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评估提高咖啡渣作为反刍动物日粮成分营养价值的增值策略。

Evaluation of Valorisation Strategies to Improve Spent Coffee Grounds' Nutritional Value as an Ingredient for Ruminants' Diets.

作者信息

San Martin David, Ibarruri Jone, Luengo Nagore, Ferrer Jorge, García-Rodríguez Aser, Goiri Idoia, Atxaerandio Raquel, Medjadbi Mounir, Zufía Jaime, Sáez de Cámara Estíbaliz, Iñarra Bruno

机构信息

AZTI, Food Research, Basque Research and Technology Alliance (BRTA), Astondo Bidea, Edificio 609, 48160 Derio, Spain.

NEIKER, Basque Institute for Agricultural Research and Development, Basque Research and Technology Alliance (BRTA), Campus Agroalimentario de Arkaute s/n, 01192 Arkaute, Spain.

出版信息

Animals (Basel). 2023 Apr 26;13(9):1477. doi: 10.3390/ani13091477.

Abstract

Lignin in animal diets is a limiting factor due to its low digestibility. This study assessed the effects of thermal or mechanical pre-treatments and enzymatic hydrolysis on spent coffee grounds' (SCG) nutritional value and digestibility. A first trial studied the effect of thermal pre-treatment and hydrolysis with removal of the liquid part and a second trial studied mechanical pre-treatment and hydrolysis with and without removal of the liquid part. Autoclaving did not improve the enzymatic performance nor the nutritional value. Hydrolysis reduced the digestibility of the solid phase and impaired its ruminal fermentation efficiency. Hydrolysates without removing the liquid part improved its nutritional value, but not compared with unprocessed SCG. Grinding increased crude protein and reduced crude fibre and protein, which led to greater fermentation and in vitro digestibility. Thus, grinding emerges as the most promising valorisation strategy to improve SCG nutritional characteristics and their use for animal feed, contributing to the circular economy.

摘要

动物日粮中的木质素因其消化率低而成为一个限制因素。本研究评估了热预处理或机械预处理以及酶水解对咖啡渣(SCG)营养价值和消化率的影响。第一项试验研究了热预处理和去除液体部分后的水解效果,第二项试验研究了机械预处理以及去除和未去除液体部分的水解效果。高压灭菌既没有提高酶性能,也没有提高营养价值。水解降低了固相的消化率,并损害了其瘤胃发酵效率。未去除液体部分的水解产物提高了其营养价值,但与未加工的SCG相比并无优势。研磨增加了粗蛋白含量,降低了粗纤维和蛋白质含量,从而导致更高的发酵和体外消化率。因此,研磨成为改善SCG营养特性及其用于动物饲料的最具前景的增值策略,有助于循环经济。

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