Fungal biogeography. Global diversity and geography of soil fungi

L. Tedersoo; M. Bahram; S. Polme; U. Koljalg; N.S. Yorou; R. Wijesundera; L.V. Ruiz; A.M. Vasco-Palacios; P. Q. Thu; A. Suija; M.E. Smith; C. Sharp; E. Saluveer; A. Saitta; M. Rosas; T. Riit; D. Ratkowsky; K. Pritsch; K. Poldmaa; M. Piepenbring; C. Phosri; M. Peterson; K. Parts; K. Partel; E. Otsing; E. Nouhra; A.L. Njouonkou; R.H. Nilsson; L.N. Morgado; J. Mayor; T.W. May; L. Majuakim; D.J. Lodge; S.S. Lee; K-H Larsson; P. Kohout; K. Hosaka; I. Hiiesalu; T.W. Henkel; H. Harend; L-D Guo; A. Greslebin; G. Grelet; J. Geml; G. Gates; W. Dunstan; C. Dunk; R. Drenkhan; J. Dearnaley; A. De Kesel; T. Dang; X. Chen; F. Buegger; F.Q. Brearley; G. Bonito; S. Anslan; S. Abell; K. Abarenkov

doi:10.1126/science.1256688

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Fungal biogeography. Global diversity and geography of soil fungi

Journal article

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Fungal biogeography. Global diversity and geography of soil fungi

L. Tedersoo, M. Bahram, S. Polme, U. Koljalg, N.S. Yorou, R. Wijesundera, L.V. Ruiz, A.M. Vasco-Palacios, P. Q. Thu, A. Suija, …

Science, Vol.346(6213), pp.1256688-1256688

2014

DOI: https://doi.org/10.1126/science.1256688

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Abstract

The kingdom Fungi is one of the most diverse groups of organisms on Earth, and they are integral ecosystem agents that govern soil carbon cycling, plant nutrition, and pathology. Fungi are widely distributed in all terrestrial ecosystems, but the distribution of species, phyla, and functional groups has been poorly documented. On the basis of 365 global soil samples from natural ecosystems, we determined the main drivers and biogeographic patterns of fungal diversity and community composition. Rationale We identified soil-inhabiting fungi using 454 Life Sciences (Branford, CN) pyrosequencing and through comparison against taxonomically and functionally annotated sequence databases. Multiple regression models were used to disentangle the roles of climatic, spatial, edaphic, and floristic parameters on fungal diversity and community composition. Structural equation models were used to determine the direct and indirect effects of climate on fungal diversity, soil chemistry, and vegetation. We also examined whether fungal biogeographic patterns matched paradigms derived from plants and animals—namely, that species’ latitudinal ranges increase toward the poles (Rapoport’s rule) and diversity increases toward the equator. Last, we sought group-specific global biogeographic links among major biogeographic regions and biomes using a network approach and area-based clustering. Results Metabarcoding analysis of global soils revealed fungal richness estimates approaching the number of species recorded to date. Distance from equator and mean annual precipitation had the strongest effects on richness of fungi, including most fungal taxonomic and functional groups. Diversity of most fungal groups peaked in tropical ecosystems, but ectomycorrhizal fungi and several fungal classes were most diverse in temperate or boreal ecosystems, and many fungal groups exhibited distinct preferences for specific edaphic conditions (such as pH, calcium, or phosphorus). Consistent with Rapoport’s rule, the geographic range of fungal taxa increased toward the poles. Fungal endemicity was particularly strong in tropical regions, but multiple fungal taxa had cosmopolitan distribution. Conclusions Climatic factors, followed by edaphic and spatial patterning, are the best predictors of soil fungal richness and community composition at the global scale. Richness of all fungi and functional groups is causally unrelated to plant diversity, with the exception of ectomycorrhizal root symbionts, suggesting that plant-soil feedbacks do not influence the diversity of soil fungi at the global scale. The plant-to-fungi richness ratio declined exponentially toward the poles, indicating that current predictions—assuming globally constant ratios—overestimate fungal richness by 1.5- to 2.5-fold. Fungi follow similar biogeographic patterns as plants and animals, with the exception of several major taxonomic and functional groups that run counter to overall patterns. Strong biogeographic links among distant continents reflect relatively efficient long-distance dispersal compared with macro-organisms.

