Upcycling fruit waste into microalgae biotechnology: Perspective views and way forward

IF 4.1 Q2 FOOD SCIENCE & TECHNOLOGY Food Chemistry Molecular Sciences Pub Date : 2024-04-09 DOI:10.1016/j.fochms.2024.100203
Alicia Lee , John Chi-Wei Lan , Anet Režek Jambrak , Jo-Shu Chang , Jun Wei Lim , Kuan Shiong Khoo
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Abstract

Fruit and vegetable wastes are linked to the depletion of natural resources and can pose serious health and environmental risks (e.g. eutrophication, water and soil pollution, and GHG emissions) if improperly managed. Current waste management practices often fail to recover high-value compounds from fruit wastes. Among emerging valorization methods, the utilization of fruit wastes as a feedstock for microalgal biorefineries is a promising approach for achieving net zero waste and sustainable development goals. This is due to the ability of microalgae to efficiently sequester carbon dioxide through photosynthesis, utilize nutrients in wastewater, grow in facilities located on non-arable land, and produce several commercially valuable compounds with applications in food, biofuels, bioplastics, cosmetics, nutraceuticals, pharmaceutics, and various other industries. However, the application of microalgal biotechnology towards upcycling fruit wastes has yet to be implemented on the industrial scale due to several economic, technical, operational, and regulatory challenges. Here, we identify sources of fruit waste along the food supply chain, evaluate current and emerging fruit waste management practices, describe value-added compounds in fruit wastes, and review current methods of microalgal cultivation using fruit wastes as a fermentation medium. We also propose some novel strategies for the practical implementation of industrial microalgal biorefineries for upcycling fruit waste in the future.

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将水果废料转化为微藻类生物技术:前瞻性观点和前进方向
水果和蔬菜废弃物与自然资源的枯竭有关,如果管理不当,会对健康和环境造成严重危害(如富营养化、水和土壤污染以及温室气体排放)。目前的废物管理方法往往无法从水果废物中回收高价值化合物。在新兴的增值方法中,利用水果废料作为微藻生物炼油厂的原料,是实现零废物和可持续发展目标的一种很有前景的方法。这是因为微藻能够通过光合作用有效封存二氧化碳,利用废水中的养分,在非耕地上的设施中生长,并生产多种具有商业价值的化合物,可应用于食品、生物燃料、生物塑料、化妆品、营养保健品、制药和其他各种行业。然而,由于经济、技术、操作和监管方面的一些挑战,将微藻生物技术应用于水果废料的升级再循环尚未在工业规模上实施。在此,我们确定了食品供应链中水果废弃物的来源,评估了当前和新兴的水果废弃物管理方法,描述了水果废弃物中的增值化合物,并回顾了当前使用水果废弃物作为发酵介质培养微藻的方法。我们还提出了一些新颖的战略,以便在未来实际应用工业微藻生物炼制厂,对水果废料进行再循环利用。
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来源期刊
Food Chemistry Molecular Sciences
Food Chemistry Molecular Sciences Agricultural and Biological Sciences-Food Science
CiteScore
6.00
自引率
0.00%
发文量
83
审稿时长
82 days
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