Short communication: morphophysiological response of kaffir lime (Citrus hystrix DC) subjected to defoliation and drought stress

Renowned for its leaf-spice attributes, kaffir lime has economic value that is worthy of intensifying amidst environmental threats, such as drought stress. This study aimed to analyze the morpho-physiological traits of kaffir lime in response to defoliation and drought stress. Kaffir lime was subjec...

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Veröffentlicht in:Acta agriculturae Scandinavica. Section B, Soil and plant science Soil and plant science, 2024-12, Vol.74 (1)
Hauptverfasser: Budiarto, Rahmat, Mubarok, Syariful, Nanda, Muhammad Achirul, Jaya, Moh Haris Imron S., Rofiq, Muhamad Abdul, Sari, Dwi Novanda, Khalisha, Ana, Sari, Stefina Liana, Abdullakasim, Supatida
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Sprache:eng
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Zusammenfassung:Renowned for its leaf-spice attributes, kaffir lime has economic value that is worthy of intensifying amidst environmental threats, such as drought stress. This study aimed to analyze the morpho-physiological traits of kaffir lime in response to defoliation and drought stress. Kaffir lime was subjected to drought, defoliation, and a combination of both arranged in a randomised complete block design. Concerning morphology, defoliated lime produced a new flush that grows like a crown, while drought-treated plants displayed a bent pose with withered, edge-rolled, and drooping leaves. Higher leaf drop incidences were also noticed in drought-stressed plants. A combination of defoliation and drought stress produced severe flushing disruption by reducing 61% flush number, 77% flush fresh weight, and 74% flush dry weight, compared to undefoliated plants in normal irrigated conditions. Regardless of drought stress conditions, leaf production did not show significant differences among all defoliated plants. Defoliated plants maintained their photosynthetic rate and water use efficiency, leading to the absence of bent flush and rolling leaves as morphological markers of drought-treated plants. It is implied that defoliation can be a practical strategy for adapting kaffir lime in a drought environment.
ISSN:0906-4710
1651-1913
DOI:10.1080/09064710.2024.2334219