Mitigating drought stress by plant-derived biostimulant in Arbequina olive (Olea europeae L.) cultivar conducted in super high density

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Walid Abidi, Rawaa Akrimi, Mohamed Gouiaa
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Abstract

The climate change has negative effects on crop production worldwide. The scarcity of water in semi-arid zones proper the use of biostimulants to improve yield and quality parameters. The present work evaluated the impact of exogenous spraying with moringa leaves aqueous extract (MLE 5%) on agro-physiological behavior of the olive cultivar “Arbequina” conducted in super high density during two growing seasons (2019–2020). The experiment consisted of six treatments (T0 = 100% ETc; T1 = 100% ETc + 5% MLE; T2 = 75% ETc; T3 = 75% ETc + 5% MLE; T4 = 50% ETc; and T5 = 50% ETc + 5% MLE). Twelve trees were considered for each treatment and distilled water was applied as control for the MLE treatment. Vegetative growth, yield, water status, antioxidants, oil parameters, leaf gas exchange, and chlorophyll fluorescence were analyzed. Results showed that the net photosynthesis (Pn), stomatal conductance (gs), and evapotranspiration (E) varied significantly in response to drought stress and MLE treatments. The two water regimes (100% and 75% ETc) showed similar behavior regarding the agro-physiological responses to the applied treatments, whereas the 50% ETc water regime significantly affected the studied parameters. The MLE was effective in mitigating the water stress on olive trees, by improving vegetative growth, yield, photosynthesis, and water productivity. It appears that trees grown under 75% ETc water regime were more responsive to 5% MLE, as they exhibit the highest yield (8.4 kg/tree), oil content (28.3%), and water use efficiency, whereas 25% of irrigation water was saved.

Abstract Image

植物源性生物刺激素在超高密度条件下缓解橄榄品种干旱胁迫的研究
气候变化对全球农作物生产产生了负面影响。半干旱区缺水,适宜使用生物刺激剂来提高产量和质量参数。本研究在2019-2020年两个生长季节进行了超高密度外源喷施辣木叶水提液(MLE 5%)对橄榄品种“Arbequina”农业生理行为的影响。试验分为6个处理(T0 = 100%等;T1 = 100% ETc + 5% MLE;T2 = 75% ETc;T3 = 75% ETc + 5% MLE;T4 = 50% ETc;T5 = 50% ETc + 5% MLE)。每个处理选取12棵树,MLE处理采用蒸馏水作为对照。分析了营养生长、产量、水分状况、抗氧化剂、油脂参数、叶片气体交换和叶绿素荧光。结果表明,干旱胁迫和MLE处理对叶片净光合作用(Pn)、气孔导度(gs)和蒸散量(E)有显著影响。两种水处理(100%和75% ETc)对施用处理的农业生理反应表现出相似的行为,而50% ETc水处理显著影响了所研究的参数。MLE通过改善橄榄树的营养生长、产量、光合作用和水分生产力,有效缓解了橄榄树的水分胁迫。在75% ETc水分条件下生长的树木对5% MLE的响应更大,因为它们表现出最高的产量(8.4 kg/树)、含油量(28.3%)和水分利用效率,而灌溉水则节省了25%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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