Chongqing University of Arts and Sciences, Yongchuan, Chongqing, China.
School of Biotechnology and Bioengineering, West Yunnan University, Lincang, Yunan, China.
Crit Rev Food Sci Nutr. 2023;63(30):10607-10620. doi: 10.1080/10408398.2022.2080638. Epub 2022 May 24.
Apple is the largest fruit crop produced in temperate regions and is a popular fruit worldwide. It is, however, susceptible to a variety of postharvest fungal pathogens, including , , , spp., and spp. Decays resulting from fungal infections severely reduce apple quality and marketable yield. Biological control utilizing bacterial and fungal antagonists is an eco-friendly and effective method of managing postharvest decay in horticultural crops. In the current review, research on the pathogenesis of major decay fungi and isolation of antagonists used to manage postharvest decay in apple is presented. The mode of action of postharvest biocontrol agents (BCAs), including recent molecular and genomic studies, is also discussed. Recent research on the apple microbiome and its relationship to disease management is highlighted, and the use of additives and physical treatments to enhance biocontrol efficacy of BCAs is reviewed. Biological control is a critical component of an integrated management system for the sustainable approaches to apple production. Additional research will be required to explore the feasibility of developing beneficial microbial consortia and novel antimicrobial compounds derived from BCAs for postharvest disease management, as well as genetic approaches, such as the use of CRISPR/Cas9 technology.
苹果是温带地区产量最大的水果之一,也是全球广受欢迎的水果。然而,它容易受到各种采后真菌病原体的侵害,包括、、、、、和 等。真菌感染引起的腐烂会严重降低苹果的品质和商品产量。利用细菌和真菌拮抗物进行生物防治是管理园艺作物采后腐烂的一种环保且有效的方法。在当前的综述中,介绍了主要腐烂真菌的发病机制研究和用于管理苹果采后腐烂的拮抗菌的分离。还讨论了采后生物防治剂(BCA)的作用模式,包括最近的分子和基因组研究。强调了苹果微生物组及其与疾病管理的关系的最新研究,并回顾了添加剂和物理处理的使用以增强 BCA 的生物防治效果。生物防治是苹果可持续生产综合管理系统的重要组成部分。需要进一步研究开发有益微生物群落和源自 BCA 的新型抗菌化合物用于采后疾病管理的可行性,以及遗传方法,例如使用 CRISPR/Cas9 技术。
