Plant volatile‐mediated signalling and its application in agriculture: successes and challenges

Pickett, John A.; Khan, Zeyaur R.

doi:10.1111/nph.14274

Cited by 184 publications

(158 citation statements)

References 139 publications

(205 reference statements)

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“…The components of the system need to be compatible with each other (Smart et al 1997) and while individually they can be relatively ineffective compared to the use of broad-spectrum insecticides, together they can have an additive or synergistic effect (Campbell and Borden 2009). The combination of relatively weak control elements has the added advantage of not selecting strongly for resistance in the pest species Pickett and Khan 2016).…”

Section: The Push-pull Systemmentioning

confidence: 99%

“…Attack from herbivores is known to induce natural plant defence systems (Pickett and Poppy 2001;Howe and Jander 2008); therefore, crop plants themselves could act as the source of manipulative semiochemicals, using inducing agents, or natural product plant activators, to 'switch on' plant defence prior to attack (Pickett et al 2006). This alternative approach to genetic modification uses gene promoter systems that could create a self-protecting crop where primed sentinel crop plants use volatile signals to elicit faster defensive responses from the surrounding plants and natural enemies (Balmer et al 2015;Conrath et al 2015;Pickett and Khan 2016;Pickett 2016).…”

Section: Smart Self-protecting Cropsmentioning

confidence: 99%

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Semiochemical-based alternatives to synthetic toxicant insecticides for pollen beetle management

Mauchline

Hervé

Cook

2017

Arthropod-Plant Interactions

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Section: The Push-pull Systemmentioning

confidence: 99%

Section: Smart Self-protecting Cropsmentioning

confidence: 99%

Semiochemical-based alternatives to synthetic toxicant insecticides for pollen beetle management

Mauchline

Hervé

Cook

2017

Arthropod-Plant Interactions

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“…Some plant species constitutively release volatile semiochemicals that repel insect pests and attract natural enemies of the herbivore [29,30]. More examples on ecological functions of plant-derived volatile semiochemicals have been well documented [9,23,31,32].…”

Section: Role Of Induced and Constitutive Volatiles In Plant Defencementioning

confidence: 99%

“…The HIPVs could be involved in direct resistance by acting as feeding and/or oviposition deterrents to insect pests [8,24] and provide protection against pathogens [25]. Indirectly, they mediate above-and below-ground interactions that attract herbivores' natural enemies [6,9] and serve as signals to neighbouring plants [26]. Our recent study on a wide range of maize germplasm revealed some maize genotypes emit HIPVs attractive to egg and larval parasitic wasps at the egg-laying stage of insect attack [27,28].…”

Section: Role Of Induced and Constitutive Volatiles In Plant Defencementioning

confidence: 99%

“…Parasitic and predatory arthropods recognize these plant 'screams' as 'dinner bells' and move towards the plants to find the signalled food (herbivore). These plant derived 'screams' or semiochemical compounds could play important role in host plant resistance to insect pest damage by virtue of attracting herbivores' natural enemies [6,7] and/or repelling attacking herbivores [8,9].…”

Section: Introductionmentioning

confidence: 99%

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Volatile Semiochemical Mediated Plant Defense in Cereals: A Novel Strategy for Crop Protection

Tamiru

2017

Agronomy

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Plants have evolved highly intriguing ways of defending themselves against insect attacks, including through emission of defense volatiles. These volatiles serve the plant's defense by directly repelling phytophagous insects and/or indirectly through attracting natural enemies antagonistic to the herbivores. Several laboratory studies established the potential of improving plant resistance against insect attacks by manipulating the plant-derived volatile semiochemicals emissions. Yet, more efforts need to be conducted to translate the promising laboratory studies to fight economically-important crop pests under real field conditions. This is needed to address an increasing demand for alternative pest control options driven by ecological and environmental costs associated with the use of broad-spectrum insecticides. The practical examples discussed in this review paper demonstrate the real prospect of exploiting an inducible and constitutive plant volatile semiochemicals for developing novel and ecologically-sustainable pest management strategies to protect cereal crops from damaging insect pests.

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Real‐Time Monitoring of Volatile Organic Compound‐Mediated Plant Intercommunication Using Surface‐Enhanced Raman Scattering Nanosensor

Choi,

Son,

Kwak

et al. 2024

Advanced Science

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Plants communicate through volatile organic compounds (VOCs), but real‐time monitoring of VOCs for plant intercommunication is not practically possible yet. A nanobionic VOC sensor plant is created to study VOC‐mediated plant intercommunication by incorporating surface‐enhanced Raman scattering (SERS) nanosensors into a living plant. This sensor allows real‐time monitoring of VOC with a sensitivity down to the parts per trillion level. A quantitative VOC diffusion model in plants is proposed to describe this extreme sensitivity. The sensor plant is paired with a customized portable Raman device, demonstrating its ability to detect multiple VOCs on‐field. The sensor demonstrated that plants collect VOCs emitted from neighboring plants and hazardous volatile chemicals in the air at a certain distance. As a feasibility study, this nanobionic VOC sensor plant successfully monitored the early stages of fungal infection in strawberry fruits. This result suggests that interfacing nanosensors with plants offers an innovative approach to studying interplant communication and can be used as a compelling tool for monitoring VOC occurrence.

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Plant volatile‐mediated signalling and its application in agriculture: successes and challenges

Cited by 184 publications

References 139 publications

Semiochemical-based alternatives to synthetic toxicant insecticides for pollen beetle management

Semiochemical-based alternatives to synthetic toxicant insecticides for pollen beetle management

Volatile Semiochemical Mediated Plant Defense in Cereals: A Novel Strategy for Crop Protection

Real‐Time Monitoring of Volatile Organic Compound‐Mediated Plant Intercommunication Using Surface‐Enhanced Raman Scattering Nanosensor

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