Biostimulatory effects of ascorbic acid in improving plant growth, photosynthesis-related parameters and mitigating oxidative damage in alfalfa (Medicago sativa L.) under salt stress condition

El Moukhtari, Ahmed; Lamsaadi, Nadia; Farissi, Mohamed

doi:10.1007/s11756-024-01704-7

Biologia

2024

DOI: 10.1007/s11756-024-01704-7

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Biostimulatory effects of ascorbic acid in improving plant growth, photosynthesis-related parameters and mitigating oxidative damage in alfalfa (Medicago sativa L.) under salt stress condition

Ahmed El Moukhtari,

Nadia Lamsaadi,

Mohamed Farissi

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2024

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Cited by 3 publications

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Understanding plant defense mechanisms: exploring the effects of karrikin, salicylic acid, and humic acid treatments on Eustoma grandiflorum

Haratian,

Mortazaeinezhad,

Kalateh Jari

et al. 2024

Biologia

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Understanding plant defense mechanisms: exploring the effects of karrikin, salicylic acid, and humic acid treatments on Eustoma grandiflorum

Haratian,

Mortazaeinezhad,

Kalateh Jari

et al. 2024

Biologia

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Ascorbic acid enhances growth and dualex parameters in Arachis hypogaea L. under salt stress

Tunçtürk,

Oral,

Tunçtürk

et al. 2024

Discov Sustain

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Comparative Analysis of Air Pollution Tolerance Index and Dust Carrying Capacity in Calotropis procera, Polyalthia Longifolia, and Nerium oleander L. from Different Locations

A. K.,

P.,

et al. 2024

International Journal of Innovative Science and Research Techno

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Air pollution from industrialization and vehicle emissions is a serious hazard. This study assesses three native Indian plant species' resilience to pollution and adaptability for various environments by evaluating their Dust Carrying Capacity (DCC) and Air Pollution Tolerance Index (APTI). Four biochemical parameters— pH, ascorbic acid levels, chlorophyll, and relative water content—were examined in order to determine APTI. By comparing leaf area to dust deposition capacity, DCC was ascertained. The investigation was carried out at Mewar University utilizing conventional techniques for chemical analysis. The results indicate that, in line with the lower pollution levels at Mewar, Calotropis procera had the highest APTI value (13.71) and the lowest in Chanderiya (4.15). Nerium oleander and Polyalthia longifolia both followed a similar pattern. Because of its wider, hairy leaves, Calotropis procera had the maximum capacity (4.8) for dust capture at Mewar Campus. Comparable DCC values (3.8) were noted in Chanderiya (3.9) and beyond the campus, suggesting that it is environment- adaptable. At the Mewar Campus, Polyalthia longifolia displayed the highest DCC (1.8), whereas Nerium oleander consistently displayed lower DCC (0.8) everywhere it was found, most likely as a result of its smaller leaves. The significance of plant species in urban design and environmental management in contaminated areas is highlighted by these findings.

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Biostimulatory effects of ascorbic acid in improving plant growth, photosynthesis-related parameters and mitigating oxidative damage in alfalfa (Medicago sativa L.) under salt stress condition

Cited by 3 publications

References 52 publications

Understanding plant defense mechanisms: exploring the effects of karrikin, salicylic acid, and humic acid treatments on Eustoma grandiflorum

Understanding plant defense mechanisms: exploring the effects of karrikin, salicylic acid, and humic acid treatments on Eustoma grandiflorum

Ascorbic acid enhances growth and dualex parameters in Arachis hypogaea L. under salt stress

Comparative Analysis of Air Pollution Tolerance Index and Dust Carrying Capacity in Calotropis procera, Polyalthia Longifolia, and Nerium oleander L. from Different Locations

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