保持溶液的pH值和成分持续改善玫瑰、百合和非洲菊的花瓶寿命

Q4 Agricultural and Biological Sciences Journal of Phytology Pub Date : 2023-05-18 DOI:10.25081/jp.2023.v15.7742
Y. Othman, Tala S A’saf, Malik G. Al-Ajlouni, Muayyad Bany Hani, R. Hilaire
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引用次数: 0

摘要

在室温(20±2°C)和冷藏(4±1°C)条件下,我们评估了采后脉冲溶液pH和成分对玫瑰(Rosa hybrida cvs.Avalanche and Black Magic)、非洲菊(gerbera jamesoii cv.Beaudine)和百合(Lilium×elegans cv.Fangio)切花质量的影响。将切花置于不同的酸性(pH,3.5-4)或碱性(pH,7.0-7.5)防腐剂溶液中,该溶液含有水、5%糖(花卉食品)、100mg/L硝酸银(AgNO3作为杀菌剂)或商业产品(2%糖+杀菌剂和杀菌剂)。酸性溶液在室温和冷藏条件下以及在不同物种之间具有更高或相似(从未降低)的花瓶寿命。此外,与室温条件相比,花瓶在冷藏中的寿命延长了3-4倍。在两种条件下(室温和冷藏),玫瑰和百合的叶片叶绿素浓度不一致或不显著。对于所有测试的切花品种,在室温和冷藏环境下,商业防腐剂溶液的花瓶寿命始终显著高于水。AgNO3在提高花瓶寿命方面排名第二。总体而言,仅使用花卉食品(糖)或杀菌剂(AgNO3)对花瓶寿命有积极影响,但只有联合使用防腐剂(特别是在pH值为3.5-4.0的条件下)才能保证所有花卉品种的高切花质量。
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Holding solution pH and composition consistently improve vase life of rose, lily and gerbera
We assessed the influence of postharvest pulsing solutions pH and composition on cut flower quality of rose (Rosa hybrida cvs. Avalanche and Black Magic), gerbera (Gerbera jamesonii cv. Beaudine) and lily (Lilium × elegans cv. Fangio) under room (20±2 °C) and cold storage (4±1 °C) conditions. Cut flowers were placed in different acidic (pH, 3.5 - 4) or basic (pH, 7.0 - 7.5) preservative solutions containing water, sugar 5% (flower food), 100 mg/L silver nitrate (AgNO3 act as a bactericide), or a commercial product (2% sugar + bactericide and fungicide). Acidic solutions had higher or similar (never lower) vase life at both room and cold storage conditions and across species. In addition, vase life was 3-4 times longer in cold storage when compared to room conditions. Leaf chlorophyll concentrations for rose and lily were inconsistent or not significant across the species at both conditions (room and cold storage). The commercial preservative solution consistently and significantly had higher vase life than water for all tested cut flower species and under both room and cold storage environments. AgNO3 ranked second in terms of vase life enhancement. Overall, the use of only flower food (sugar) or bactericide (AgNO3) had a positive impact on vase life but only the combined use of a preservative substance (specifically at pH, 3.5 - 4.0) consistently guaranteed a high cut flower quality across flower species.
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来源期刊
Journal of Phytology
Journal of Phytology Agricultural and Biological Sciences-Plant Science
CiteScore
1.40
自引率
0.00%
发文量
17
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