Herbivory-induced green leaf volatiles increase plant performance through jasmonate-dependent plant–soil feedbacks

Lingfei Hu; Kaidi Zhang; Yachun Xu; Xiaoxuan Zheng; Jamie M. Waterman; Xiao Ouyang; Zhenwei Wu; Zhicheng Shen; Yan He; Bin Ma; Christelle A. M. Robert; Jos M. Raaijmakers; Meng Ye; Matthias Erb; Jianming Xu

doi:10.1038/s41477-025-01987-x

Herbivory-induced green leaf volatiles increase plant performance through jasmonate-dependent plant–soil feedbacks

Lingfei Hu^* (Corresponding author)
, Kaidi Zhang
, Yachun Xu
, Xiaoxuan Zheng
, Jamie M. Waterman
, Xiao Ouyang
, Zhenwei Wu
, Zhicheng Shen
, Yan He
, Bin Ma
, Christelle A. M. Robert
, Jos M. Raaijmakers
, Meng Ye^* (Corresponding author)
, Matthias Erb^* (Corresponding author)
, Jianming Xu^* (Corresponding author)

^*Corresponding author for this work

NIOO - Microbial Ecology (ME)

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

16 Citations (Scopus)

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Abstract

Plants influence each other chemically by releasing leaf volatiles and root exudates, but whether and how these two phenomena interact remains unknown. Here we demonstrate that volatiles that are released by herbivore-attacked leaves trigger plant–soil feedbacks, resulting in increased performance of different plant species. We show that this phenomenon is due to green leaf volatiles that induce jasmonate-dependent systemic defence signalling in receiver plants, which results in the accumulation of beneficial soil bacteria in the rhizosphere. These soil bacteria then increase plant growth and enhance plant defences. In maize, a cysteine-rich receptor-like protein kinase, ZmCRK25, is required for this effect. In four successive year-field experiments, we demonstrate that this phenomenon can suppress leaf herbivore abundance and enhance maize growth and yield. Thus, volatile-mediated plant–plant interactions trigger plant–soil feedbacks that shape plant performance across different plant species through broadly conserved defence signalling mechanisms and changes in soil microbiota. This phenomenon expands the repertoire of biologically relevant plant–plant interactions in space and time and holds promise for the sustainable intensification of agriculture.

Original language	English
Journal	Nature Plants
DOIs	https://doi.org/10.1038/s41477-025-01987-x
Publication status	Published - 01 May 2025

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Hu et al 2025Final published version, 16.8 MBLicence: Taverne

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title = "Herbivory-induced green leaf volatiles increase plant performance through jasmonate-dependent plant–soil feedbacks",

abstract = "Plants influence each other chemically by releasing leaf volatiles and root exudates, but whether and how these two phenomena interact remains unknown. Here we demonstrate that volatiles that are released by herbivore-attacked leaves trigger plant–soil feedbacks, resulting in increased performance of different plant species. We show that this phenomenon is due to green leaf volatiles that induce jasmonate-dependent systemic defence signalling in receiver plants, which results in the accumulation of beneficial soil bacteria in the rhizosphere. These soil bacteria then increase plant growth and enhance plant defences. In maize, a cysteine-rich receptor-like protein kinase, ZmCRK25, is required for this effect. In four successive year-field experiments, we demonstrate that this phenomenon can suppress leaf herbivore abundance and enhance maize growth and yield. Thus, volatile-mediated plant–plant interactions trigger plant–soil feedbacks that shape plant performance across different plant species through broadly conserved defence signalling mechanisms and changes in soil microbiota. This phenomenon expands the repertoire of biologically relevant plant–plant interactions in space and time and holds promise for the sustainable intensification of agriculture.",

author = "Lingfei Hu and Kaidi Zhang and Yachun Xu and Xiaoxuan Zheng and Waterman, \{Jamie M.\} and Xiao Ouyang and Zhenwei Wu and Zhicheng Shen and Yan He and Bin Ma and Robert, \{Christelle A. M.\} and Raaijmakers, \{Jos M.\} and Meng Ye and Matthias Erb and Jianming Xu",

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doi = "10.1038/s41477-025-01987-x",

language = "English",

journal = "Nature Plants",

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T1 - Herbivory-induced green leaf volatiles increase plant performance through jasmonate-dependent plant–soil feedbacks

AU - Hu, Lingfei

AU - Zhang, Kaidi

AU - Xu, Yachun

AU - Zheng, Xiaoxuan

AU - Waterman, Jamie M.

AU - Ouyang, Xiao

AU - Wu, Zhenwei

AU - Shen, Zhicheng

AU - He, Yan

AU - Ma, Bin

AU - Robert, Christelle A. M.

AU - Raaijmakers, Jos M.

AU - Ye, Meng

AU - Erb, Matthias

AU - Xu, Jianming

PY - 2025/5/1

Y1 - 2025/5/1

N2 - Plants influence each other chemically by releasing leaf volatiles and root exudates, but whether and how these two phenomena interact remains unknown. Here we demonstrate that volatiles that are released by herbivore-attacked leaves trigger plant–soil feedbacks, resulting in increased performance of different plant species. We show that this phenomenon is due to green leaf volatiles that induce jasmonate-dependent systemic defence signalling in receiver plants, which results in the accumulation of beneficial soil bacteria in the rhizosphere. These soil bacteria then increase plant growth and enhance plant defences. In maize, a cysteine-rich receptor-like protein kinase, ZmCRK25, is required for this effect. In four successive year-field experiments, we demonstrate that this phenomenon can suppress leaf herbivore abundance and enhance maize growth and yield. Thus, volatile-mediated plant–plant interactions trigger plant–soil feedbacks that shape plant performance across different plant species through broadly conserved defence signalling mechanisms and changes in soil microbiota. This phenomenon expands the repertoire of biologically relevant plant–plant interactions in space and time and holds promise for the sustainable intensification of agriculture.

AB - Plants influence each other chemically by releasing leaf volatiles and root exudates, but whether and how these two phenomena interact remains unknown. Here we demonstrate that volatiles that are released by herbivore-attacked leaves trigger plant–soil feedbacks, resulting in increased performance of different plant species. We show that this phenomenon is due to green leaf volatiles that induce jasmonate-dependent systemic defence signalling in receiver plants, which results in the accumulation of beneficial soil bacteria in the rhizosphere. These soil bacteria then increase plant growth and enhance plant defences. In maize, a cysteine-rich receptor-like protein kinase, ZmCRK25, is required for this effect. In four successive year-field experiments, we demonstrate that this phenomenon can suppress leaf herbivore abundance and enhance maize growth and yield. Thus, volatile-mediated plant–plant interactions trigger plant–soil feedbacks that shape plant performance across different plant species through broadly conserved defence signalling mechanisms and changes in soil microbiota. This phenomenon expands the repertoire of biologically relevant plant–plant interactions in space and time and holds promise for the sustainable intensification of agriculture.

U2 - 10.1038/s41477-025-01987-x

DO - 10.1038/s41477-025-01987-x

M3 - Article

SN - 2055-026X

JO - Nature Plants

JF - Nature Plants

ER -

Herbivory-induced green leaf volatiles increase plant performance through jasmonate-dependent plant–soil feedbacks

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