Effect of ethylene pretreatment on tomato plant responses to salt, drought, and waterlogging stress.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-17 eCollection Date: 2023-11-01 DOI:10.1002/pld3.548
Petar Mohorović, Batist Geldhof, Kristof Holsteens, Marilien Rinia, Johan Ceusters, Bram Van de Poel
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Abstract

Salinity, drought, and waterlogging are common environmental stresses that negatively impact plant growth, development, and productivity. One of the responses to abiotic stresses is the production of the phytohormone ethylene, which induces different coping mechanisms that help plants resist or tolerate stress. In this study, we investigated if an ethylene pretreatment can aid plants in activating stress-coping responses prior to the onset of salt, drought, and waterlogging stress. Therefore, we measured real-time transpiration and CO2 assimilation rates and the impact on biomass during and after 3 days of abiotic stress. Our results showed that an ethylene pretreatment of 1 ppm for 4 h did not significantly influence the negative effects of waterlogging stress, while plants were more sensitive to salt stress as reflected by enhanced water losses due to a higher transpiration rate. However, when exposed to drought stress, an ethylene pretreatment resulted in reduced transpiration rates, reducing water loss during drought stress. Overall, our findings indicate that pretreating tomato plants with ethylene can potentially regulate their responses during the forthcoming stress period, but optimization of the ethylene pre-treatment duration, timing, and dose is needed. Furthermore, it remains tested if the effect is related to the stress duration and severity and whether an ethylene pretreatment has a net positive or negative effect on plant vigor during stress recovery. Further investigations are needed to elucidate the mode of action of how ethylene priming impacts subsequent stress responses.

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乙烯预处理对番茄植株盐、旱、涝胁迫响应的影响
盐度、干旱和内涝是对植物生长、发育和生产力产生负面影响的常见环境压力。植物对非生物胁迫的反应之一是产生植物激素乙烯,它诱导不同的应对机制,帮助植物抵抗或耐受胁迫。在这项研究中,我们研究了乙烯预处理是否可以帮助植物在盐、干旱和内涝胁迫发生之前激活应激应对反应。因此,我们测量了非生物胁迫期间和之后3天的实时蒸腾和CO2同化速率以及对生物量的影响。结果表明,1 ppm的乙烯预处理4 h对涝渍胁迫的负面影响不显著,而植物对盐胁迫更敏感,这反映在蒸腾速率增加导致水分损失增加。然而,当暴露在干旱胁迫下时,乙烯预处理导致蒸腾速率降低,减少了干旱胁迫下的水分损失。总的来说,我们的研究结果表明,乙烯预处理番茄植株可以潜在地调节其在即将到来的胁迫期的反应,但需要优化乙烯预处理的持续时间、时间和剂量。此外,该效应是否与胁迫持续时间和严重程度有关,以及乙烯预处理对胁迫恢复期间植物活力的净影响是正影响还是负影响,还有待进一步研究。需要进一步的研究来阐明乙烯引发如何影响随后的应激反应的作用模式。
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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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