Department of Horticultural Sciences, School of Agriculture, Shiraz University, Shiraz, Iran.
Department of Horticultural Sciences, School of Agriculture, Shiraz University, Shiraz, Iran; Medicinal Plants Processing Research Center, Shiraz University of Medical Sciences, Shiraz, Iran.
Int J Biol Macromol. 2021 Jan 15;167:756-765. doi: 10.1016/j.ijbiomac.2020.12.007. Epub 2020 Dec 4.
This study was conducted as a plot experiment to investigate the phytotoxicity effects of nano-encapsulated savory essential oil (EO) when it is incorporated separately into carbohydrate and protein natural polymers (Arabic gum-gelatin, apple pectin and gelatin) and two cross-linkers including one poly acid and one enzyme (citric acid and transglutaminase enzyme). Each product was tested as a pre-emergence herbicide against amaranth and tomato. The evaluations also involved determining the stability, morphology, encapsulation efficiency and release properties of the prepared formulations. Coating the savory EO with cross-linked biopolymers enhanced its stability and herbicidal activity, compared to the EO nano-emulsion without any polymer or cross-linker. Among the tested formulations, the strongest inhibitory effect against amaranth germination and growth was caused by Arabic gum-gelatin and apple pectin biopolymers at the concentration of 3 ml/L of EO, when cross-linked with citric acid. These two treatments had slight effects on tomato seedlings, however. The suppressive ability of the formulations was almost similar and comparable to the chemical herbicide metribuzin (1.75 g/L). In conclusion, Arabic gum-gelatin and apple pectin cross-linked by citric acid containing savory EO can be considered as potential, green and safe replacements for metribuzin in organic tomato production.
本研究采用小区实验,研究了纳米封装的马郁兰精油(EO)分别与碳水化合物和蛋白质天然聚合物(阿拉伯树胶-明胶、苹果果胶和明胶)以及两种交联剂(一种多酸和一种酶(柠檬酸和转谷氨酰胺酶)结合时的植物毒性效应。每种产品均被测试为芽前除草剂,用于防治苋菜和番茄。评估还包括确定制备配方的稳定性、形态、包封效率和释放特性。与没有任何聚合物或交联剂的 EO 纳米乳液相比,交联生物聚合物包封马郁兰 EO 可提高其稳定性和除草活性。在所测试的配方中,当用柠檬酸交联时,浓度为 3ml/L 的阿拉伯树胶-明胶和苹果果胶生物聚合物对苋菜发芽和生长的抑制作用最强。然而,这两种处理对番茄幼苗的影响很小。这些制剂的抑制能力几乎相似,与化学除草剂二甲戊灵(1.75g/L)相当。总之,含有马郁兰 EO 的柠檬酸交联阿拉伯树胶-明胶和苹果果胶可被视为有机番茄生产中二甲戊灵的潜在、绿色和安全替代品。
