The use of artificial insemination

The use of artificial insemination (AI) by pork producers has greatly increased over the past decade. For AI of swine, increasing the quality of sperm produced by boars is of primary importance (Waberski et al., 2008), as the production of high-quality sperm are crucial due to the limited number of insemination doses that can be obtained from one ejaculate (Ciereszko et al., 2000). Semen quality is not only a proxy measure of boar fertility but also has sire effects on pig production in terms of the reproductive performance of sows (Smital, 2009 and Huang et al., 2010). The production and quality of semen depends on genetic or intrinsic factors, including breed (Wolf, 2009), age (Huang et al., 2010), testicular size (Clark et al., 2003), environmental extrinsic factors (e.g., temperature) (Ciereszko et al., 2000 and Yeste et al., 2010) and photoperiod (Yeste et al., 2010). Moreover, semen collection rhythm (Pruneda et al., 2005) and nutrition (Yeste et al., 2010) greatly influence semen quality.

Nutrition affects boar libido, sperm output, semen quality, and fertility status (sow pregnancy rate and offspring litter sizes). Low protein diets, especially in combination with low energy intake, have been shown to significantly reduce boar interest in mounting a dummy sow and ejaculation events (Stevermer et al., 1961). However, boar diets that contain excessive protein content may lead to corpulence, and increases in the concentration of blood urea, the number of abnormal sperm (Louis et al., 1994a), and serum skatole concentrations (Lin et al., 1992). Proteins are composed of amino acids; therefore, protein quality is largely dependent on the amino acid content and the bioavailability of amino acid (Kim et al., 2009). Different ratios of amino acids have substantial effects on the reproductive performance of boars (Ren et al., 2015). Increasing dietary lysine (Lys) from 0.86 to 1.03%, for instance, improved boar semen quality (Rupanova, 2006); other research has shown that diets supplemented with threonine (Thr) improved semen quality in both rams (Wilson et al., 2004) and boars (Close and Roberts, 1993), whereas inadequate tryptophan (Trp) led to the reduction of sperm number (Castrogiovanni et al., 2014). Moreover, diets supplemented with Trp can significantly improve motility of ram spermatozoa (Pichardo et al., 2011).

Sperm quality is closely correlated with boar fertility. Semen from boars fed a fortified selenium diet had a higher fertilization rate in mature gilts (Marin-Guzman et al., 1997). Lys, methionine (Met), Thr, Trp and valine (Val) are essential amino acids for pigs fed corn-soy based diets, but it is not clear whether supplementation of feed with these amino acids can improve boar sperm quality and fertility. It is reasonable to speculate that any dietary treatment that changes the composition of semen or seminal fluid may also influence the sperm quality. Speight et al. (2012) suggests that supplementation with organic selenium slowed the decrease in sperm motility post extension. In boars, viability of sperm stored at 15 °C was improved by increasing DHA levels in semen, a response to dietary fatty acid supplementation (Penny et al., 2000). It is not known whether or not supplementing diets with compound amino acids can increase boar fertility. Therefore, the objectives of this study were to determine (a) the effects of dietary amino acid level with the same amino acid patterns on semen quality and (b) the fertility of boar sperm when used for AI.