Temperature and pH define the realised niche space of arbuscular mycorrhizal fungi.
عرض / فتح
التاريخ
2021-01-01المؤلف
Davison, JohnMoora, Mari
Semchenko, Marina
Adenan, Sakeenah Binte
Ahmed, Talaat
Akhmetzhanova, Asem A
Alatalo, Juha M
Al-Quraishy, Saleh
Andriyanova, Elena
Anslan, Sten
Bahram, Mohammad
Batbaatar, Amgaa
Brown, Charlotte
Bueno, C Guillermo
Cahill, James
Cantero, Juan José
Casper, Brenda B
Cherosov, Mikhail
Chideh, Saida
Coelho, Ana P
Coghill, Matthew
Decocq, Guillaume
Dudov, Sergey
Fabiano, Ezequiel Chimbioputo
Fedosov, Vladimir E
Fraser, Lauchlan
Glassman, Sydney I
Helm, Aveliina
Henry, Hugh A L
Hérault, Bruno
Hiiesalu, Indrek
Hiiesalu, Inga
Hozzein, Wael N
Kohout, Petr
Kõljalg, Urmas
Koorem, Kadri
Laanisto, Lauri
Mander, Ülo
Mucina, Ladislav
Munyampundu, Jean-Pierre
Neuenkamp, Lena
Niinemets, Ülo
Nyamukondiwa, Casper
Oja, Jane
Onipchenko, Vladimir
Pärtel, Meelis
Phosri, Cherdchai
Põlme, Sergei
Püssa, Kersti
Ronk, Argo
Saitta, Alessandro
Semboli, Olivia
Sepp, Siim-Kaarel
Seregin, Alexey
Sudheer, Surya
Peña-Venegas, Clara P
Paz, Claudia
Vahter, Tanel
Vasar, Martti
Veraart, Annelies J
Tedersoo, Leho
Zobel, Martin
Öpik, Maarja
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البيانات الوصفية
عرض كامل للتسجيلةالملخص
The arbuscular mycorrhizal (AM) fungi are a globally distributed group of soil organisms that play critical roles in ecosystem function. However, the ecological niches of individual AM fungal taxa are poorly understood. We collected > 300 soil samples from natural ecosystems worldwide and modelled the realised niches of AM fungal virtual taxa (VT; approximately species-level phylogroups). We found that environmental and spatial variables jointly explained VT distribution worldwide, with temperature and pH being the most important abiotic drivers, and spatial effects generally occurring at local to regional scales. While dispersal limitation could explain some variation in VT distribution, VT relative abundance was almost exclusively driven by environmental variables. Several environmental and spatial effects on VT distribution and relative abundance were correlated with phylogeny, indicating that closely related VT exhibit similar niche optima and widths. Major clades within the Glomeraceae exhibited distinct niche optima, Acaulosporaceae generally had niche optima in low pH and low temperature conditions, and Gigasporaceae generally had niche optima in high precipitation conditions. Identification of the realised niche space occupied by individual and phylogenetic groups of soil microbial taxa provides a basis for building detailed hypotheses about how soil communities respond to gradients and manipulation in ecosystems worldwide.
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