Defense Responses of Cucumber and Cowpea to Frankliniella occidentalis Infestation Influence the Growth, Development, and Host Preferences of the Pest
Ruixin Chen, Junhui Zhou, Wei He, Siqiong Tang, Xiang Zhang, Xiaoli Zhang, Jiayi Wang, Jianping Zhang, Jianjun Xu
Journal:Plants-Basel
IF:4.7
DOI:10.3390/plants15050755
PMID:41829786
Published:2026-02-28
research field:农学植物生理学代谢组学转录组学昆虫学分子植物-昆虫互作
Abstract
Frankliniella occidentalis (Pergande) is a globally invasive pest that inflicts significant damage on economically important vegetable crops such as cucumbers ( Cucumis sativus L.) and cowpeas ( Vigna unguiculata L. Walp). To elucidate the interactions between host plants and F. occidentalis and to support the development of sustainable management strategies, this study evaluated the host selectivity and life history parameters of F. occidentalis living on these plant species to assess its adaptability. Transcriptome–metabolome profiles and associated metabolites were analyzed in healthy plants and in those infested by F. occidentalis for 48 h to characterize the defense responses of both host species. The results showed that both plant species are attractive to F. occidentalis , with a stronger preference observed for cowpeas. However, the reproductive output of F. occidentalis was significantly higher on cucumbers (16.99 ± 0.43 eggs/female) than on cowpeas (12.00 ± 0.38 eggs/female) plants, indicating a mismatch between host preference and performance. Feeding by F. occidentalis strongly induced the brassinolide and jasmonic acid signaling pathways, activated the phenylpropanoid metabolic pathway, increased the accumulation of the lignin precursor sinapyl alcohol, and promoted lignin biosynthesis, thereby enhancing cell wall rigidity as a physical defense barrier. These findings demonstrate that cucumbers and cowpeas coordinately regulate lignin synthesis through hormone–metabolism crosstalk as a defensive strategy against thrips attack. In response, F. occidentalis adjusts its host selection and reproductive investment to overcome plant defenses, reflecting an adaptive counter-strategy in host–herbivore interactions. This study provides new insights into the molecular mechanisms underlying plant–thrips interactions and supports the development of environmentally friendly pest control approaches.
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