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 - Lanfranco, Luisa
N1 - Publisher Copyright:
© The Author(s) 2025.
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 - Article
C2 - 40702191
AN - SCOPUS:105015610910
SN - 0028-0836
VL - 645
SP - 414
EP - 422
JO - Nature
JF - Nature
IS - 8080
ER -
