Climate-Induced Heat Stress Responses on Indigenous Varieties and Elite Hybrids of Mango (<i>Mangifera indica</i> L.)

Climate-Induced Heat Stress Responses on Indigenous Varieties and Elite Hybrids of Mango (<i>Mangifera indica</i> L.)

Mango is highly sensitive to heat stress, which directly affects the yield and quality. The extreme heat waves of 2024, with temperatures reaching 41–47 °C over 25 days, caused significant impacts on sensitive cultivars. The impact of heat waves on ten commercial cultivars from subtropical regions v...

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Main Authors: Amar Kant Kushwaha, Damodaran Thukkaram, Dheerendra Rastogi, Ningthoujam Samarendra Singh, Karma Beer, Prasenjit Debnath, Vishambhar Dayal, Ashish Yadav, Swosti Suvadarsini Das, Anju Bajpai, Muthukumar Manoharan
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Agriculture
Subjects:
mango
climate resilience
heat wave
India
phenology
phenol
Online Access:https://www.mdpi.com/2077-0472/15/15/1619
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Summary:Mango is highly sensitive to heat stress, which directly affects the yield and quality. The extreme heat waves of 2024, with temperatures reaching 41–47 °C over 25 days, caused significant impacts on sensitive cultivars. The impact of heat waves on ten commercial cultivars from subtropical regions viz.,‘Dashehari’, ‘Langra’, ‘Chausa’, ‘Bombay Green’, ‘Himsagar’, ‘Amrapali’, ‘Mallika’, ‘Sharda Bhog’, ‘Kesar’, and ‘Rataul’, and thirteen selected elite hybrids H-4208, H-3680, H-4505, H-3833, H-4504, H-1739, H-3623, H-1084, H-4264, HS-01, H-949, H-4065, and H-2805, is reported. The predominant effects that were observed include the following: burning symptoms or blackened tips, surrounded by a yellow halo, with premature ripening in affected parts and, in severe cases, tissue mummification. Among commercial cultivars, viz., ‘Amrapali’ (25%), ‘Mallika’ (30%), ‘Langra’ (30%), ‘Dashehari’ (50%), and ‘Himsagar’ and ‘Bombay Green’ had severe impacts, with ~80% of fruits being affected, followed by ‘Sharda Bhog’. In contrast, mid-maturing cultivars like ‘Kesar’, ‘Rataul’, and late-maturing elite hybrids, which were immature during the stress period, showed no symptoms, indicating they are tolerant. Biochemical analyses revealed significantly elevated total soluble solids (TSS > 25 °B) in affected areas of sensitive genotypes compared to non-affected tissues and tolerant genotypes. Aroma profiling indicated variations in compounds such as caryophyllene and humulene between affected and unaffected parts. The study envisages that the phenological maturity scales are indicators for the selection of climate-resilient mango varieties/hybrids and shows potential for future breeding programs.
ISSN:2077-0472

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