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1. Intrinsic microbial temperature sensitivity and soil organic carbon decomposition in response to climate change

Author

National Key Research and Development Program (China), Chinese Academy of Sciences, National Natural Science Foundation of China, Institute of Soil Science (China), Jiangsu Funding Program, Li, Sen [0000-0002-4741-4839], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Yuan, Mengting Maggie [0000-0003-0017-3908], Zhou, Jizhong [0000-0003-2014-0564], Liang, Yuting [0000-0001-5443-4486], Li, Sen, Delgado-Baquerizo, Manuel, Ding, Jixian, Hu, Han, Huang, Weigen, Sun, Yishen, Ni, Haowei, Kuang, Yanyun, Yuan, Mengting Maggie, Zhou, Jizhong, Zhang, Jiabao, Liang, Yuting, National Key Research and Development Program (China), Chinese Academy of Sciences, National Natural Science Foundation of China, Institute of Soil Science (China), Jiangsu Funding Program, Li, Sen [0000-0002-4741-4839], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Yuan, Mengting Maggie [0000-0003-0017-3908], Zhou, Jizhong [0000-0003-2014-0564], Liang, Yuting [0000-0001-5443-4486], Li, Sen, Delgado-Baquerizo, Manuel, Ding, Jixian, Hu, Han, Huang, Weigen, Sun, Yishen, Ni, Haowei, Kuang, Yanyun, Yuan, Mengting Maggie, Zhou, Jizhong, Zhang, Jiabao, and Liang, Yuting

Abstract

Soil microbes are essential for regulating carbon stocks under climate change. However, the uncertainty surrounding how microbial temperature responses control carbon losses under warming conditions highlights a significant gap in our climate change models. To address this issue, we conducted a fine-scale analysis of soil organic carbon composition under different temperature gradients and characterized the corresponding microbial growth and physiology across various paddy soils spanning 4000 km in China. Our results showed that warming altered the composition of organic matter, resulting in a reduction in carbohydrates of approximately 0.026% to 0.030% from humid subtropical regions to humid continental regions. These changes were attributed to a decrease in the proportion of cold-preferring bacteria, leading to significant soil carbon losses. Our findings suggest that intrinsic microbial temperature sensitivity plays a crucial role in determining the rate of soil organic carbon decomposition, providing insights into the temperature limitations faced by microbial activities and their impact on soil carbon-climate feedback.

Published
2024

2. The abundant fraction of soil microbiomes regulates the rhizosphere function in crop wild progenitors

Author

Fundación BBVA, Ministerio de Ciencia e Innovación (España), Ministerio de Universidades (España), Universidad Rey Juan Carlos, Celis, Miguel de [0000-0002-3653-3031], García Izquierdo, Carlos [0000-0002-8407-4845], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Palomino, Javier [0000-0002-4263-5034], Singh, Brajesh K. [0000-0003-4413-4185], Wang, Jun-Tao [0000-0002-1822-2176], Alfaro, Fernando D. [0000-0003-2922-1838], Corwin, Jason A. [0000-0001-6455-8474], Gui-Lan, Duan [0000-0002-2880-5017], Nanjareddy, Kalpana [0000-0002-7052-4120], Pasari, Babak [0000-0001-6532-0978], Trivedi, Pankaj [0000-0003-0173-2804], Zaady, Eli [0000-0002-3304-534X], Zhu, Yong-Guan [0000-0003-3861-8482], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Milla, Rubén [0000-0001-8912-4373], García-Palacios, Pablo [0000-0002-6367-4761], Celis, Miguel de, Fernández-Alonso, María José, Belda, Ignacio, García Izquierdo, Carlos, Ochoa-Hueso, Raúl, Palomino, Javier, Singh, Brajesh K., Yin, Yue, Wang, Jun-Tao, Abdala-Roberts, Luis, Alfaro, Fernando D., Angulo-Pérez, Diego, Arthikala, Manoj-Kumar, Corwin, Jason A., Gui-Lan, Duan, Hernandez-Lopez, Antonio, Nanjareddy, Kalpana, Pasari, Babak, Quijano-Medina, Teresa, Rivera, Daniela S., Shaaf, Salar, Trivedi, Pankaj, Yang, Qingwen, Zaady, Eli, Zhu, Yong-Guan, Delgado-Baquerizo, Manuel, Milla, Rubén, García-Palacios, Pablo, Fundación BBVA, Ministerio de Ciencia e Innovación (España), Ministerio de Universidades (España), Universidad Rey Juan Carlos, Celis, Miguel de [0000-0002-3653-3031], García Izquierdo, Carlos [0000-0002-8407-4845], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Palomino, Javier [0000-0002-4263-5034], Singh, Brajesh K. [0000-0003-4413-4185], Wang, Jun-Tao [0000-0002-1822-2176], Alfaro, Fernando D. [0000-0003-2922-1838], Corwin, Jason A. [0000-0001-6455-8474], Gui-Lan, Duan [0000-0002-2880-5017], Nanjareddy, Kalpana [0000-0002-7052-4120], Pasari, Babak [0000-0001-6532-0978], Trivedi, Pankaj [0000-0003-0173-2804], Zaady, Eli [0000-0002-3304-534X], Zhu, Yong-Guan [0000-0003-3861-8482], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Milla, Rubén [0000-0001-8912-4373], García-Palacios, Pablo [0000-0002-6367-4761], Celis, Miguel de, Fernández-Alonso, María José, Belda, Ignacio, García Izquierdo, Carlos, Ochoa-Hueso, Raúl, Palomino, Javier, Singh, Brajesh K., Yin, Yue, Wang, Jun-Tao, Abdala-Roberts, Luis, Alfaro, Fernando D., Angulo-Pérez, Diego, Arthikala, Manoj-Kumar, Corwin, Jason A., Gui-Lan, Duan, Hernandez-Lopez, Antonio, Nanjareddy, Kalpana, Pasari, Babak, Quijano-Medina, Teresa, Rivera, Daniela S., Shaaf, Salar, Trivedi, Pankaj, Yang, Qingwen, Zaady, Eli, Zhu, Yong-Guan, Delgado-Baquerizo, Manuel, Milla, Rubén, and García-Palacios, Pablo

