植物合成银纳米粒子(AgNPs)作为一种新型抗菌剂用于花瓶溶液中,以延长切花的花瓶寿命

Sadiya Juthee, M. Karim, M. Polash, M. Fakir, M. Hossain
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摘要

植物提取物已被广泛用于金属纳米颗粒的生物合成。由于其在自然界的丰度和生态友好的合成工艺,被认为是化学和物理合成方法中有前途的替代途径。玫瑰是最受欢迎的切花。采收后管理不善会使质量恶化,缩短花瓶寿命。在花瓶溶液中,茎基部的微生物增殖是这些切花的一个问题,它会缩短它们的花瓶寿命。为了克服这个问题,一种智能的解决方案,即植物制造的银纳米颗粒已被证明可以作为抗微生物剂。本研究利用山茶叶提取物制备生物源性纳米银,其紫外吸收峰范围为412 ~ 500 nm。将这种生物纳米银颗粒施加在@ 0.01、0.05和0.1mM处,并与对照组(不含AgNPs)和硝酸银(AgNO3)进行比较。有趣的是,AgNPs在花瓶溶液中表现出很强的抗菌活性,切花玫瑰的花瓶寿命延长了13天,而对照为8天,AgNO3为9天。不同处理的切花月季在开花、瓶液细菌生长(CFUmL−1)、吸水量、相对鲜重和瓶内寿命方面存在统计学差异。体外微生物分析和血管显微观察表明,在花切面处高浓度的AgNPs (0.1mM)可以减少微生物的发育,提高水分吸收,从而延长花的花瓶寿命。独特的植物合成AgNPs技术可以作为一种很有前途的防腐剂,提高切花玫瑰的观赏价值。综上所述,在花瓶溶液中施用植物合成AgNPs显著提高了切花的花瓶寿命。
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Phytofabricated Silver Nanoparticles (AgNPs) Applied in Vase Solution as a Novel Anti-Microbial Agent for Enhancing the Vase-life of Cut-Rose Flower
Plant extract has been exploited for biogenic synthesis of metallic nanoparticles. This is considered as the promising alternative routes of chemical and physical synthesis methods owing to their abundancy in nature and ecofriendly friendly synthesis protocol. Rose is the top-ranked and universally favorite cut flower. Poor post-harvest management deteriorates the quality and reduces the vase life. Microbial proliferation of the stem base in the vase solution is a concern for these cut flowers that shortens their vase-life. To overcome this problem, a smart solution i.e. phytofabricated silver nanoparticles have been shown to act as anti-microbial agent. In this study, leaf extracts of Camellia sinensis were exploited to fabricate biogenic silver nanoparticles which showing UV-peak absorption ranging from 412-500 nm. This biogenic silver nanoparticles were applied @ 0.01, 0.05 and 0.1mM and compared with a control (without AgNPs) and silver nitrate (AgNO3). Interestingly, AgNPs showed a strong antimicrobial activity in vase solution and cut roses extended their vase life up to 13 days compared to 8 days in control and 9 days in AgNO3. Statistical differences in flower opening, bacterial growth (CFUmL−1) in vase solutions, water uptake, relative fresh weight and vase life of cut roses were found among treatments. In vitro microbial analysis and microscopic investigation of vessels showed that the development of microorganisms was reduced by a high concentration of AgNPs (0.1mM) at the cut end of flower and improving water uptake that followed by extended flowers vase life. The unique phytofabricated AgNPs technology can serve as a promising preservative to increase the ornamental value of cut rose flowers. Taken all together, applied phytofabricated AgNPs in vase solution significantly enhance vase life of cut rose flowers over control.
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