Global homogenization of the structure and function in the soil microbiome of urban greenspaces

Manuel Delgado-Baquerizo; David J. Eldridge; Yu-Rong Liu; Blessing Sokoya; Jun-Tao Wang; Hang-Wei Hu; Ji-Zheng He; Felipe Bastida; José L. Moreno; Adebola R. Bamigboye; José L. Blanco-Pastor; Concha Cano-Díaz; Javier G. Illán; Thulani P. Makhalanyane; Christina Siebe; Pankaj Trivedi; Eli Zaady; Jay Prakash Verma; Ling Wang; Jianyong Wang; Tine Grebenc; Gabriel F. Peñaloza-Bojacá; Tina U. Nahberger; Alberto L. Teixido; Xin-Quan Zhou; Miguel Berdugo; Jorge Duran; Alexandra Rodríguez; Xiaobing Zhou; Fernando Alfaro; Sebastian Abades; Cesar Plaza; Ana Rey; Brajesh K. Singh; Leho Tedersoo; Noah Fierer

doi:10.1126/sciadv.abg5809

Global homogenization of the structure and function in the soil microbiome of urban greenspaces

Manuel Delgado-Baquerizo, David J. Eldridge, Yu-Rong Liu, Blessing Sokoya, Jun-Tao Wang, Hang-Wei Hu, Ji-Zheng He, Felipe Bastida, José L. Moreno, Adebola R. Bamigboye, José L. Blanco-Pastor, Concha Cano-Díaz, Javier G. Illán, Thulani P. Makhalanyane, Christina Siebe, Pankaj Trivedi, Eli Zaady, Jay Prakash Verma, Ling Wang, Jianyong WangTine Grebenc, Gabriel F. Peñaloza-Bojacá, Tina U. Nahberger, Alberto L. Teixido, Xin-Quan Zhou, Miguel Berdugo, Jorge Duran, Alexandra Rodríguez, Xiaobing Zhou, Fernando Alfaro, Sebastian Abades, Cesar Plaza, Ana Rey, Brajesh K. Singh, Leho Tedersoo, Noah Fierer

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

185 Citations (Scopus)

Abstract

The structure and function of the soil microbiome of urban greenspaces remain largely undetermined. We conducted a global field survey in urban greenspaces and neighboring natural ecosystems across 56 cities from six continents, and found that urban soils are important hotspots for soil bacterial, protist and functional gene diversity, but support highly homogenized microbial communities worldwide. Urban greenspaces had a greater proportion of fast-growing bacteria, algae, amoebae, and fungal pathogens, but a lower proportion of ectomycorrhizal fungi than natural ecosystems. These urban ecosystems also showed higher proportions of genes associated with human pathogens, greenhouse gas emissions, faster nutrient cycling, and more intense abiotic stress than natural environments. City affluence, management practices, and climate were fundamental drivers of urban soil communities. Our work paves the way toward a more comprehensive global-scale perspective on urban greenspaces, which is integral to managing the health of these ecosystems and the well-being of human populations.

Original language	English
Article number	eabg5809
Number of pages	15
Journal	Science Advances
Volume	7
Issue number	28
DOIs	https://doi.org/10.1126/sciadv.abg5809
Publication status	Published - Jul 2021

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Copyright © 2021 The Authors, some rights reserved.

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© 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S.Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC) (https://creativecommons.org/licenses/by-nc/4.0/).

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Delgado-Baquerizo, M., Eldridge, D. J., Liu, Y.-R., Sokoya, B., Wang, J.-T., Hu, H.-W., He, J.-Z., Bastida, F., Moreno, J. L., Bamigboye, A. R., Blanco-Pastor, J. L., Cano-Díaz, C., Illán, J. G., Makhalanyane, T. P., Siebe, C., Trivedi, P., Zaady, E., Verma, J. P., Wang, L., ... Fierer, N. (2021). Global homogenization of the structure and function in the soil microbiome of urban greenspaces. Science Advances, 7(28), Article eabg5809. https://doi.org/10.1126/sciadv.abg5809

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title = "Global homogenization of the structure and function in the soil microbiome of urban greenspaces",

abstract = "The structure and function of the soil microbiome of urban greenspaces remain largely undetermined. We conducted a global field survey in urban greenspaces and neighboring natural ecosystems across 56 cities from six continents, and found that urban soils are important hotspots for soil bacterial, protist and functional gene diversity, but support highly homogenized microbial communities worldwide. Urban greenspaces had a greater proportion of fast-growing bacteria, algae, amoebae, and fungal pathogens, but a lower proportion of ectomycorrhizal fungi than natural ecosystems. These urban ecosystems also showed higher proportions of genes associated with human pathogens, greenhouse gas emissions, faster nutrient cycling, and more intense abiotic stress than natural environments. City affluence, management practices, and climate were fundamental drivers of urban soil communities. Our work paves the way toward a more comprehensive global-scale perspective on urban greenspaces, which is integral to managing the health of these ecosystems and the well-being of human populations.",

