Sequential Defense Strategies: From Ant Recruitment to Leaf Toughness

Sequential Defense Strategies: From Ant Recruitment to Leaf Toughness

Plants express many types of defenses in response to herbivory damage. These defenses can be displayed as a sequence or they can overlap, increasing efficiency in protection. However, leaf defense shifts during leaf development, including extrafloral nectaries (EFNs), are neglected in natural tropic...

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Bibliographic Details
Main Authors: Danilo F. B. dos Santos, Eduardo S. Calixto, Helena M. Torezan-Silingardi, Kleber Del-Claro
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Plants
Subjects:
defense turnover
herbivory
leaf toughness
extrafloral nectaries
Online Access:https://www.mdpi.com/2223-7747/14/1/49
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Summary:Plants express many types of defenses in response to herbivory damage. These defenses can be displayed as a sequence or they can overlap, increasing efficiency in protection. However, leaf defense shifts during leaf development, including extrafloral nectaries (EFNs), are neglected in natural tropical systems. To address this gap, our study evaluates the shifts in defense strategies of <i>Eriotheca gracilipes</i>, focusing on extrafloral nectaries and leaf toughness across leaf development stages. We also simulate herbivory by cutting the leaves to address the role of visiting ants against herbivores. We observed that <i>E.</i> g<i>racilipes</i> exhibits a defense turnover, shifting from indirect defenses (e.g., EFNs) in young leaves to physical defenses in adult leaves. Simulated herbivory led to heightened ant visitation, which correlated with decreased herbivory rates, indicating that ant recruitment acts as an effective deterrent. We observed a peak of EFN activity in young leaves, increased foliar toughness in adult leaves, and reduced herbivory on ant-patrolled young leaves. Additionally, <i>E. gracilipes</i> demonstrated tolerance to up to 10% foliar loss with no significant impact on leaf asymmetry, although 50% foliar loss increased asymmetry in newly flushed leaves. These results highlight <i>E. gracilipes’</i> adaptive flexibility by attracting protective ants when vulnerable and enhancing structural defenses as leaves develops, <i>E. gracilipes</i> minimizes herbivory impact. This study provides valuable insight into the adaptive roles of EFNs and tolerance in <i>E. gracilipes</i>, contributing to a broader understanding of plant defense strategies.
ISSN:2223-7747

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