Evaluating HiPhorius Phytase in Two Diet Formulation Strategies on Finishing Pig Growth Performance, Serum Chemistry, Bone Mineralization, and Carcass Characteristics

Kansas Agricultural Experiment Station Research Reports Pub Date : 2023-01-01 DOI:10.4148/2378-5977.8531

Macie E. Reeb, Jason C. Woodworth, Joel M. DeRouchey, Mike D. Tokach, Robert D. Goodband, Jordan T. Gebhardt, Jon R. Bergstrom

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Abstract

Two experiments were conducted to determine the effects of HiPhorius (DSM Nutritional Products, Parsippany, NJ) phytase on finishing pig growth performance, serum chemistry, bone mineralization, and carcass characteristics. In Exp. 1, 1,161 pigs (PIC 337 × 1050; initially 80.9. ± 1.06 lb) were used in a 105-d trial. There were 27 pigs per pen and 10 or 11 replications per treatment. Treatments consisted of: 1) Control diet with no added phytase and formulated to NRC (2012) requirement estimates for standard total tract digestible (STTD) P; 2) 600 FYT/kg added phytase formulated to the same STTD P as the control diet considering a release of 0.13% STTD P and 0.095% STTD Ca; 3) 1,000 FYT/kg added phytase formulated to the same STTD P as the control diet considering release of 0.16% STTD P and 0.107% STTD Ca; and 4) high STTD P (no phytase; approximately 22% above NRC requirement estimates). All diets were formulated to a 1.30:1 STTD Ca:STTD P ratio. Overall, pigs fed NRC (2012) or high STTD P had increased ADG (P < 0.05) compared to pigs fed the treatments with added phytase. Pigs fed diets with phytase tended to have decreased (P = 0.056) 25-hydroxyvitamin-D3 compared to pigs fed NRC levels of STTD P without phytase. In Exp. 2, 1,160 pigs (PIC 337 × 1050; initially 167.4 ± 2.92 lb) were used in a 58-d trial. There were 27 pigs per pen and 11 replications per treatment. Treatments were the same as in Exp. 1, except diets were formulated to the same total Ca:P ratio (the phase 1 ratio was 1.15:1; the phase 2 ratio was 1.12:1) without an STTD Ca release consideration from phytase. Overall, there were no differences in ADG, ADFI, or F/G among treatments (P > 0.10). For pigs fed NRC or high STTD P, there was an increase (P < 0.05) in metacarpal bone density, and a tendency for increased bone ash weight (g) (P < 0.10) and percentage bone ash (P < 0.10) compared to pigs fed treatments containing phytase. In conclusion, regardless of diet formulation strategy, pigs fed diets with phytase had decreased growth performance (Exp. 1) and bone mineralization (Exp. 2). The unexpected result may be caused by several, or a combination of, factors, such as low or no monocalcium phosphate being included in the diets with phytase, lower analyzed than formulated P (based on sampled diets), not enough phytate-bound P in the diets for phytase to provide sufficient P, too wide of an analyzed Ca:P ratio that may have reduced phytase activity compared to the intended Ca:P ratio, or the expected P attributed to the phytase being overestimated.

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两种饲粮配制策略中HiPhorius植酸酶对育肥猪生长性能、血清化学、骨矿化和胴体特性的影响

本试验旨在研究HiPhorius (DSM nutrition Products, Parsippany, NJ)植酸酶对育肥猪生长性能、血清化学、骨矿化和胴体特性的影响。试验1,1,161头猪(PIC 337 × 1050;最初的80.9。±1.06磅)，在105天的试验中使用。每个猪圈27头，每个处理10或11个重复。处理包括:1)对照饲粮中不添加植酸酶，并按照NRC(2012)对标准全道可消化(STTD) P的需求估计值配制;2)在与对照饲粮相同的STTD P基础上添加600 FYT/kg植酸酶，考虑STTD P释放量为0.13%，STTD Ca释放量为0.095%;3)在与对照饲粮相同的STTD P基础上添加1000 FYT/kg植酸酶，考虑释放0.16% STTD P和0.107% STTD Ca;4) STTD P高(无植酸酶;大约比NRC要求估计高22%)。所有饲粮的钙磷比均为1.30:1。总体而言，与添加植酸酶的处理相比，饲喂NRC(2012)或高STTD P的猪的平均日增重显著提高(P < 0.05)。饲粮中添加植酸酶的猪与饲粮中不添加植酸酶的猪相比，25-羟基维生素d3含量趋于降低(P = 0.056)。试验2,1,160头猪(PIC 337 × 1050;最初在58天的试验中使用了167.4±2.92磅。每个猪圈27头，每个处理11个重复。各组处理与试验1相同，但饲粮的总钙磷比相同(第一阶段钙磷比为1.15:1;第二阶段的比例为1.12:1)，不考虑植酸酶释放STTD Ca的问题。总体而言，各处理间ADG、ADFI和F/G均无差异(P > 0.10)。与添加植酸酶处理相比，饲喂NRC或高STTD P的猪掌骨骨密度增加(P < 0.05)，骨灰量(g)和骨灰率(P < 0.10)有增加的趋势。综上所述，无论饲粮配方策略如何，饲粮中添加植酸酶的猪的生长性能(实验1)和骨矿化(实验2)都有所下降。这一意想不到的结果可能是由多种因素或多种因素共同造成的，例如:添加植酸酶的饲粮中含有较低或不含磷酸单钙，(基于样本饲粮)分析的磷低于配制的磷，饲粮中没有足够的植酸结合磷来提供足够的磷，与预期的Ca:P比相比，分析的Ca:P比太宽可能降低了植酸酶的活性，或者归因于植酸酶的预期P被高估。

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Kansas Agricultural Experiment Station Research Reports

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