# Decoding chemical interactions among pomegranate, Aphis punicae, and associated insects in Taif fields through open-loop stripping

**Authors:** Nour Houda M’sakni, Taghreed Alsufyani, Noura J. Alotaibi

PMC · DOI: 10.3389/fpls.2025.1541538 · 2025-06-26

## TL;DR

This study explores how pomegranate plants, aphids, and other insects interact chemically, aiming to develop eco-friendly pest control methods.

## Contribution

The study identifies specific volatile organic compounds (VOCs) that signal plant stress and insect interactions, offering new insights for sustainable pest management.

## Key findings

- Early plant stress responses included suppressed β-farnesene and methyl salicylate emissions.
- 4-heptanone was detected in tritrophic interactions, suggesting a role in ant signaling.
- A mixture of six herbivore-induced plant volatiles (6-HIPVs) attracted ladybirds more effectively than individual compounds.

## Abstract

The escalating threat posed by Aphis punicae to Punica granatum cultivation underscores the urgent need for sustainable, ecologically sound alternatives to chemical pesticides. This study employs a non-targeted analysis of volatile organic compounds (VOCs) emitted by aphid-infested pomegranate (AIP), undergoing multitrophic interactions with natural enemies (Coccinella undecimpunctata) and mutualistic protectors (Tapinoma magnum). These VOCs are hypothesized to function as early biochemical markers of pest stress and semiochemical cues guiding insect behavior, offering potential integration into decision-support tools within integrated pest management (IPM) frameworks.

VOCs were non-destructively collected using open-loop stripping and analyzed via gas chromatography–mass spectrometry under a metabolomics approach. Profiling was conducted across four ecological scenarios through integrated in-situ experimentation: (G1) AIP, (G2) AIP with ants, (G3) AIP with ants and ladybirds (24h), and (G4) AIP with ants and ladybirds (48h). Principal component analysis and heatmap clustering revealed scenario-specific VOC fingerprints.

In the two-trophic AIP system, early plant stress responses included suppressed emissions of β-farnesene and methyl salicylate, alongside elevated levels of caryophyllene, a compound often associated with herbivore activity. At 24h, under a tritrophic interaction, 4-heptanone, a key ant pheromone, was detected, suggesting a role in interspecies signaling or predator deterrence. After 48h, in the quadripartite trophic interaction, VOCs such as 1-ethyl-3-methylbenzene, 1,3,5-trimethylbenzene, and 1-methyl-1H-imidazole became dominant, likely reflecting aphid-induced signaling affecting multitrophic dynamics. In the same interaction, elevated levels of six herbivore-induced plant volatiles (6-HIPVs), methyl salicylate, β-caryophyllene, sabinene, limonene, pentadecane, and heptadecane, were observed, supporting indirect plant defense by attracting natural enemies. Bioassays showed that C. undecimpunctata exhibited significantly higher attraction to the mixture of 6-HIPVs compared to individual treatments with methyl salicylate or β-caryophyllene. The mixture elicited the highest behavioral response, indicating a synergistic effect among volatiles and supporting their role in enhancing predator attraction.

To transition from discovery to application, future research should focus on targeted analysis, compound-specific bioassays, optimized delivery systems, and open-field trials. Assessing these VOCs under varying agroecological conditions, along with evaluating economic feasibility, scalability, and regulatory pathways. This approach will be crucial for translating this chemical ecology framework into effective, climate-resilient IPM strategies tailored to the arid agroecosystems of the Taif and similar environments.

## Linked entities

- **Chemicals:** β-farnesene (PubChem CID 5281517), methyl salicylate (PubChem CID 4133), caryophyllene (PubChem CID 5281515), 4-heptanone (PubChem CID 31246), 1-ethyl-3-methylbenzene (PubChem CID 12100), 1,3,5-trimethylbenzene (PubChem CID 7947), 1-methyl-1H-imidazole (PubChem CID 1390), β-caryophyllene (PubChem CID 5281515), sabinene (PubChem CID 18818), limonene (PubChem CID 22311), pentadecane (PubChem CID 12391), heptadecane (PubChem CID 12398)
- **Species:** Aphis punicae (taxon 1017115), Punica granatum (taxon 22663), Coccinella undecimpunctata (taxon 185878), Tapinoma magnum (taxon 2005329)

## Full-text entities

- **Chemicals:** sabinene (MESH:C035127), limonene (MESH:D000077222), 4-heptanone (MESH:C038029), 1-ethyl-3-methylbenzene (MESH:C029719), 1,3,5-trimethylbenzene (MESH:C010219), beta-caryophyllene (MESH:C024714), 6-HIPVs (-), beta-farnesene (MESH:C062671), heptadecane (MESH:C016486), VOC (MESH:D055549), methyl salicylate (MESH:C033069), 1-methyl-1H-imidazole (MESH:C018100), pentadecane (MESH:C033245)
- **Species:** Punica granatum (granado, species) [taxon 22663], Aphis punicae (species) [taxon 1017115], Tapinoma magnum (species) [taxon 2005329], Coccinellidae (lady beetles, family) [taxon 7080], Coccinella undecimpunctata (eleven-spotted ladybird beetle, species) [taxon 185878], Agaricomycotina sp. IP (species) [taxon 1198464]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12243111/full.md

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Source: https://tomesphere.com/paper/PMC12243111