Nutrition NotesSynthetic Amino Acids vs. Soybean Meal in Grow-Finish Pigs Facebook Twitter LinkedInINTRODUCTION: Through Kent research in 2014, we determined that a level of “12 lb/ton” of synthetic amino acids [lysine (Lys), threonine (Thr), methionine (Met), tryptophan (Trp)] performed similar to our standard “8 lb/ton” of synthetic amino acids (lysine, threonine, methionine). When Met is added to the diet, it is also converted in the pig into another sulfur amino acid called Cystine (Cys). So in our diet tables you will see the term Met + Cys which refers to these two sulfur amino acids that are needed in pig diets. We also evaluated higher levels of synthetic amino acids (with lower soybean meal levels) and these did not do as well as the 12 lb/ton level. The terminology that we are using to express amino acid requirements is based on the digestible levels of these amino acids (called standardized ileal digestible or SID) which reflects the amount of each amino acid absorbed and utilized for efficient synthesis of muscle. Amino acid requirements are based on the ratio of essential (those amino acids that must be supplied in the diet such as threonine, methionine and tryptophan) amino acids to lysine since lysine is the first limiting amino acid in swine diets. Since the Kent SID lysine levels (and KNG amino acid ratios) were established in trials in 2009 to 2011, we have decided to see if a higher level of amino acids (by raising SID lysine by 0.05 units and using the KNG amino acid ratios) would provide a growth and economic response in current genetics (DNA Boar x Choice Sow). In one treatment (AA), we locked in soybean meal levels at those used in the “12 lb/ton” diets (Standard) from 2014 and allowed only synthetic amino acids to increase. In a third set of treatments (SBM), we “locked in the synthetic lysine” levels from the “12 lb/ton” diets and allowed soybean meal to increase to get the 0.05 unit increase in lysine with minor adjustments made with synthetic threonine, methionine and tryptophan. This treatment provided information as to whether other essential amino acids [Valine (Val), Isoleucine (Ile)] and/or nitrogen were needed to make non-essential amino acids (those amino acids a pig can biologically make provided enough nitrogen is in the diet since it is a key component of amino acids).PROCEDURES: From the introduction above, we evaluated three treatments in this trial: 1. Standard (“12 lb/ton of synthetic amino acids involving synthetic lysine, threonine, methionine and tryptophan), 2. Standard with SID lysine increased by 0.05 units via synthetic lysine (AA) and 3. Standard with SID lysine increased by 0.05 units via an additional 40 lb/ton of soybean meal (SBM) compared to the Standard and AA diets. We utilized 1,310 pigs involving 54 to 58 replications per treatment. The pigs were fed a five-phase program utilizing NexGen VTM 6/5 PT and 200 lb/ton of Distillers Dried Grains with Solubles as shown in Tables 1-3. The results of the trial are shown in Table 4 below. Increasing the synthetic amino acids (AA), and increasing the soybean meal (SBM) resulted in marked improvements in feed efficiency when compared to the standard diets. We did observe that pigs on the diets with AA did consume significantly less feed than those on the standard diets. There was also a significant improvement in percent lean from the added SBM along with numerically higher grade premiums that would also lead to an increase in value from the added SBM diets compared to the standard diets. At a market price of $55/ cwt live, increased AA decreased net return by $0.66/hog marketed, while in contrast, increased SBM increased net return by $0.65/hog marketed compared to pigs on the standard diets. Table 1. Grower Diets During Days 0-42Days 0-21Days 21-42Standard+ AA+ SBMStandard+ AA+ SBMCorn (7.0% CP)1397.421394.761358.021468.481465.801429.16SBM (46.85% CP)352352392282282322DDGS (27% CP)2002002002002002ooCalcium Carbonate22.622.622.622.322.322.3Monocalcium Phosphate 21%2.82.82.02.42.41.5Salt7777776/5 VTM PT666666L-Lysine