author = "Manuel Delgado-Baquerizo and Eldridge, {David J.} and Yu-Rong Liu and Blessing Sokoya and Jun-Tao Wang and Hang-Wei Hu and Ji-Zheng He and Felipe Bastida and Moreno, {Jos{\'e} L.} and Bamigboye, {Adebola R.} and Blanco-Pastor, {Jos{\'e} L.} and Concha Cano-D{\'i}az and Ill{\'a}n, {Javier G.} and Makhalanyane, {Thulani P.} and Christina Siebe and Pankaj Trivedi and Eli Zaady and Verma, {Jay Prakash} and Ling Wang and Jianyong Wang and Tine Grebenc and Pe{\~n}aloza-Bojac{\'a}, {Gabriel F.} and Nahberger, {Tina U.} and Teixido, {Alberto L.} and Xin-Quan Zhou and Miguel Berdugo and Jorge Duran and Alexandra Rodr{\'i}guez and Xiaobing Zhou and Fernando Alfaro and Sebastian Abades and Cesar Plaza and Ana Rey and Singh, {Brajesh K.} and Leho Tedersoo and Noah Fierer",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Authors, some rights reserved.",

year = "2021",

month = jul,

doi = "10.1126/sciadv.abg5809",

language = "English",

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Delgado-Baquerizo, M, Eldridge, DJ, Liu, Y-R, Sokoya, B, Wang, J-T, Hu, H-W, He, J-Z, Bastida, F, Moreno, JL, Bamigboye, AR, Blanco-Pastor, JL, Cano-Díaz, C, Illán, JG, Makhalanyane, TP, Siebe, C, Trivedi, P, Zaady, E, Verma, JP, Wang, L, Wang, J, Grebenc, T, Peñaloza-Bojacá, GF, Nahberger, TU, Teixido, AL, Zhou, X-Q, Berdugo, M, Duran, J, Rodríguez, A, Zhou, X, Alfaro, F, Abades, S, Plaza, C, Rey, A, Singh, BK, Tedersoo, L & Fierer, N 2021, 'Global homogenization of the structure and function in the soil microbiome of urban greenspaces', Science Advances, vol. 7, no. 28, eabg5809. https://doi.org/10.1126/sciadv.abg5809

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T1 - Global homogenization of the structure and function in the soil microbiome of urban greenspaces

AU - Delgado-Baquerizo, Manuel

AU - Eldridge, David J.

AU - Liu, Yu-Rong

AU - Sokoya, Blessing

AU - Wang, Jun-Tao

AU - Hu, Hang-Wei

AU - He, Ji-Zheng

AU - Bastida, Felipe

AU - Moreno, José L.

AU - Bamigboye, Adebola R.

AU - Blanco-Pastor, José L.

AU - Cano-Díaz, Concha

AU - Illán, Javier G.

AU - Makhalanyane, Thulani P.

AU - Siebe, Christina

AU - Trivedi, Pankaj

AU - Zaady, Eli

AU - Verma, Jay Prakash

AU - Wang, Ling

AU - Wang, Jianyong

AU - Grebenc, Tine

AU - Peñaloza-Bojacá, Gabriel F.

AU - Nahberger, Tina U.

AU - Teixido, Alberto L.

AU - Zhou, Xin-Quan

AU - Berdugo, Miguel

AU - Duran, Jorge

AU - Rodríguez, Alexandra

AU - Zhou, Xiaobing

AU - Alfaro, Fernando

AU - Abades, Sebastian

AU - Plaza, Cesar

AU - Rey, Ana

AU - Singh, Brajesh K.

AU - Tedersoo, Leho

AU - Fierer, Noah

PY - 2021/7

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N2 - The structure and function of the soil microbiome of urban greenspaces remain largely undetermined. We conducted a global field survey in urban greenspaces and neighboring natural ecosystems across 56 cities from six continents, and found that urban soils are important hotspots for soil bacterial, protist and functional gene diversity, but support highly homogenized microbial communities worldwide. Urban greenspaces had a greater proportion of fast-growing bacteria, algae, amoebae, and fungal pathogens, but a lower proportion of ectomycorrhizal fungi than natural ecosystems. These urban ecosystems also showed higher proportions of genes associated with human pathogens, greenhouse gas emissions, faster nutrient cycling, and more intense abiotic stress than natural environments. City affluence, management practices, and climate were fundamental drivers of urban soil communities. Our work paves the way toward a more comprehensive global-scale perspective on urban greenspaces, which is integral to managing the health of these ecosystems and the well-being of human populations.

AB - The structure and function of the soil microbiome of urban greenspaces remain largely undetermined. We conducted a global field survey in urban greenspaces and neighboring natural ecosystems across 56 cities from six continents, and found that urban soils are important hotspots for soil bacterial, protist and functional gene diversity, but support highly homogenized microbial communities worldwide. Urban greenspaces had a greater proportion of fast-growing bacteria, algae, amoebae, and fungal pathogens, but a lower proportion of ectomycorrhizal fungi than natural ecosystems. These urban ecosystems also showed higher proportions of genes associated with human pathogens, greenhouse gas emissions, faster nutrient cycling, and more intense abiotic stress than natural environments. City affluence, management practices, and climate were fundamental drivers of urban soil communities. Our work paves the way toward a more comprehensive global-scale perspective on urban greenspaces, which is integral to managing the health of these ecosystems and the well-being of human populations.

UR - http://hdl.handle.net/1959.7/uws:62956

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DO - 10.1126/sciadv.abg5809

M3 - Article

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SN - 2375-2548

VL - 7

JO - Science Advances

JF - Science Advances

IS - 28

M1 - eabg5809

ER -

Global homogenization of the structure and function in the soil microbiome of urban greenspaces

Abstract

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