Using Azolla (Azolla microphylla) leaf meal and phytonutrient powder on rumen fermentation efficiency and nutrient degradability using in vitro technique.

IF 2.4 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Animal Bioscience Pub Date : 2024-10-24 DOI:10.5713/ab.24.0379

Burarat Phesatcha, Kampanat Phesatcha, Thiwakorn Ampapon, Metha Wanapat

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Abstract

Objective: This work was to investigate the effect of using Azolla (Azolla microphylla) leaf meal and phytonutrient powder on rumen fermentation efficiency and nutrient degradability using in vitro technique.

Methods: All respective treatments were imposed in a 2 × 4 × 2 Factorial arrangements according to a completely randomized design (CRD). The first factor was two ratios of roughage to concentrate (R:C at 60:40, and 40:60), the second factor was Azolla (Azolla microphylla) powder (AMP) supplementation levels (0%, 3%, 6%, and 9% of the total substrate) and the third factor was Turmeric (Curcuma longa) powder (TUP) supplementation levels (0% and 2% of the total substrate).

Results: Cumulative gas production at 96 h, was affected by R:C and numerically increased by AMP and TUP supplementation (p<0.05). Gas production kinetics increased with the increasing ratio of concentrate and AMP supplementation whereas TUP supplement reduced gas production. In vitro DM degradability was remarkably increased (p<0.05) by the R:C ratio, AMP and TUP supplementation. However, increasing R:C ratio, AMP and TUP supplementation resulted in the concentration of propionate (C3) significantly increasing (p<0.05). Acetate (C2), C2:C3 ratio, and protozoal population were improved (p<0.05), while the methane production decreased.

Conclusion: Under this study, the results were obtained under the supplementation level of 9% AMP and 2% TUP of total substrate, hence, the combined use is potentially beneficial. These results revealed a potential use of AMP and TUP as a supplement to improve rumen fermentation for ruminant feeding. Nevertheless, in vivo feeding trials should be further investigated using AMP and TUP as a source of protein and phytonutrient.

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利用体外技术观察杜鹃叶粉和植物营养素粉对瘤胃发酵效率和营养物质降解性的影响。

目的本研究采用体外技术，探讨使用微花杜鹃（Azolla microphylla）叶粉和植物营养素粉对瘤胃发酵效率和营养物质降解性的影响：根据完全随机设计（CRD），所有处理均采用 2 × 4 × 2 的因子排列。第一个因素是粗饲料与精饲料的两种比例（R:C，60:40 和 40:60），第二个因素是杜鹃花粉（AMP）的补充水平（占总基质的 0%、3%、6% 和 9%），第三个因素是姜黄粉（TUP）的补充水平（占总基质的 0% 和 2%）：结果：96 小时后的累积产气量受 R:C 的影响，而 AMP 和 TUP 的补充则在数量上有所增加（p 结论：本研究的结果表明，AMP 和 TUP 的补充会增加产气量：在这项研究中，在补充基质总量 9% 的 AMP 和 2% 的 TUP 的情况下取得了结果，因此，两者的结合使用可能是有益的。这些结果揭示了 AMP 和 TUP 作为改善反刍动物瘤胃发酵的补充剂的潜在用途。不过，应进一步研究将 AMP 和 TUP 作为蛋白质和植物营养素来源的体内饲养试验。

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