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Root exudate metabolites drive plant-soil feedbacks on growth and defense by shaping the rhizosphere microbiota

Author

Listed:
  • Lingfei Hu

    (University of Bern)

  • Christelle A. M. Robert

    (University of Bern)

  • Selma Cadot

    (Agroscope)

  • Xi Zhang

    (University of Bern)

  • Meng Ye

    (University of Bern)

  • Beibei Li

    (University of Bern)

  • Daniele Manzo

    (University of Bern)

  • Noemie Chervet

    (Agroscope)

  • Thomas Steinger

    (Agroscope)

  • Marcel G. A. van der Heijden

    (Agroscope
    University of Zürich
    Utrecht University)

  • Klaus Schlaeppi

    (University of Bern
    Agroscope)

  • Matthias Erb

    (University of Bern)

Abstract

By changing soil properties, plants can modify their growth environment. Although the soil microbiota is known to play a key role in the resulting plant-soil feedbacks, the proximal mechanisms underlying this phenomenon remain unknown. We found that benzoxazinoids, a class of defensive secondary metabolites that are released by roots of cereals such as wheat and maize, alter root-associated fungal and bacterial communities, decrease plant growth, increase jasmonate signaling and plant defenses, and suppress herbivore performance in the next plant generation. Complementation experiments demonstrate that the benzoxazinoid breakdown product 6-methoxy-benzoxazolin-2-one (MBOA), which accumulates in the soil during the conditioning phase, is both sufficient and necessary to trigger the observed phenotypic changes. Sterilization, fungal and bacterial profiling and complementation experiments reveal that MBOA acts indirectly by altering root-associated microbiota. Our results reveal a mechanism by which plants determine the composition of rhizosphere microbiota, plant performance and plant-herbivore interactions of the next generation.

Suggested Citation

  • Lingfei Hu & Christelle A. M. Robert & Selma Cadot & Xi Zhang & Meng Ye & Beibei Li & Daniele Manzo & Noemie Chervet & Thomas Steinger & Marcel G. A. van der Heijden & Klaus Schlaeppi & Matthias Erb, 2018. "Root exudate metabolites drive plant-soil feedbacks on growth and defense by shaping the rhizosphere microbiota," Nature Communications, Nature, vol. 9(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05122-7
    DOI: 10.1038/s41467-018-05122-7
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    Cited by:

    1. Oluwaseun Adeyinka Fasusi & Cristina Cruz & Olubukola Oluranti Babalola, 2021. "Agricultural Sustainability: Microbial Biofertilizers in Rhizosphere Management," Agriculture, MDPI, vol. 11(2), pages 1-19, February.
    2. Ke Tao & Ib T. Jensen & Sha Zhang & Eber Villa-Rodríguez & Zuzana Blahovska & Camilla Lind Salomonsen & Anna Martyn & Þuríður Nótt Björgvinsdóttir & Simon Kelly & Luc Janss & Marianne Glasius & Rasmus, 2024. "Nitrogen and Nod factor signaling determine Lotus japonicus root exudate composition and bacterial assembly," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    3. Sarah McLaughlin & Kateryna Zhalnina & Suzanne Kosina & Trent R. Northen & Joelle Sasse, 2023. "The core metabolome and root exudation dynamics of three phylogenetically distinct plant species," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    4. Giuseppe Malgioglio & Giulio Flavio Rizzo & Sebastian Nigro & Vincent Lefebvre du Prey & Joelle Herforth-Rahmé & Vittoria Catara & Ferdinando Branca, 2022. "Plant-Microbe Interaction in Sustainable Agriculture: The Factors That May Influence the Efficacy of PGPM Application," Sustainability, MDPI, vol. 14(4), pages 1-28, February.
    5. Pin Su & Houxiang Kang & Qianze Peng & Wisnu Adi Wicaksono & Gabriele Berg & Zhuoxin Liu & Jiejia Ma & Deyong Zhang & Tomislav Cernava & Yong Liu, 2024. "Microbiome homeostasis on rice leaves is regulated by a precursor molecule of lignin biosynthesis," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    6. Xiaogang Li & Dele Chen & Víctor J. Carrión & Daniel Revillini & Shan Yin & Yuanhua Dong & Taolin Zhang & Xingxiang Wang & Manuel Delgado-Baquerizo, 2023. "Acidification suppresses the natural capacity of soil microbiome to fight pathogenic Fusarium infections," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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