TY - JOUR
T1 - Unearthing the soil-borne microbiome of land plants
AU - Ochoa-Hueso, Raúl
AU - Eldridge, David J.
AU - Berdugo, Miguel
AU - Trivedi, Pankaj
AU - Sokoya, Blessing
AU - Cano-Díaz, Concha
AU - Abades, Sebastian
AU - Alfaro, Fernando
AU - Bamigboye, Adebola R.
AU - Bastida, Felipe
AU - Blanco-Pastor, José L.
AU - de los Rios, Asunción
AU - Durán, Jorge
AU - Geisen, Stefan
AU - Grebenc, Tine
AU - Illán, Javier G.
AU - Liu, Yu Rong
AU - Makhalanyane, Thulani P.
AU - Mamet, Steven
AU - Molina-Montenegro, Marco A.
AU - Moreno, José L.
AU - Nahberger, Tina Unuk
AU - Peñaloza-Bojacá, Gabriel F.
AU - Plaza, César
AU - Rey, Ana
AU - Rodríguez, Alexandra
AU - Siebe, Christina
AU - Singh, Brajesh K.
AU - Teixido, Alberto L.
AU - Torres-Díaz, Cristian
AU - Wang, Ling
AU - Wang, Jianyong
AU - Wang, Juntao
AU - Zaady, Eli
AU - Zhou, Xiaobing
AU - Zhou, Xin Quan
AU - Tedersoo, Leho
AU - Delgado-Baquerizo, Manuel
N1 - Publisher Copyright:
© 2024 The Authors. Global Change Biology published by John Wiley & Sons Ltd.
PY - 2024/5/1
Y1 - 2024/5/1
N2 - Plant–soil biodiversity interactions are fundamental for the functioning of terrestrial ecosystems. Yet, the existence of a set of globally distributed topsoil microbial and small invertebrate organisms consistently associated with land plants (i.e., their consistent soil-borne microbiome), together with the environmental preferences and functional capabilities of these organisms, remains unknown. We conducted a standardized field survey under 150 species of land plants, including 58 species of bryophytes and 92 of vascular plants, across 124 locations from all continents. We found that, despite the immense biodiversity of soil organisms, the land plants evaluated only shared a small fraction (less than 1%) of all microbial and invertebrate taxa that were present across contrasting climatic and soil conditions and vegetation types. These consistent taxa were dominated by generalist decomposers and phagotrophs and their presence was positively correlated with the abundance of functional genes linked to mineralization. Finally, we showed that crossing environmental thresholds in aridity (aridity index of 0.65, i.e., the transition from mesic to dry ecosystems), soil pH (5.5; i.e., the transition from acidic to strongly acidic soils), and carbon (less than 2%, the lower limit of fertile soils) can result in drastic disruptions in the associations between land plants and soil organisms, with potential implications for the delivery of soil ecosystem processes under ongoing global environmental change.
AB - Plant–soil biodiversity interactions are fundamental for the functioning of terrestrial ecosystems. Yet, the existence of a set of globally distributed topsoil microbial and small invertebrate organisms consistently associated with land plants (i.e., their consistent soil-borne microbiome), together with the environmental preferences and functional capabilities of these organisms, remains unknown. We conducted a standardized field survey under 150 species of land plants, including 58 species of bryophytes and 92 of vascular plants, across 124 locations from all continents. We found that, despite the immense biodiversity of soil organisms, the land plants evaluated only shared a small fraction (less than 1%) of all microbial and invertebrate taxa that were present across contrasting climatic and soil conditions and vegetation types. These consistent taxa were dominated by generalist decomposers and phagotrophs and their presence was positively correlated with the abundance of functional genes linked to mineralization. Finally, we showed that crossing environmental thresholds in aridity (aridity index of 0.65, i.e., the transition from mesic to dry ecosystems), soil pH (5.5; i.e., the transition from acidic to strongly acidic soils), and carbon (less than 2%, the lower limit of fertile soils) can result in drastic disruptions in the associations between land plants and soil organisms, with potential implications for the delivery of soil ecosystem processes under ongoing global environmental change.
KW - belowground networks
KW - environmental thresholds
KW - moss microbiome
KW - plant microbiome
KW - plant–soil interactions
UR - http://www.scopus.com/inward/record.url?scp=85194841157&partnerID=8YFLogxK
U2 - 10.1111/gcb.17295
DO - 10.1111/gcb.17295
M3 - Article
AN - SCOPUS:85194841157
SN - 1354-1013
VL - 30
JO - Global Change Biology
JF - Global Change Biology
IS - 5
M1 - e17295
ER -