Application of energy and nutrient reductions to a mixed-cereal diet without added inorganic phosphate, supplemented with a novel phytase alone or with a xylanase-β-glucanase combination, achieved a production benefit in pigs from wean to finish.

IF 1.3 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Translational Animal Science Pub Date : 2025-05-04 eCollection Date: 2025-01-01 DOI:10.1093/tas/txaf060

Deepak E Velayudhan, Yueming Dersjant-Li, Ester Vinyeta, Georg Dusel

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Abstract

This experiment tested the hypothesis that supplementation of a nutrient- and energy-reduced mixed-cereal diet with phytase, xylanase and β-glucanase, over an entire wean-to-finish growth cycle, would result in growth performance outcomes that were not different from those achieved by pigs fed an unsupplemented, nutritionally-adequate diet. A total of 192 weaned pigs [DanBred × Pi, initial body weight (BW) 7.2 ± 0.4 kg] were assigned to 48 floor pens [4 pigs/pen (2 male, 2 female), 12 pens/treatment], in a completely randomized design. Diets included: 1) a nutritionally adequate wheat, corn and barley-based positive control (PC); 2) a negative control (NC) based on the PC but without added inorganic P, reduced in Ca, net energy (NE), digestible amino acids (AA) and Na, supplemented with PhyG at 1,000, 1,000, 750, 500 and 500 FTU/kg in starter I (7 to 11 kg BW), starter II (11 to 25 kg BW), grower I (25 to 55 kg BW), grower II (55 to 85 kg BW) and finisher (85 to 115 kg BW) phases, respectively (NC1 + PhyG low); 3) NC1 further reduced in Ca, digestible AA and NE, (by ≤ 0.03 percentage points, ≤ 0.01 percentage points and ≤ 9 kcal/kg, respectively) supplemented with PhyG at 2,000, 2,000, 1,000, 750 and 750 FTU/kg per phase (NC2 + PhyG high), and; 4) as 2) but further reduced in NE and digestible AA (by 26 to 33 kcal/kg and ≤ 0.01 percentage points, respectively), supplemented with 2,440 XU/kg xylanase and 304 U/kg β-glucanase (NC3 + PhyG low + XB). For the overall period, growth performance (all measures) was maintained in the enzyme-supplemented treatments to a level not different from the PC, whereas in starter II and grower I, BW was increased (+ 1.82 and + 5.11 kg/pig, respectively; P < 0.05) and gain:feed was increased (P < 0.05) in NC3 + PhyG low + XB, compared with the PC. Total estimated feed costs per kilogram BW gain (BWG) were lower (P < 0.05) in NC3 + PhyG low + XB (-0.05 € or 7.3%) and the carbon footprint of production was reduced in NC2 + PhyG high and NC3 + PhyG low + XB compared with the PC (by 128 and 145 g CO₂ equivalents per kilogram of BWG, respectively, equivalent to reductions of 6.0% and 6.8%; P < 0.05). These results confirm the appropriateness of the applied energy and nutrient reductions for PhyG and PhyG with xylanase-β-glucanase in a mixed-cereal diet from wean to finish and highlight a potential feed cost saving and environmental sustainability benefit of the application.

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在不添加无机磷酸盐的混合谷物饲粮中减少能量和营养，在饲粮中单独添加一种新型植酸酶或添加木聚糖酶-β-葡聚糖酶组合，可以提高断奶至育肥猪的产量。

本试验验证了这样一种假设：在断奶至育肥期的整个生长周期内，添加含有植酸酶、木聚糖酶和β-葡聚糖酶的低营养和低能量混合谷物日粮，其生长性能结果与饲喂营养充足的未添加日粮的猪没有什么不同。试验采用完全随机设计，选用192头断奶仔猪[丹种×皮，初始体重7.2±0.4 kg]，分配在48个平顶栏中[4头猪/栏（公母各2头），12个栏/处理]。饲粮包括：1)以营养充足的小麦、玉米和大麦为基础的阳性对照（PC）；2)阴性对照（NC）以PC为基础，不添加无机磷，降低钙、净能（NE）、可消化氨基酸（AA）和钠含量，分别在发酵剂I期（7 ~ 11 kg BW）、发酵剂II期（11 ~ 25 kg BW）、生长期I期（25 ~ 55 kg BW）、生长期II期（55 ~ 85 kg BW）和育成期（85 ~ 115 kg BW）以1000、1000、750、500和500 FTU/kg添加PhyG (NC1 + PhyG low)；3)在每期添加2,000、2,000、1,000、750和750 FTU/kg （NC2 + PhyG较高）时，NC1进一步降低了Ca、可消化AA和NE（分别降低≤0.03个百分点、≤0.01个百分点和≤9 kcal/kg）；饲粮中添加2,440 XU/kg木聚糖酶和304 U/kg β-葡聚糖酶（NC3 + PhyG low + XB）可进一步降低NE和可消化AA（分别降低26 ~ 33 kcal/kg和≤0.01个百分点）。总体而言，酶补组的生长性能（各项指标）维持在与PC无显著差异的水平，而发酵剂II和生长剂I的体重分别提高了+ 1.82和+ 5.11 kg/头；每公斤生物质的p2当量，分别相当于减少6.0%和6.8%；P

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来源期刊

Translational Animal Science Veterinary-Veterinary (all)

CiteScore

2.80

自引率

15.40%

发文量

149

审稿时长

8 weeks

期刊介绍： Translational Animal Science (TAS) is the first open access-open review animal science journal, encompassing a broad scope of research topics in animal science. TAS focuses on translating basic science to innovation, and validation of these innovations by various segments of the allied animal industry. Readers of TAS will typically represent education, industry, and government, including research, teaching, administration, extension, management, quality assurance, product development, and technical services. Those interested in TAS typically include animal breeders, economists, embryologists, engineers, food scientists, geneticists, microbiologists, nutritionists, veterinarians, physiologists, processors, public health professionals, and others with an interest in animal production and applied aspects of animal sciences.