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In Brief
In recent years, there has been spectacular evolution in fattening pig performance levels with feed conversion ratio getting as low 2.2-2.3 and daily gain rising to close to 1000 g/day.
These developments have been made possible thanks to effective genetic selection programs targeting increasingly lean and muscular pigs, which in turn considerably modifies the nature of body tissue deposition shifting more towards an increase in muscle accretion and nitrogen retention.
This shift towards higher protein deposition potential and average daily gain can trigger challenges in bone structure development. This new phenomenon arises due to muscle and bone deposition essentially competing for the allocation of the same nutrients. An example of the nutrients affected by this phenomenon is the competition for certain sulphur amino acids, phosphorus, and certain micronutrients such as vitamin D and certain trace elements.
In parallel with these changes, management practices have also shifted towards more sustainable production, and the curative use of certain antibiotics has given way to preventative health strategies involving more routine & extensive use of vaccines. Immune function is in turn challenged more frequently and the immune competence of pigs can be compromised.
Furthermore, pigs are exposed to numerous environmental situations such as heat and cold stress which modify and modulate their nutritional and physiological requirements and alter the expression of their growth potential.
Pastorelli et al. (2012) quantified the metabolic disturbances linked to different challenges which can induce a reduction in voluntary feed intake, but also alter metabolic efficiency. These impacts are difficult to quantify and model as there can be a cumulative effect and/or any physiological function rarely responds linearly to an environmental disturbance (Figure 1).
The traditional factorial approach to fattening swine nutrition is therefore no longer sufficient to optimize the health and performance of pigs. The notion of adaptive nutrition becomes necessary, faced with a fluctuating environment whose impact on performance, health and physiology is difficult to quantify and predict.
This new area of adaptive nutrition is all the more relevant as the environment of the pig, in other words the exposome, affects their phenotype by altering the expression of genes involved in metabolic and physiological pathways.
The exposome is a concept used to describe the environmental exposure that a pig faces during its life, and how this exposure impacts performance, metabolic pathways, physiology and health.
Interestingly, Payling et al. (2023) was able to demonstrate via in depth evaluation of metabolic pathway changes in pigs exposed to nutritional restriction in utero and born with intra-uterine growth retardation (IUGR) presented with altered immune function in adulthood (Figure 2).
A SAVVY™ plot showing activated (green) or purple (inhibited) pathways in the liver of IUGR finisher pigs compared to control finisher pigs.
Immune function, development of bone structure and muscle deposition are therefore three major pillars which compete for the quantitative and qualitative allocation of nutrients, at the pre- and post-absorptive level.
Through the characterization of the nutrient composition of raw materials, nutritionists can optimize nutritional intake of pigs at the pre-absorptive level, by maximizing the digestibility of the nutrients, in order to reduce as much as possible the non-digestible fraction of the raw materials.
The characterization of non-digestible fractions such as phytate and fiber, in real time with tools such as NIRS, allow rational, flexible and optimal use of digestive feed enzymes, such as phytase and carbohydrase from the Ronozyme® range.
Immune function, muscle deposition and bone health are governed by different metabolites at the post-absorptive level. Muscle, immune and of course bone cells have been shown to have receptors for vitamin D. Vitamin D is involved in the modulation of immune function, regulates bone deposition and influences metabolic pathways linked to muscle accretion.
The effects of vitamin D on physiological functions depends on the circulating plasma concentrations achieved in fattening swine. However, vitamin D3 status of fatteners is rarely evaluated and therefore risks can go unseen.
To quickly assess the circulating levels of vitamin D in pigs, dsm-firmenich offers Verax™ DBS Analytics, a quick and simple diagnostic tool whose benefit is to objectively assess vitamin D3 status of pigs on-farm and to implement rapid corrective nutritional measures that increases circulating vitamin D at optimal levels to support muscle deposition, immune function and bone retention.
Fattening swine are exposed to numerous challenges (exposome) that affect post-absorptive metabolism, nutrient partitioning and immune competency. This resulting adaptation in metabolism may affect protein balance (proteolysis vs proteosynthesis), amino-acids requirements (quantitatively and qualitatively), and micronutrient requirements such as vitamin D, which can compromise muscle deposition, bone mineralization and immune competency.
Macro and micro nutrition must be reviewed and adapted with the support of new robust and practical tools like Verax™ DBS Analytics that helps nutritionists, vets and farmers to identify the best approach and solutions to manage optimal muscle deposition, immune competency and bone health.
At dsm-firmenich, we stand as your partner in progress, providing specific and relevant information regarding your herd, allowing more informed decision making tailored to your local market conditions. Our adaptive nutritional concept of solutions and services helps you unleash your fatteners’ potential, maximizing lean meat gain without compromising immune competency or bone health for profitable, sustainable results.
11 March 2024
Maria Walsh is the Global Swine Marketing Director. Maria is an Irish national with a PhD in Animal Science from Purdue University in West Lafayette, Indiana, USA. She has more than 15 years of experience as a scientist and researcher. She joined dsm-firmenich in 2018 as a Senior Scientist, and has managed the swine innovation pipeline for the Animal Nutrition & Health business, including new product development and application solutions from ideation to commercialization.
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