Global hotspots of mycorrhizal fungal richness are poorly protected

SPUN Mapping Consortium

doi:10.1038/s41586-025-09277-4

Global hotspots of mycorrhizal fungal richness are poorly protected

SPUN Mapping Consortium

Society for the Protection of Underground Networks
ETH Zurich
Funga Public Benefit Corporation
Vrije Universiteit Amsterdam
National Academy of Agrarian Sciences of Ukraine
University of Tartu
Fungi Foundation
Universidad Santo Tomás, Santiago
Stanford University
Lund University
Czech Academy of Sciences
College of Sciences
University of Oxford
Nature Conservancy
Norwegian Institute for Nature Research (NINA)
Universidad de la Frontera
Universidad de Concepción
University of Ghana
National University of Lesotho
Conservatoire Botanique National de Corse
Helmholtz Centre for Infection Research
Université de Lorraine
Nazarbayev University
Universidad de Antioquia
Netherlands Institute of Ecology (NIOO) - KNAW
Utrecht University
Universidad Distrital
Universidad Nacional de Colombia
Dartmouth College
Universidad Distrital Francisco José de Caldas – Red BST-Col
Mycological Society of Lorraine
Universidad San Francisco de Quito
Université di Torino
Association for the Conservation of Biodiversity of Kazakhstan
University of Hawai'i at Mānoa
Royal Society for the Protection of Birds
Outer Coast
University of Groningen

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Mycorrhizal fungi are ecosystem engineers that sustain plant life and help regulate Earth’s biogeochemical cycles^{1, 2–3}. However, in contrast to plants and animals, the global distribution of mycorrhizal fungal biodiversity is largely unknown, which limits our ability to monitor and protect key underground ecosystems^4,5. Here we trained machine-learning algorithms on a global dataset of 25,000 geolocated soil samples comprising >2.8 billion fungal DNA sequences. We predicted arbuscular mycorrhizal and ectomycorrhizal fungal richness and rarity across terrestrial ecosystems. On the basis of these predictions, we generated high-resolution, global-scale maps and identified key reservoirs of highly diverse and endemic mycorrhizal communities. Intersecting protected areas with mycorrhizal hotspots indicated that less than 10% of predicted mycorrhizal richness hotspots currently exist in protected areas. Our results describe a largely hidden component of Earth’s underground ecosystems and can help identify conservation priorities, set monitoring benchmarks and create specific restoration plans and land-management strategies.

Original language	English
Pages (from-to)	414-422
Number of pages	9
Journal	Nature
Volume	645
Issue number	8080
DOIs	https://doi.org/10.1038/s41586-025-09277-4
State	Published - 11 Sep 2025

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 15 Life on Land

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10.1038/s41586-025-09277-4

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@article{e437806042ff466a839decea8137ec88,

title = "Global hotspots of mycorrhizal fungal richness are poorly protected",

abstract = "Mycorrhizal fungi are ecosystem engineers that sustain plant life and help regulate Earth{\textquoteright}s biogeochemical cycles1, 2–3. However, in contrast to plants and animals, the global distribution of mycorrhizal fungal biodiversity is largely unknown, which limits our ability to monitor and protect key underground ecosystems4,5. Here we trained machine-learning algorithms on a global dataset of 25,000 geolocated soil samples comprising >2.8 billion fungal DNA sequences. We predicted arbuscular mycorrhizal and ectomycorrhizal fungal richness and rarity across terrestrial ecosystems. On the basis of these predictions, we generated high-resolution, global-scale maps and identified key reservoirs of highly diverse and endemic mycorrhizal communities. Intersecting protected areas with mycorrhizal hotspots indicated that less than 10\% of predicted mycorrhizal richness hotspots currently exist in protected areas. Our results describe a largely hidden component of Earth{\textquoteright}s underground ecosystems and can help identify conservation priorities, set monitoring benchmarks and create specific restoration plans and land-management strategies.",

author = "\{SPUN Mapping Consortium\} and \{Van Nuland\}, \{Michael E.\} and Colin Averill and Stewart, \{Justin D.\} and Oleh Prylutskyi and Adriana Corrales and \{van Galen\}, \{Laura G.\} and Manley, \{Bethan F.\} and Clara Qin and Thomas Lauber and Vladimir Mikryukov and Olesia Dulia and Giuliana Furci and C{\'e}sar Mar{\'i}n and Merlin Sheldrake and Weedon, \{James T.\} and Peay, \{Kabir G.\} and Cornwallis, \{Charlie K.\} and Tom{\'a}{\v s} V{\v e}trovsk{\'y} and Petr Kohout and Petr Baldrian and Leho Tedersoo and West, \{Stuart A.\} and Crowther, \{Thomas W.\} and Kiers, \{E. Toby\} and Wegmann, \{Alex S.\} and Venturini, \{Andressa M.\} and Venter, \{Zander S.\} and Roc{\'i}o Urrutia-Jalabert and Jacob Ulzen and Tormo, \{Cristian Moreno\} and Lorenzo Tolari and Taole, \{Matsepo M.\} and Nicolas Suberbielle and Stielow, \{J. Benjamin\} and Genevieve Stephens and Aigerim Soltabayeva and Cosmo Sheldrake and Rosales, \{Juan David\} and Ramirez-Villacis, \{Dario X.\} and Rachel Pringle and \{Parra Aldana\}, \{Cesar A.\} and Nokes, \{Liam F.\} and Mu{\~n}oz, \{Andr{\'e}s Avella\} and Sebolelo Molete and Maurice, \{Jean Paul\} and Francis Martin and Liteboho Maduna and Sol Llerena and Antonio Leon-Reyes and Noelia Barriga-Medina",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = sep,

