Jolfaei, Babak, Piri, Saeed, Imani, Ali, Akbari Noghabi, Kamran (2026). Comparison of Pomological, Physiological and Molecular Responses of Almond Genotypes to Drought Stress under Field and Greenhouse Conditions. , (), -.
Babak Jolfaei; Saeed Piri; Ali Imani; Kamran Akbari Noghabi. "Comparison of Pomological, Physiological and Molecular Responses of Almond Genotypes to Drought Stress under Field and Greenhouse Conditions". , , , 2026, -.
Jolfaei, Babak, Piri, Saeed, Imani, Ali, Akbari Noghabi, Kamran (2026). 'Comparison of Pomological, Physiological and Molecular Responses of Almond Genotypes to Drought Stress under Field and Greenhouse Conditions', , (), pp. -.
Jolfaei, Babak, Piri, Saeed, Imani, Ali, Akbari Noghabi, Kamran Comparison of Pomological, Physiological and Molecular Responses of Almond Genotypes to Drought Stress under Field and Greenhouse Conditions. , 2026; (): -.

Comparison of Pomological, Physiological and Molecular Responses of Almond Genotypes to Drought Stress under Field and Greenhouse Conditions

Journal of Agricultural Science and Technology
Articles in Press, Accepted Manuscript, Available Online from 11 May 2026    PDF (534.44 K)
Document Type: Original Research
Authors
Babak Jolfaei1; Saeed Piri* 1; Ali Imani2; Kamran Akbari Noghabi1
1Department of Horticulture, Ab.C., Islamic Azad University, Abhar, Islamic Republic of Iran.
2Temperate Fruit Research Center, Horticultural Sciences Research Institute, Agricultural Research, Education and Extension Organization (AREEO), Karaj, Islamic Republic of Iran.
Abstract
Nowadays, drought stress is creating new challenges in agricultural production. The almond tree a crucial agricultural component with commercial importance and widespread cultivation, is considered a drought-tolerant species due to its pomological and physiological characteristics. To investigate the pomological, physiological and molecular responses in the field and greenhouse conditions and the effects of drought stress on new almond genotypes (11-10, D-11,  B-6,  D-7,  A-33, 100-2-8,   TT100,  SU, 7-11 , 100-1-4,  B-3,  M-S-13,  B-551,  D-12, and  D-5) grafted onto GF677 rootstock, an experiment was conducted with two irrigation period (every 5 (normal) and 10 (drought stress) days) in Karaj, Iran. In field conditions, pomological and physiological traits results showed that the TT100, SU, 7-11, 100-1-4, and D-12 genotypes exhibited the most appropriate responses to drought stress. In greenhouse conditions, 15 almond genotypes were studied under two irrigation levels with 100 ml of water applied to each pot. Screening based on the chlorophyll fluorescence index indicated that genotypes D-12, B551, and 11-10 were classified as resistant, semi-resistant, and sensitive, respectively, under drought stress conditions. Under applied stress, the leaf relative water content (RWC) (13.75%) and leaf chlorophyll content (3.80%) were decreased. Enzyme activity of catalase (108.3% in genotype 11-10) and superoxide dismutase (676.25% in genotype D-12) increased with the intensity of stress. Gene expression analysis of catalase under stress showed that only the D-12 cultivar exhibited the highest increase in gene expression, with a 206.8% increase. QRT-PCR analysis of miR159 expression revealed that in genotypes 11-10, a significant decrease in miR159 expression was observed under drought stress. The D-12 genotype was tolerant under applied drought stress conditions and could be useful in almond development projects in arid regions.
Keywords
Almond; Antioxidant enzymes; Irrigation intervals; miR159 expression; Phenol
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