Early Life to Increase Piglet Performance and Welfare around Weaning: A Review. Animals (Basel). 2021 Jan 25;11(2):302. doi: 10.3390/ani11020302. PMID: 33503942; PMCID: PMC7911825.

Cole, B. J. A., R. M. Beal, and J. R. Luscombe. 1968. The effect on performance and bacterial flora of lactic acid, propionic acid, calcium propionate and calcium acrylate in the drinking water of weaned pigs. Vet. Rec. 83:459

Lange, C. F. M. et al. Strategic use of feed ingredients and feed additives to stimulate gut health and development in young pigs. Livestock Science, v. 134, n. 1-3, p. 124-134, 2010.

Gaudré, D., & Quiniou, N. (2009). What mineral and vitamin levels to recommend in swine diets?. Revista Brasileira de Zootecnia, 38, 190-200.

Halas, D., Hansen, C.F., Hampson, D.J., Mullan, B.P., Wilson, R.H., Pluske, J.R., 2009. Effects of feeding an inulin-enriched weaner pig diet, either alone or with benzoic acid, on faecal consistency, post-weaning diarrhea, and gastrointestinal tract fermentation and growth performance. Archives of Anim. Nutr. 

Menegat, Mariana B., Robert D. Goodband, Joel M. DeRouchey, Mike D. Tokach, Jason C. Woodworth, and Steve S. Dritz. 2019. Kansas State University Swine Nutrition Guide: Specialty Ingredients in Nursery Diets.

Menegat, Mariana B., Robert D. Goodband, Joel M. DeRouchey, Mike D. Tokach, Jason C. Woodworth, and Steve S. Dritz. 2019. Kansas State University Swine Nutrition Guide: Nursery Phase Feeding Program.

Menegat, Mariana B., Robert D. Goodband, Joel M. DeRouchey, Mike D. Tokach, Jason C. Woodworth, and Steve S. Dritz. 2019. Kansas State University Swine Nutrition Guide: Energy Sources for Swine Diets: Cereal Grains and Co-Products.

Menegat, Mariana B., Robert D. Goodband, Joel M. DeRouchey, Mike D. Tokach, Jason C. Woodworth, and Steve S. Dritz. 2019. Kansas State University Swine Nutrition Guide: Energy Sources for Swine Diets: Fats and Oils.

Moita, V.H.C.; Kim, S.W. Nutritional and Functional Roles of Phytase and Xylanase Enhancing the Intestinal Health and Growth of Nursery Pigs and Broiler Chickens. Animals 2022, 12, 3322. https:// doi.org/10.3390/ani12233322

Rosenfelder-Kuon, Wolfgang Siegert & Markus Rodehutscord (2020) Effect of microbial phytase supplementation on P digestibility in pigs: a meta-analysis, Archives of Animal Nutrition, 74:1, 1-18, DOI: 10.1080/1745039X.2019.1687249

Pluske J.R., Hampson D.J., Williams I.H. Factors influencing the structure and function of the small intestine in the weaned pig: A review. Livest. Prod. Sci. 1997;51:215–236. doi: 10.1016/S0301-6226(97)00057-2.

Pluske J.R., Kim J.-C., Hansen C.F., Mullan B.P., Payne H.G., Hampson D.J., Callesen J., Wilson R.H. Piglet growth before and after weaning in relation to a qualitative estimate of solid (creep) feed intake during lactation: A pilot study. Arch. Anim. Nutr. 2007;61:469–480. doi: 10.1080/17450390701664249.

Rudar M, Fiorotto ML, Davis TA. Regulation of Muscle Growth in Early Postnatal Life in a Swine Model. Annu Rev Anim Biosci. 2019 Feb 15;7:309-335. doi: 10.1146/annurev-animal-020518-115130. Epub 2018 Nov 2. PMID: 30388025; PMCID: PMC7032524.

Sampath V, Sureshkumar S, Seok WJ, Kim IH. Role and functions of micro and macro-minerals in swine nutrition: a short review. J Anim Sci Technol. 2023 May;65(3):479-489. doi: 10.5187/jast.2023.e9. Epub 2023 May 31. PMID: 37332284; PMCID: PMC10271933.

Thomlinson, J. R., and T. L. J. Lawrence. 1981. Dietary manipulation of gastric pH in the prophylaxis of enteric disease in weaned pigs: some field observations. Vet. Rec. 109:120.

White, F., G. Wenham, G. A. M. Sharman, A. S. Jones, E. A. S. Rattray, and I. McDonald. 1969. Stomach function in relation to stomach scouring in the pig. Brit. J. Nutr. 23:847-857.

Woyengo, T. A., Beltranena, E., & Zijlstra, R. T. (2017). Effect of anti-nutritional factors of oilseed co-products on feed intake of pigs and poultry. Animal Feed Science and Technology, 233, 76-86.

 

 

Published on

21 August 2023

Tags

  • Swine

Related Articles

  • Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 1

    Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 1

    19 Dec 2022

    Pre-weaning practices that improve the ability of pigs to cope with life after weaning

    Weaning is a stressful phase for piglets as the maternal bond is lost, there is an abrupt change in the conditions of the environment, breastfeeding is replaced with dry feed, and intestinal adaptation to the new diet is required. This phase can, therefore, negatively impact the growth and productive performance of piglets, since there is a reduction in food intake and an increased chance of gastrointestinal disorders. This article proposes some strategies to minimize the deleterious effects caused by post-weaning stress with an aim to increase the survival rate, improve intestinal health, and enhance the overall growth performance of the piglets.

  • Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 2

    Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 2

    20 Feb 2023

    Optimizing housing and management conditions in the nursery to protect the pigs’ welfare and potential for lifetime performance after weaning

    Improving pig performance immediately postweaning is critical in determining the lifetime performance of pigs. Reducing post-weaning nutrient disruption can be accomplished through the implementation of pre-weaning management and housing strategies. Improving housing and management conditions in the nursery can protect pigs’ welfare, enhance nursery performance, and minimize lifetime production costs. In this article, we will discuss first-step recommendations related to management and housing conditions that enable maximized initial feed intake in the nursery.

  • Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 3

    Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 3

    17 Apr 2023

    Understanding the immune system of piglets and its challenges

    At birth, piglets are severely immunodeficient and rely heavily on maternal colostrum and milk for immune protection, development, and survival. Since it takes newborn piglets approximately three to four weeks to acquire maternal immunoglobulins from ingested colostrum for passive immune protection, when challenged with pathogens, neonatal pigs generate limited T and B cell responses due to the functional immaturity of their cellular and secretory immune systems. Therefore, the weaning phase is quite a challenging and stressful period for piglets which results in profound changes in gut microbiota, host physiology, and mucosal immune function.

  • Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 4

    Piglet Management and Feeding Strategies to Protect Post-Weaning Health and Improve Performance, Part 4

    19 Jun 2023

    The Role of Nutrition in Enhancing Piglet Immunity and Growth

    Immune competency is essential for the proper response of the organism to different stressors that compromise the body’s balance and the animal’s health. Such competence is acquired early in the first stages of life, basically through the ingestion of immunoglobulins in colostrum and adequate nutrients present in breast milk. However, the hyperprolificity of sows resulting from the intense selection of superior maternal line genetics made the transfer of nutrients from dam to offspring a major challenge due to the greater number of piglets. These nutrients play a role in immune development and antioxidant activity, being crucial to increasing the resilience of piglets against diseases.

Share

You are being redirected.

We detected that you are visitng this page from United States. Therefore we are redirecting you to the localized version.