day = "11",

doi = "10.1038/s41586-025-09277-4",

language = "Ingl{\'e}s",

volume = "645",

pages = "414--422",

journal = "Nature",

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publisher = "Nature Research",

number = "8080",

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TY - JOUR

T1 - Global hotspots of mycorrhizal fungal richness are poorly protected

AU - SPUN Mapping Consortium

AU - Van Nuland, Michael E.

AU - Averill, Colin

AU - Stewart, Justin D.

AU - Prylutskyi, Oleh

AU - Corrales, Adriana

AU - van Galen, Laura G.

AU - Manley, Bethan F.

AU - Qin, Clara

AU - Lauber, Thomas

AU - Mikryukov, Vladimir

AU - Dulia, Olesia

AU - Furci, Giuliana

AU - Marín, César

AU - Sheldrake, Merlin

AU - Weedon, James T.

AU - Peay, Kabir G.

AU - Cornwallis, Charlie K.

AU - Větrovský, Tomáš

AU - Kohout, Petr

AU - Baldrian, Petr

AU - Tedersoo, Leho

AU - West, Stuart A.

AU - Crowther, Thomas W.

AU - Kiers, E. Toby

AU - Wegmann, Alex S.

AU - Venturini, Andressa M.

AU - Venter, Zander S.

AU - Urrutia-Jalabert, Rocío

AU - Ulzen, Jacob

AU - Tormo, Cristian Moreno

AU - Tolari, Lorenzo

AU - Taole, Matsepo M.

AU - Suberbielle, Nicolas

AU - Stielow, J. Benjamin

AU - Stephens, Genevieve

AU - Soltabayeva, Aigerim

AU - Sheldrake, Cosmo

AU - Rosales, Juan David

AU - Ramirez-Villacis, Dario X.

AU - Pringle, Rachel

AU - Parra Aldana, Cesar A.

AU - Nokes, Liam F.

AU - Muñoz, Andrés Avella

AU - Molete, Sebolelo

AU - Maurice, Jean Paul

AU - Martin, Francis

AU - Maduna, Liteboho

AU - Llerena, Sol

AU - Leon-Reyes, Antonio

AU - Barriga-Medina, Noelia

PY - 2025/9/11

Y1 - 2025/9/11

N2 - Mycorrhizal fungi are ecosystem engineers that sustain plant life and help regulate Earth’s biogeochemical cycles1, 2–3. However, in contrast to plants and animals, the global distribution of mycorrhizal fungal biodiversity is largely unknown, which limits our ability to monitor and protect key underground ecosystems4,5. Here we trained machine-learning algorithms on a global dataset of 25,000 geolocated soil samples comprising >2.8 billion fungal DNA sequences. We predicted arbuscular mycorrhizal and ectomycorrhizal fungal richness and rarity across terrestrial ecosystems. On the basis of these predictions, we generated high-resolution, global-scale maps and identified key reservoirs of highly diverse and endemic mycorrhizal communities. Intersecting protected areas with mycorrhizal hotspots indicated that less than 10% of predicted mycorrhizal richness hotspots currently exist in protected areas. Our results describe a largely hidden component of Earth’s underground ecosystems and can help identify conservation priorities, set monitoring benchmarks and create specific restoration plans and land-management strategies.

AB - Mycorrhizal fungi are ecosystem engineers that sustain plant life and help regulate Earth’s biogeochemical cycles1, 2–3. However, in contrast to plants and animals, the global distribution of mycorrhizal fungal biodiversity is largely unknown, which limits our ability to monitor and protect key underground ecosystems4,5. Here we trained machine-learning algorithms on a global dataset of 25,000 geolocated soil samples comprising >2.8 billion fungal DNA sequences. We predicted arbuscular mycorrhizal and ectomycorrhizal fungal richness and rarity across terrestrial ecosystems. On the basis of these predictions, we generated high-resolution, global-scale maps and identified key reservoirs of highly diverse and endemic mycorrhizal communities. Intersecting protected areas with mycorrhizal hotspots indicated that less than 10% of predicted mycorrhizal richness hotspots currently exist in protected areas. Our results describe a largely hidden component of Earth’s underground ecosystems and can help identify conservation priorities, set monitoring benchmarks and create specific restoration plans and land-management strategies.

UR - https://www.scopus.com/pages/publications/105015610910

U2 - 10.1038/s41586-025-09277-4

DO - 10.1038/s41586-025-09277-4

M3 - Artículo

C2 - 40702191

AN - SCOPUS:105015610910

SN - 0028-0836

VL - 645

SP - 414

EP - 422

JO - Nature

JF - Nature

IS - 8080

ER -

Global hotspots of mycorrhizal fungal richness are poorly protected

Abstract

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