Standardized total tract digestibility of phosphorus in field peas fed to growing pigs is increased by microbial phytase, but particle size and origin of field peas do not affect digestibility of phosphorus

IF 2.5 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Animal Feed Science and Technology Pub Date : 2024-06-10 DOI:10.1016/j.anifeedsci.2024.116044

Jimena A. Ibagon , Su A Lee , C. Martin Nyachoti , Hans H. Stein

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Abstract

Two experiments were conducted to test the hypothesis that particle size or origin of field peas does not influence apparent total tract digestibility (ATTD) or standardized total tract digestibility (STTD) of P, but that increasing levels of phytase will increase ATTD and STTD of P in field peas when fed to growing pigs. In experiment 1, one source of field peas was obtained from the U.S., and two sources were obtained from Canada (i.e., Canada 1 and Canada 2). The U.S. field peas were ground to 265, 457, or 678 µm, whereas the Canada 1 peas were ground to 253 µm, and the Canada 2 source was ground to 411 µm. The five batches of field peas were each included in one diet and fed to 50 growing pigs (16.36 ± 1.19 kg) with 10 replicate pigs per diet. In experiment 2, six diets based on the U.S. field peas ground to 678 µm were formulated to contain 0, 250, 500, 1000, 2000, or 4000 units per kg of microbial phytase and fed to 48 pigs (15.26 ± 0.91 kg) with eight replicate pigs per diet. In both experiments, field peas were the only source of P in the diets. Pigs were housed individually in metabolism crates and feces were collected for four days. Results of experiment 1 indicated that the ATTD and STTD of P were not affected by source of peas or by particle size of the field peas and it was concluded that growing location and variety do not influence STTD of P in field peas. Results of experiment 2 indicated that the ATTD of Ca and P and the STTD of P increased (linear, P < 0.001) as phytase increased in the diets, and fecal excretion of Ca and P was reduced as the concentration of dietary phytase increased (linear, P < 0.001). It was, therefore, concluded that if microbial phytase is included in diets containing field peas, the inclusion of feed phosphate can be reduced, and manure concentration of P will also be reduced. In conclusion, the hypotheses that neither growing location nor particle size influences STTD of P were confirmed, and the hypothesis that increased concentration of dietary phytase increases STTD of P was also confirmed.

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用微生物植酸酶提高生长猪饲喂的大田豌豆中磷的标准总消化率，但大田豌豆的颗粒大小和产地并不影响磷的消化率

为了验证以下假设，我们进行了两项实验：田间豌豆的粒度或产地不会影响豌豆的表观总消化率（ATTD）或标准化总消化率（STTD），但用生长猪饲喂田间豌豆时，植酸酶水平的提高会增加田间豌豆的豌豆总消化率（ATTD）和标准化总消化率（STTD）。在实验 1 中，一种大田豌豆来自美国，两种来自加拿大（即加拿大 1 号和加拿大 2 号）。美国的大田豌豆被磨碎至 265、457 或 678 微米，而加拿大 1 号的豌豆被磨碎至 253 微米，加拿大 2 号的豌豆被磨碎至 411 微米。这五批田野豌豆分别制成一种日粮，喂给 50 头生长猪（16.36 ± 1.19 千克），每种日粮有 10 个重复。在实验 2 中，以磨碎至 678 µm 的美国大田豌豆为基础，配制了每公斤含 0、250、500、1000、2000 或 4000 单位微生物植酸酶的六种日粮，饲喂 48 头猪（15.26 ± 0.91 公斤），每种日粮 8 个重复。在这两项实验中，田野豌豆是日粮中唯一的 P 来源。猪被单独饲养在新陈代谢箱中，并收集四天的粪便。实验 1 的结果表明，P 的 ATTD 和 STTD 不受豌豆来源或大田豌豆颗粒大小的影响，因此认为种植地点和品种不会影响大田豌豆中 P 的 STTD。实验 2 的结果表明，随着植酸酶在日粮中含量的增加，钙和磷的 ATTD 以及钾的 STTD 增加（线性，P < 0.001），并且随着日粮植酸酶浓度的增加，钙和磷的粪便排泄量减少（线性，P < 0.001）。因此，得出的结论是，如果在含有大田豌豆的日粮中添加微生物植酸酶，就可以减少饲料中磷酸盐的含量，粪便中磷的浓度也会降低。总之，生长地点和颗粒大小均不影响豌豆的 STTD 的假设得到了证实，日粮植酸酶浓度增加会增加豌豆的 STTD 的假设也得到了证实。

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来源期刊

Animal Feed Science and Technology 农林科学-奶制品与动物科学

CiteScore

6.00

自引率

6.20%

发文量

266

审稿时长

3 months

期刊介绍： Animal Feed Science and Technology is a unique journal publishing scientific papers of international interest focusing on animal feeds and their feeding. Papers describing research on feed for ruminants and non-ruminants, including poultry, horses, companion animals and aquatic animals, are welcome. The journal covers the following areas: Nutritive value of feeds (e.g., assessment, improvement) Methods of conserving and processing feeds that affect their nutritional value Agronomic and climatic factors influencing the nutritive value of feeds Utilization of feeds and the improvement of such Metabolic, production, reproduction and health responses, as well as potential environmental impacts, of diet inputs and feed technologies (e.g., feeds, feed additives, feed components, mycotoxins) Mathematical models relating directly to animal-feed interactions Analytical and experimental methods for feed evaluation Environmental impacts of feed technologies in animal production.