HCl8.009.288.007.949.227.93L-Threonine2.272.912.342.112.762.19DL-Methionine1.151.701.311.001.561.18L-Tryptophan0.460.650.430.470.660.44Skycis0.30.30.30.30.30.3Total, lb200020002000200020002000$/Ton1 1.68.44171.84171.84161.94165.35165.35ME, Kcal/lb152115191521152215201522NE, Kcal/lb102910271026103510341032Crude Protein, %16.416.517.215.015.115.8Lys, %1.081.131.140.981.031.04SID Lys, %.97.1021.020.880.930.93SID Trp/SID Lys Ratio181818181818SID Thr/SID Lys Ratio636363636363SID Met+Cys/ SID Lys Ratio545454555555SID Val/SID Lys Ratio 67 6468676368SID Ile/SID Lys Ratio5956605855591 Corn, $3.35/bu or $119.64/ton; SBM, $290/ton; DDGS, $119.64/ton Table 2. Finisher Diets During Days 42-94Days 0-21Days 21-42Standard+ AA+ SBMStandard+ AA+ SBMCorn (7.0% CP)1532.081529.381492.561582.351579.641543.01SBM (46.85% CP)221221261172172212DDGS (27% CP)2002002002002002ooCalcium Carbonate20.520.520.620.820.820.8Monocalcium Phosphate 21%1.82.81.01.01.00.1Salt7777776/5 VTM PT555555L-Lysine HCl8.189.468.167.969.247.95L-Threonine2.272.922.352.042.702.13DL-Methionine1.391.981.591.031.621.23L-Tryptophan0.480.660.440.520.700.48Skycis0.30.30.30.30.30.3Total, lb200020002000200020002000$/Ton1 156.93160.39160.40151.59155.05155.06ME, Kcal/lb152315211523152415221524NE, Kcal/lb104210411039104710461044Crude Protein, %13.813.914.612.812.913.6Lys, %0.910.960.960.830.880.88SID Lys, %.81.860.860.740.790.79SID Trp/SID Lys Ratio171717171717SID Thr/SID Lys Ratio646464646464SID Met+Cys/ SID Lys Ratio585858585858SID Val/SID Lys Ratio 66 6366676367SID Ile/SID Lys Ratio575357575357DISCUSSION: Increasing SID lysine by 0.05% over the Standard program resulted in a loss in net return of $0.66/hog marketed by keeping soybean levels the same as the Standard treatment and increasing the four synthetic amino acids. In contrast, the SBM treatment (which increased SID lysine by 0.05%) resulted in a response in net return of $0.65/hog marketed. So why the difference between the AA vs. SBM treatment? It could be that perhaps other essential amino acids were limiting such as isoleucine and valine since the added SBM treatment increased all the essential amino acids. Another reason could be that nitrogen was limiting in the diets which is critical in the synthesis of non-essential amino acids. The SBM diets had on average about 0.7 units more crude protein from the added 40 lb/ton increase in soybean meal. As amino acid technologies continue to emerge, it is conceivable that with competitive enough pricing that using isoleucine and/or valine could be evaluated at some point.SUMMARY: Using the diets with both high levels of synthetic amino acids and the higher soybean meal levels resulted in a substantial improvement in net return per hog marketed ($0.65 at a live price of $55/cwt) and will become the new standard in feeding these genetically lean and fast-growing lines of pigs. Table 3. Finisher Diets During Days 94-117Standard+ AA+ SBMCorn (7.0% CP)1474.051471.291434.56SBM (46.85% CP)279279319DDGS (27% CP)200200200Calcium Carbonate18.118.118.2Monocalcium Phosphate 21%1.51.50.6Salt7776/5 VTM PT555L-Lysine HCl8.099.378.07L-Threonine2.713.392.82DL-Methionine2.192.822.43L-Tryptophan0.360.530.32Paylean 2.25 g/lb222Total, Lb200020002000$/Ton179.55183.08183.08ME, Kcal/lb152415211524NE, Kcal/lb103810361035Crude Protein, %15.015.115.8Lys, %0.981.031.04SID Lys, %0.880.930.93SID Trp/SID Lys Ratio171717SID Thr/SID Lys Ratio666666SID Met+Cys/SID Lys Ratio616161SID Val/SID Lys Ratio676367SID Ile/SID Lys Ratio585558 Table 4. Effect of Synthetic Amino Acids (AA) vs. Soybean Meal (SBM) on Overall Performance, Economics & Carcass Traits in Grow-Finish PigsTreatmentsStandard+ AA + SBMNumber of Pigs420438452Number of Pens545658Initial Wt, lb39.0038.8538.94Days 0-117ADG, lb2.0602.0462.076ADFa, lb5.6225.4855.546F/Gab2.7272.6772.669Cost/Lb Gain, ¢22.1722.2422.17Net Return, $/Pig@ $55/cwt live price79.0378.3779.68@ $60/cwt live price91.0890.3491.82@ $65/cwt live price103.13102.31103.96@ $70/cwt live price115.18114.28116.10CarcassPercent Leanb56.9157.0257.14Dressing Percent75.4075.2675.36Grade Premium, $/Cwt7.057.017.20aStandard vs. + AA (P < .05); bStandard vs. + SBM (P < .05) Download PDF