Salicylic Acid Modulates the Osmotic System and Photosynthesis Rate to Enhance the Drought Tolerance of Toona ciliata

Gao, Qi; Liu, Yamin; Liu, Yumin; Dai, Chongwen; Zhang, Yulin; Zhou, Fanbo; Zhu, Yating

doi:10.3390/plants12244187

Cited by 4 publications

(1 citation statement)

References 55 publications

(54 reference statements)

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“…Furthermore, under water restriction, it is also important to highlight that cowpeas can accumulate osmoprotective molecules, such as proline ( Santos et al., 2022 ) and total soluble sugars ( Jales Filho et al., 2023 ). These compounds favor water absorption, especially in low water availability soils, and are key mechanisms for plants to resist drought stress ( Mohammadi et al., 2019 ; Santos et al., 2022 ; Gao et al., 2023 ; Jales Filho et al., 2023 ). In our study, we observed a similar response in the cultivars BRS Tapaihum, BRS Pujante, and BRS Pajeú.…”

Section: Discussionmentioning

confidence: 99%

Salicylic acid improves cowpea productivity under water restriction in the field by modulating metabolism

Cavalcante,

de Melo,

Ferraz

et al. 2024

Front. Plant Sci.

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IntroductionSalicylic acid has shown promise in alleviating water stress in cultivated plants. However, there is a lack of studies confirming its effectiveness in cowpea plants grown in field conditions. Therefore, this research aimed to evaluate the use of salicylic acid as a water stress mitigator in cowpea cultivars under different irrigation depths in field conditions.MethodsFour cowpea cultivars (BRS Novaera, BRS Tapaihum, BRS Pujante, and BRS Pajeú) were subjected to different treatments: control (W100: 100% replacement of crop evapotranspiration – ETc), W50 (50% of ETc), W50+SA2 (50% of ETc + 276 mg L-1 of SA), and W50+SA4 (50% of ETc + 552 mg L-1 of SA). The treatments were combined in a 4×4 factorial scheme with three replications, arranged in a randomized block design.ResultsWater restriction had a negative impact on the water status, growth, gas exchange, and production of the cultivars while also leading to changes in the antioxidant metabolism and osmolyte concentration. The application of SA enhanced antioxidant activity and the synthesis of osmotic adjusters under stress conditions. The most effective concentration was 276 mg L-1 in stage R2 and 552 mg L-1 in stage V7, respectively. The BRS Pujante cultivar showed increased productivity under water restriction with SA application, while the BRS Tapaihum was the most tolerant among the cultivars studied.DiscussionIn summary, our findings underscore the importance of using SA to mitigate the effects of water restriction on cowpea cultivation. These discoveries are crucial for the sustainability of cowpea production in regions susceptible to drought, which can contribute to food security. We further add that the adoption of new agricultural practices can enhance the resilience and productivity of cowpea as an essential and sustainable food source for vulnerable populations in various parts of the world.

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Section: Discussionmentioning

confidence: 99%

Salicylic acid improves cowpea productivity under water restriction in the field by modulating metabolism

Cavalcante,

de Melo,

Ferraz

et al. 2024

Front. Plant Sci.

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Effects of salicylic acid on growth, physiology, and gene expression in rice seedlings under salt and drought stress

Shan,

Xu,

et al. 2024

Plant Stress

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Salicylic Acid Improves Yield, Fruit Quality, and Post-Harvest Storage in Sweet Cherry (Prunus avium L.) cv. Lapins Subjected to Late-Deficit Irrigation

González-Villagra,

Chicahual,

Jorquera-Fontena

et al. 2024

Horticulturae

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This study evaluated the effect of salicylic acid (SA) application on yield, fruit quality, and post-harvest storage in Prunus avium subjected to deficit irrigation (DI). A field experiment with six-year-old P. avium cv. Lapins was performed under two water treatments: irrigation at 100% of crop evapotranspiration (ETc) [full irrigation (FI)] and irrigation at 60% ETc from the second fruit phase to harvest time (DI). A single 0.5 mM SA was applied to both water treatments at fruit color change. At harvest time, fruits were collected to determine yield, fruit quality, and quality during post-harvest storage (0, 10, 20, and 30 days). The DI reduced fruit yield (11%), fruit weight (8%), and caliber (6%) and increased firmness (7%) and total soluble solids (TSS) (5%) in P. avium compared with FI plants at harvest time. Our study showed that SA application recovered fruit yield (9%), fruit weight (5%), and caliber (4%), improving TSS in DI plants at day 0. Interestingly, SA application significantly reduced P. avium fruit cracking (78% in FI and 82% in DI). Fruit weight was reduced in all treatments, mainly decreasing by 14% in FI and 13% in DI plants at day 30 of post-harvest storage. Fruit weight did not change during post-harvest storage with SA, except on day 30, where a slight reduction was observed. TSS showed no significant differences during post-harvest storage for all treatments. Therefore, SA could be an interesting tool to mitigate the impact of DI on the yield and fruit quality of P. avium and to reduce fruit cracking and prolong fruit quality during post-harvest storage.

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Salicylic Acid Modulates the Osmotic System and Photosynthesis Rate to Enhance the Drought Tolerance of Toona ciliata

Cited by 4 publications

References 55 publications

Salicylic acid improves cowpea productivity under water restriction in the field by modulating metabolism

Salicylic acid improves cowpea productivity under water restriction in the field by modulating metabolism

Effects of salicylic acid on growth, physiology, and gene expression in rice seedlings under salt and drought stress

Salicylic Acid Improves Yield, Fruit Quality, and Post-Harvest Storage in Sweet Cherry (Prunus avium L.) cv. Lapins Subjected to Late-Deficit Irrigation

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