揭示挤压和干燥温度对添加芒果和菠萝副产品的水产饲料自由基清除能力的影响

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

Animal Feed Science and Technology Pub Date : 2024-07-20 DOI:10.1016/j.anifeedsci.2024.116061

Ricardo Pereira , Cristina Velasco , Ricardo Gómez-Garcia , Jorge Dias , Manuela Pintado , Luisa M.P. Valente

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引用次数: 0

摘要

在水产饲料中添加天然抗氧化剂是当前循环经济背景下的研究趋势。然而，天然抗氧化剂在饲料生产过程中极易受到热条件的影响，尤其是在挤压和干燥过程中。本研究探讨了挤压和干燥温度对添加了芒果皮和菠萝皮天然抗氧化剂的水产饲料抗氧化特性的影响。对一种对照日粮混合物和两种含有 2% 芒果（M）或菠萝（P）皮粉的日粮混合物进行了不同组合的挤压温度（110 °C, -H vs 25 °C -C）和干燥温度（60 °C vs 35 °C）试验。通过 DPPH+、ABTS-+ 和 ORAC（后者在生物模型中最具代表性）分析法，对配料、生产过程中间阶段和最终日粮的天然抗氧化剂成分（维生素、类胡萝卜素、游离和纤维结合的酚类化合物）和抗氧化能力进行了分析。结果表明，与采用相同生产条件的对照日粮相比，添加 2% 的菠萝或芒果皮粉可提高水产饲料的抗氧化剂含量和抗氧化能力。与维生素和类胡萝卜素相比，酚类化合物的含量更高，对饲料生产过程的抵抗力也更强。具体来说，日粮 PH-60 中游离提取物和纤维结合提取物的 ORAC 结果（分别为 1674.3 和 1216.2 mg TE 100 g DM-1）明显高于对照组 CH-60（分别为 694.8 和 422.8）（P < 0.001）。此外，日粮 PC-60 的游离提取物（1312.0 毫克 TE 100 克 DM-1）和日粮 MH-60 和 PH-35 的纤维结合提取物（分别为 719.2 和 871.1 毫克 TE 100 克 DM-1）也明显高于对照组（P < 0.001）。PCA 分析表明，热挤压菠萝日粮以及热挤压和热烘干芒果日粮与较高的自由提取物和结合提取物抗氧化能力更密切相关。总之，果皮粉有望成为减轻水产饲料氧化的抗氧化剂补充剂。

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Unravelling the effects of extrusion and drying temperatures on the radical scavenging capacity of aquafeeds supplemented with mango and pineapple by-products

Antioxidant supplementation of aquafeeds with natural sources is a current research trend within the context of a circular economy. However, natural antioxidants are highly vulnerable to thermal conditions during feed manufacturing, particularly during extrusion and drying. This study examines the impact of extrusion and drying temperatures on the antioxidant properties of aquafeeds supplemented with natural antioxidants from mango and pineapple peels. A control dietary mixture and two dietary mixtures with 2 % inclusion of either mango (M) or pineapple (P) peel flour were subjected to different combinations of extrusion temperatures (110 °C, -H vs 25 °C - C) and drying temperatures (60 °C vs 35 °C). Ingredients, manufacturing process intermediate stages, and final diets were analysed for their natural antioxidant composition (vitamins, carotenoids, free and fibre-bound phenolic compounds) and antioxidant capacity via the DPPH⁺, ABTS^•+ and ORAC assays, the latter of which is the most representative for biological models. Results show that incorporating 2 % of either pineapple or mango peel flour increases the antioxidant content and capacity of aquafeeds compared to a control diet subjected to the same manufacturing conditions. Phenolic compounds were more abundant and resistant to the feed manufacturing process than vitamins and carotenoids. Specifically, ORAC results for free and fibre-bound extracts in diet PH-60 (1674.3 and 1216.2 mg TE 100 g DM⁻¹, respectively) were significantly higher (P < 0.001) than the control CH-60 (694.8 and 422.8, respectively). Moreover, free extracts from diet PC-60 (1312.0 mg TE 100 g DM⁻¹) and fibre-bound extracts from diets MH-60 and PH-35 (719.2 and 871.1 mg TE 100 g DM⁻¹, respectively) were also significantly higher than the control (P < 0.001). A PCA analysis showed that pineapple diets with hot extrusion, as well as the mango diet with hot extrusion and hot drying, are more closely associated with higher antioxidant capacity in both free and bound extracts. Overall, fruit peel flours show promise as antioxidant supplements for mitigating oxidation in aquafeeds.

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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.