Department of Horticultural Science, Faculty of Agriculture, University of Maragheh, Maragheh, Iran.
Department of Horticultural Sciences, Bu-Ali Sina University, Hamedan, Iran.
J Sci Food Agric. 2020 Jan 15;100(1):25-31. doi: 10.1002/jsfa.10004. Epub 2019 Nov 4.
Nanotechnology is currently being widely employed in agriculture and horticulture. The most widely investigated and developed factor related to fruit trees is nanofertilizers (NFs), which play very important roles in increasing vegetative growth, improving reproductive growth and flowering, thereby increasing productivity, product quality and ultimately increasing shelf-life and decreasing fruit waste. These nanomaterials, which are generally sprayed at low concentrations on trees at different time intervals and in frequent sessions, are also considered as growth stimulants. Macro- and micro-scale NFs such as zinc, boron, chitosan, and fertilizer nanocomposites such as ZnFeMnB (zinc, iron, manganese, boron), NPKMg (nitrogen, phosphorus, potassium, magnesium), and calcite have been shown to significantly improve the vegetative and reproductive traits of fruit trees such as pomegranate, strawberry, mango, date, coffee and grape. Knowledge on the effects of NFs on fruit trees and biological reasons for their effects on different traits is incomplete and there is an urgent need for extensive research on these topics. © 2019 Society of Chemical Industry.
纳米技术目前在农业和园艺中得到广泛应用。与果树最相关且研究和开发最多的因素是纳米肥料(NFs),它在促进营养生长、改善生殖生长和开花方面起着非常重要的作用,从而提高了产量、产品质量,最终延长了货架期并减少了水果浪费。这些纳米材料通常以低浓度间隔不同时间频繁喷雾施用于树木,也被认为是生长刺激剂。宏观和微观的 NFs 如锌、硼、壳聚糖和肥料纳米复合材料如 ZnFeMnB(锌、铁、锰、硼)、NPKMg(氮、磷、钾、镁)和方解石已被证明可显著改善石榴、草莓、芒果、枣、咖啡和葡萄等果树的营养生长和生殖特性。关于 NFs 对果树的影响以及它们对不同特性影响的生物学原因的知识还不完整,迫切需要对这些课题进行广泛研究。© 2019 英国化学工业学会
