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The proportion of soil-borne pathogens increases with warming at the global scale

Author

Listed:
  • Manuel Delgado-Baquerizo

    (Universidad Pablo de Olavide)

  • Carlos A. Guerra

    (German Centre for Integrative Biodiversity Research (iDiv) Halle–Jena–Leipzig
    Martin-Luther University Halle–Wittenberg)

  • Concha Cano-Díaz

    (Universidad Rey Juan Carlos)

  • Eleonora Egidi

    (Western Sydney University
    Western Sydney University)

  • Jun-Tao Wang

    (Western Sydney University
    Western Sydney University
    Chinese Academy of Sciences)

  • Nico Eisenhauer

    (German Centre for Integrative Biodiversity Research (iDiv) Halle–Jena–Leipzig
    Leipzig University)

  • Brajesh K. Singh

    (Western Sydney University
    Western Sydney University)

  • Fernando T. Maestre

    (Universidad de Alicante
    Universidad de Alicante)

Abstract

Understanding the present and future distribution of soil-borne plant pathogens is critical to supporting food and fibre production in a warmer world. Using data from a global field survey and a nine-year field experiment, we show that warmer temperatures increase the relative abundance of soil-borne potential fungal plant pathogens. Moreover, we provide a global atlas of these organisms along with future distribution projections under different climate change and land-use scenarios. These projections show an overall increase in the relative abundance of potential plant pathogens worldwide. This work advances our understanding of the global distribution of potential fungal plant pathogens and their sensitivity to ongoing climate and land-use changes, which is fundamental to reduce their incidence and impacts on terrestrial ecosystems globally.

Suggested Citation

  • Manuel Delgado-Baquerizo & Carlos A. Guerra & Concha Cano-Díaz & Eleonora Egidi & Jun-Tao Wang & Nico Eisenhauer & Brajesh K. Singh & Fernando T. Maestre, 2020. "The proportion of soil-borne pathogens increases with warming at the global scale," Nature Climate Change, Nature, vol. 10(6), pages 550-554, June.
    • Handle: RePEc:nat:natcli:v:10:y:2020:i:6:d:10.1038_s41558-020-0759-3
    DOI: 10.1038/s41558-020-0759-3
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    Cited by:

    1. Maëva Labouyrie & Cristiano Ballabio & Ferran Romero & Panos Panagos & Arwyn Jones & Marc W. Schmid & Vladimir Mikryukov & Olesya Dulya & Leho Tedersoo & Mohammad Bahram & Emanuele Lugato & Marcel G. , 2023. "Patterns in soil microbial diversity across Europe," Nature Communications, Nature, vol. 14(1), pages 1-21, December.
    2. Pengfa Li & Leho Tedersoo & Thomas W. Crowther & Baozhan Wang & Yu Shi & Lu Kuang & Ting Li & Meng Wu & Ming Liu & Lu Luan & Jia Liu & Dongzhen Li & Yongxia Li & Songhan Wang & Muhammad Saleem & Alex , 2023. "Global diversity and biogeography of potential phytopathogenic fungi in a changing world," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Guillaume Patoine & Nico Eisenhauer & Simone Cesarz & Helen R. P. Phillips & Xiaofeng Xu & Lihua Zhang & Carlos A. Guerra, 2022. "Drivers and trends of global soil microbial carbon over two decades," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    4. Zhiyuan Wei & Quanchao Zeng & Wenfeng Tan, 2021. "Cover Cropping Impacts Soil Microbial Communities and Functions in Mango Orchards," Agriculture, MDPI, vol. 11(4), pages 1-12, April.
    5. Guangzhou Wang & Haley M. Burrill & Laura Y. Podzikowski & Maarten B. Eppinga & Fusuo Zhang & Junling Zhang & Peggy A. Schultz & James D. Bever, 2023. "Dilution of specialist pathogens drives productivity benefits from diversity in plant mixtures," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    6. Marina Robas & Agustín Probanza & Daniel González & Pedro A. Jiménez, 2021. "Mercury and Antibiotic Resistance Co-Selection in Bacillus sp. Isolates from the Almadén Mining District," IJERPH, MDPI, vol. 18(16), pages 1-11, August.
    7. 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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