Impact of Exposure to Low Temperature Degrees in Field Conditions on Leaf Pigments and Chlorophyll Fluorescence in Leaves of Mango Trees

Sayed, Ali A.S.; Gadallah, Farouk M.; El-Yazal, Mohamed A. Seif; Abdel-Samad, Gamal A.

doi:10.18052/www.scipress.com/jhpr.10.30

Cited by 3 publications

(2 citation statements)

References 40 publications

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“…Regarding the cultivars under chilling stress, 'Valencia' (moderately cold-tolerant) recorded the most significant concentration of total chlorophyll, followed by 'Murcott' and 'Limoneira 8A' without any significant differences between them, while the lowest concentration was found in 'Macrophylla' rootstock. A similar decrease in chlorophyll concentration was observed in different plant species under chilling stress such as citrus (YELENOSKY; GUY, 1977;VU;OUSTRIC et al, 2017;HMMAM et al, 2023), mango (SAYED et al, 2020;HMMAM et al, 2022), papaya (PRADHAN et al, 2019), and rice (AGHAEE et al, 2011).…”

Section: Leaf Gas Exchange Parameterssupporting

confidence: 58%

Alterations in Photosynthetic Apparatus, Antioxidant Systems, and Leaf Anatomical Structure of Some Citrus Genotypes Grafted on The Recently Introduced ‘Macrophylla’ Rootstock in Response to Chilling Stress

Hmmam,

Abdelaal,

Azoz

et al. 2023

Rev. Bras. Frutic.

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One-year-old transplants of ‘Olinda Valencia orange’, ‘Murcott Tangerine’, and ‘Limoneira 8A Lisbon’ genotypes were grafted on ‘Macrophylla’ rootstock and subjected, along with ‘Macrophylla’ rootstock, to 24 h of the night chilling (nocturnal) at 20/4 °C±1 (day/night) for three days, (8 h per day), followed by three days of recovery at 30/25 °C±1 (day/night). The results showed that leaf diffusion resistance (LDR), proline, malondialdehyde (MDA), peroxidase (POX), and superoxide dismutase (SOD) increased significantly in all genotypes, while there was a significant decrease in photosynthetic apparatus, polyphenol oxidase (PPO), and catalase (CAT) under nocturnal chilling stress. Under the chilling, Macrophylla rootstock had the highest concentrations of proline and SOD, whereas it had the lowest MDA and total chlorophyll concentrations. Noticeably, the enzymatic antioxidant profiles were enhanced after being recovered. Moreover, ‘Murcott’ had the highest LDR, MDA concentration, thickness of lamina, midvein, palisade tissue, spongy tissue, and dimension of midvein vascular bundle. Meanwhile, it had the lowest stomatal conductance (GS) and transpiration rate (E). Similar results were obtained with ‘Valencia’ genotype. In contrast, the ‘Limoneira 8A’ genotype under the chilling had the lowest levels of LDR, antioxidant enzymes (POX, CAT, and PPO), thickness of lamina, midvein, palisade tissue, spongy tissue, and dimension of midvein vascular bundle.

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Section: Leaf Gas Exchange Parameterssupporting

confidence: 58%

Alterations in Photosynthetic Apparatus, Antioxidant Systems, and Leaf Anatomical Structure of Some Citrus Genotypes Grafted on The Recently Introduced ‘Macrophylla’ Rootstock in Response to Chilling Stress

Hmmam,

Abdelaal,

Azoz

et al. 2023

Rev. Bras. Frutic.

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“…Guinn [48] suggested that the increase in electrolyte leakage is likely due to chilling-induced water stress. Furthermore, increased electrolyte leakage from chilled plants was attributed to membrane deterioration and corresponded to the presence of leaked inorganic and organic ions [46,[49][50][51][52]. SA role in maintaining the fatty acids' content and ratio in the cell membranes could explain its protection of the cell membrane structure [53].…”

Section: Resultsmentioning

confidence: 99%

The Role of Salicylic Acid in Mitigating the Adverse Effects of Chilling Stress on “Seddik” Mango Transplants

et al. 2022

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Salicylic acid (SA) was sprayed on “Seddik” mango transplants at concentrations of 0, 0.5, 1, and 1.5 mM. Then, the mango transplants were subjected to 72 h of chilling stress at 4 ± 1 °C, followed by a six-day recovery under greenhouse conditions. Untreated transplants exposed to chilling stress represented the positive control, while those not exposed were the negative control. SA-pretreated mango transplants were compared to the positive and negative controls, evaluating physiological and biochemical changes. The SA concentration of 1.5 mM L−1 was the most efficient in mitigating chilling injury (CI) in mango transplants by maintaining the integrity of the leaves’ cell membrane and minimizing electrolyte leakage (EL), specifically after six days of recovery. SA increased photosynthetic pigment content, total sugar content, and 2, 2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity and decreased proline and total phenolic content in the “Seddik” mango transplants’ leaves. After exposure to chilling stress, the antioxidant enzymes’ internal activities in SA-pretreated chilled mango transplants improved, especially on the sixth day of recovery, compared to the negative control; the transplants nearly attained normal growth levels. Thus, SA can protect plants against the adverse effects of chilling stress.

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Insight into chilling stress response of key citrus grafting combinations grown in Egypt

2023

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Impact of Exposure to Low Temperature Degrees in Field Conditions on Leaf Pigments and Chlorophyll Fluorescence in Leaves of Mango Trees

Cited by 3 publications

References 40 publications

Alterations in Photosynthetic Apparatus, Antioxidant Systems, and Leaf Anatomical Structure of Some Citrus Genotypes Grafted on The Recently Introduced ‘Macrophylla’ Rootstock in Response to Chilling Stress

Alterations in Photosynthetic Apparatus, Antioxidant Systems, and Leaf Anatomical Structure of Some Citrus Genotypes Grafted on The Recently Introduced ‘Macrophylla’ Rootstock in Response to Chilling Stress

The Role of Salicylic Acid in Mitigating the Adverse Effects of Chilling Stress on “Seddik” Mango Transplants

Insight into chilling stress response of key citrus grafting combinations grown in Egypt

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