Faculty of Agriculture, Akdeniz University, Antalya, Turkey.
Faculty of Engineering and Architecture, Necmettin Erbakan University, Konya, Turkey.
J Sci Food Agric. 2021 Feb;101(3):952-959. doi: 10.1002/jsfa.10703. Epub 2020 Aug 20.
Determining plant tolerance to water stress is necessary in irrigation scheduling, decisions concerning supplementary irrigation, planning and operation and, more importantly, the rational use of water resources. In the present study, effects of the irrigation regime on oregano growth, water use, yield and quality parameters were investigated using reduced irrigation regime treatments.
Increased water stresses caused a decrease in all growth and yield parameters. Plant water use efficiency was not significantly different among the control, low and medium stress treatments, although it was the lowest for the extreme water stress treatment. Total essential oil yield was the only quality parameter demonstrating significant differences among treatments. Yield response factors were determined as 1.13, 1.12, 1.06 and 1.10 for total fresh, total dry, dry leaf and total essential oil yields, respectively.
Yield response factors indicate that oregano plant is slightly sensitive to water stress. Although the yield parameters were affected by water stress, Origanum onites, under cultivation in recent years, might have developed a resistance mechanism for quality parameters because it has grown in very dry conditions under a natural environment for many years. However, the negative relationships between crop evapotranspiration versus essential oil, total phenolic and flavonoid contents and extract yield indicates that the quality parameters of oregano under low plant water consumption may be increased. © 2020 Society of Chemical Industry.
在灌溉计划、补充灌溉决策、规划和运营中,确定植物对水分胁迫的耐受性是必要的,更重要的是,要合理利用水资源。本研究采用减少灌溉处理的方法,研究了灌溉制度对牛至生长、水分利用、产量和品质参数的影响。
水分胁迫的增加导致所有生长和产量参数下降。尽管极端水分胁迫处理的植物水分利用效率最低,但在对照、低水分和中等水分胁迫处理之间,植物水分利用效率没有显著差异。总精油产量是唯一表现出处理间显著差异的品质参数。总鲜重、总干重、干叶重和总精油产量的产量响应因子分别为 1.13、1.12、1.06 和 1.10。
产量响应因子表明,牛至植物对水分胁迫略有敏感。尽管水分胁迫会影响产量参数,但近年来种植的牛至可能已经形成了一种对品质参数的抗性机制,因为它在自然环境下已经在非常干燥的条件下生长了多年。然而,作物蒸散量与精油、总酚和类黄酮含量和提取物产量之间的负相关关系表明,在植物水分消耗较低的情况下,牛至的品质参数可能会增加。© 2020 英国化学学会。