Details

Title: Fungal biogeography. Global diversity and geography of soil fungi
Authors/Creators: L. Tedersoo (Author/Creator) - American Museum of Natural History
M. Bahram (Author/Creator) - University of Tartu
S. Polme (Author/Creator) - American Museum of Natural History
U. Koljalg (Author/Creator) - University of Tartu
N.S. Yorou (Author/Creator)
R. Wijesundera (Author/Creator)
L.V. Ruiz (Author/Creator)
A.M. Vasco-Palacios (Author/Creator) - Royal Netherlands Academy of Arts and Sciences
P. Q. Thu (Author/Creator)
A. Suija (Author/Creator) - University of Tartu
M.E. Smith (Author/Creator) - University of Florida
C. Sharp (Author/Creator) - American Museum of Natural History
E. Saluveer (Author/Creator) - University of Tartu
A. Saitta (Author/Creator) - University of Palermo
M. Rosas (Author/Creator) - Goethe University Frankfurt
T. Riit (Author/Creator) - University of Tartu
D. Ratkowsky (Author/Creator) - Hobart Corporation
K. Pritsch (Author/Creator)
K. Poldmaa (Author/Creator) - University of Tartu
M. Piepenbring (Author/Creator) - Goethe University Frankfurt
C. Phosri (Author/Creator) - Nakhon Phanom University
M. Peterson (Author/Creator) - University of Tartu
K. Parts (Author/Creator) - University of Tartu
K. Partel (Author/Creator) - University of Tartu
E. Otsing (Author/Creator) - University of Tartu
E. Nouhra (Author/Creator)
A.L. Njouonkou (Author/Creator) - University of Bamenda
R.H. Nilsson (Author/Creator) - University of Gothenburg
L.N. Morgado (Author/Creator) - Naturalis Biodiversity Center
J. Mayor (Author/Creator) - Swedish University of Agricultural Sciences
T.W. May (Author/Creator) - Royal Botanic Gardens, Kew
L. Majuakim (Author/Creator) - Universiti of Malaysia Sabah
D.J. Lodge (Author/Creator) - United States Department of Agriculture
S.S. Lee (Author/Creator) - Forest Research Institute Malaysia
K-H Larsson (Author/Creator) - American Museum of Natural History
P. Kohout (Author/Creator)
K. Hosaka (Author/Creator)
I. Hiiesalu (Author/Creator) - University of Tartu
T.W. Henkel (Author/Creator) - Cal Poly Humboldt
H. Harend (Author/Creator) - University of Tartu
L-D Guo (Author/Creator)
A. Greslebin (Author/Creator)
G. Grelet (Author/Creator) - Manaaki Whenua – Landcare Research
J. Geml (Author/Creator) - Naturalis Biodiversity Center
G. Gates (Author/Creator) - Hobart Corporation
W. Dunstan (Author/Creator) - The University of Western Australia
C. Dunk (Author/Creator) - Swedish University of Agricultural Sciences
R. Drenkhan (Author/Creator) - Estonian University of Life Sciences
J. Dearnaley (Author/Creator) - University of Southern Queensland
A. De Kesel (Author/Creator) - Meise Botanic Garden
T. Dang (Author/Creator)
X. Chen (Author/Creator)
F. Buegger (Author/Creator)
F.Q. Brearley (Author/Creator) - Manchester Metropolitan University
G. Bonito (Author/Creator) - Royal Botanic Gardens, Kew
S. Anslan (Author/Creator) - University of Tartu
S. Abell (Author/Creator) - James Cook University
K. Abarenkov (Author/Creator) - American Museum of Natural History
Publication Details: Science, Vol.346(6213), pp.1256688-1256688
Publisher: American Association for the Advancement of Science
Identifiers: 991005541167707891
Murdoch Affiliation: School of Veterinary and Life Sciences
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.97 Plant Pathology; 3.97.488 Mycorrhizal Symbiosis
Web Of Science research areas: Ecology
ESI research areas: Environment/Ecology