Abstract

The rhizosphere influence on the soil microbiome and function of crop wild progenitors (CWPs) remains virtually unknown, despite its relevance to develop microbiome-oriented tools in sustainable agriculture. Here, we quantified the rhizosphere influence—a comparison between rhizosphere and bulk soil samples—on bacterial, fungal, protists and invertebrate communities and on soil multifunctionality across nine CWPs at their sites of origin. Overall, rhizosphere influence was higher for abundant taxa across the four microbial groups and had a positive influence on rhizosphere soil organic C and nutrient contents compared to bulk soils. The rhizosphere influence on abundant soil microbiomes was more important for soil multifunctionality than rare taxa and environmental conditions. Our results are a starting point towards the use of CWPs for rhizosphere engineering in modern crops.

Published
2024

3. Unearthing the soil‐borne microbiome of land plants

Author

British Ecological Society, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Junta de Andalucía, Slovenian Research Agency, Ochoa-Hueso, Raúl [0000-0002-1839-6926], Eldridge, David J. [0000-0002-2191-486X], Berdugo, Miguel [0000-0003-1053-8907], Trivedi, Pankaj [0000-0003-0173-2804], Cano-Díaz, Concha [0000-0001-6948-6553], Abades, Sebastián [0000-0001-5704-4037], Alfaro, Fernando D. [0000-0003-2922-1838], Bastida, F. [0000-0001-9958-7099], Blanco-Pastor, José Luis [0000-0002-7708-1342], Ríos, Asunción de los [0000-0002-0266-3516], Durán, Jorge [0000-0002-7375-5290], Geisen, Stefan [0000-0003-0734-727X], Grebenc, Tine [0000-0003-4035-8587], Liu, Yu-Rong [0000-0003-1112-4255], Makhalanyane, Thulani P. [0000-0002-8173-1678], Mamet, Steven [0000-0002-3510-3814, Molina-Montenegro, Marco A. [0000-0001-6801-8942], Moreno-Ortego, Jose Luis [0000-0002-6063-7156], Peñaloza-Bojacá, Gabriel F. [0000-0001-7085-9521], Plaza de Carlos, César [0000-0001-8616-7001], Rey, Ana [0000-0003-0394-101X], Rodríguez-Pereiras, Alexandra [0000-0001-5849-8778], Siebe, Christina [0000-0002-2636-6778], Singh, Brajesh K. [0000-0003-4413-4185], Teixido, Alberto L. [0000-0001-8009-1237], Torres-Díaz, Cristian [0000-0002-5741-5288], Wang, Ling [0000-0002-2276-9529], Wang, Jianyong [0000-0002-9863-0056], Wang, Jun-Tao [0000-0002-1822-2176], Zaady, Eli [0000-0002-3304-534X], Tedersoo, Leho [0000-0002-1635-1249], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Ochoa-Hueso, Raúl, Eldridge, David J., Berdugo, Miguel, Trivedi, Pankaj, Sokoya, Blessing, Cano-Díaz, Concha, Abades, Sebastián, Alfaro, Fernando D., Bamigboye, Adebola R., Bastida, F., Blanco-Pastor, José Luis, Ríos, Asunción de los, Durán, Jorge, Geisen, Stefan, Grebenc, Tine, Illán, Javier, G., Liu, Yu-Rong, Makhalanyane, Thulani P., Mamet, Steven, Molina-Montenegro, Marco A., Moreno-Ortego, Jose Luis, Nahberger, Tina U., Peñaloza-Bojacá, Gabriel F., Plaza de Carlos, César, Rey, Ana, Rodríguez-Pereiras, Alexandra, Siebe, Christina, Singh, Brajesh K., Teixido, Alberto L., Torres-Díaz, Cristian, Wang, Ling, Wang, Jianyong, Wang, Jun-Tao, Zaady, Eli, Zhou, Xiaobing, Zhou, Xin-Quan, Tedersoo, Leho, Delgado-Baquerizo, Manuel, British Ecological Society, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Junta de Andalucía, Slovenian Research Agency, Ochoa-Hueso, Raúl [0000-0002-1839-6926], Eldridge, David J. [0000-0002-2191-486X], Berdugo, Miguel [0000-0003-1053-8907], Trivedi, Pankaj [0000-0003-0173-2804], Cano-Díaz, Concha [0000-0001-6948-6553], Abades, Sebastián [0000-0001-5704-4037], Alfaro, Fernando D. [0000-0003-2922-1838], Bastida, F. [0000-0001-9958-7099], Blanco-Pastor, José Luis [0000-0002-7708-1342], Ríos, Asunción de los [0000-0002-0266-3516], Durán, Jorge [0000-0002-7375-5290], Geisen, Stefan [0000-0003-0734-727X], Grebenc, Tine [0000-0003-4035-8587], Liu, Yu-Rong [0000-0003-1112-4255], Makhalanyane, Thulani P. [0000-0002-8173-1678], Mamet, Steven [0000-0002-3510-3814, Molina-Montenegro, Marco A. [0000-0001-6801-8942], Moreno-Ortego, Jose Luis [0000-0002-6063-7156], Peñaloza-Bojacá, Gabriel F. [0000-0001-7085-9521], Plaza de Carlos, César [0000-0001-8616-7001], Rey, Ana [0000-0003-0394-101X], Rodríguez-Pereiras, Alexandra [0000-0001-5849-8778], Siebe, Christina [0000-0002-2636-6778], Singh, Brajesh K. [0000-0003-4413-4185], Teixido, Alberto L. [0000-0001-8009-1237], Torres-Díaz, Cristian [0000-0002-5741-5288], Wang, Ling [0000-0002-2276-9529], Wang, Jianyong [0000-0002-9863-0056], Wang, Jun-Tao [0000-0002-1822-2176], Zaady, Eli [0000-0002-3304-534X], Tedersoo, Leho [0000-0002-1635-1249], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Ochoa-Hueso, Raúl, Eldridge, David J., Berdugo, Miguel, Trivedi, Pankaj, Sokoya, Blessing, Cano-Díaz, Concha, Abades, Sebastián, Alfaro, Fernando D., Bamigboye, Adebola R., Bastida, F., Blanco-Pastor, José Luis, Ríos, Asunción de los, Durán, Jorge, Geisen, Stefan, Grebenc, Tine, Illán, Javier, G., Liu, Yu-Rong, Makhalanyane, Thulani P., Mamet, Steven, Molina-Montenegro, Marco A., Moreno-Ortego, Jose Luis, Nahberger, Tina U., Peñaloza-Bojacá, Gabriel F., Plaza de Carlos, César, Rey, Ana, Rodríguez-Pereiras, Alexandra, Siebe, Christina, Singh, Brajesh K., Teixido, Alberto L., Torres-Díaz, Cristian, Wang, Ling, Wang, Jianyong, Wang, Jun-Tao, Zaady, Eli, Zhou, Xiaobing, Zhou, Xin-Quan, Tedersoo, Leho, and Delgado-Baquerizo, Manuel

Abstract

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.

Published
2024

5. Unearthing the soil‐borne microbiome of land plants

Author

Ochoa‐Hueso, Raúl, primary, Eldridge, David J., additional, Berdugo, Miguel, additional, Trivedi, Pankaj, additional, Sokoya, Blessing, additional, Cano‐Díaz, Concha, additional, Abades, Sebastian, additional, Alfaro, Fernando, additional, Bamigboye, Adebola R., additional, Bastida, Felipe, additional, Blanco‐Pastor, José L., additional, de los Rios, Asunción, additional, Durán, Jorge, additional, Geisen, Stefan, additional, Grebenc, Tine, additional, Illán, Javier G., additional, Liu, Yu‐Rong, additional, Makhalanyane, Thulani P., additional, Mamet, Steven, additional, Molina‐Montenegro, Marco A., additional, Moreno, José L., additional, Nahberger, Tina Unuk, additional, Peñaloza‐Bojacá, Gabriel F., additional, Plaza, César, additional, Rey, Ana, additional, Rodríguez, Alexandra, additional, Siebe, Christina, additional, Singh, Brajesh K., additional, Teixido, Alberto L., additional, Torres‐Díaz, Cristian, additional, Wang, Ling, additional, Wang, Jianyong, additional, Wang, Juntao, additional, Zaady, Eli, additional, Zhou, Xiaobing, additional, Zhou, Xin‐Quan, additional, Tedersoo, Leho, additional, and Delgado‐Baquerizo, Manuel, additional

Published
2024
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6. Deciphering microbiomes dozens of meters under our feet and their edaphoclimatic and spatial drivers

Author

He, Haoran, primary, Zhou, Jingxiong, additional, Wang, Yunqiang, additional, Jiao, Shuo, additional, Qian, Xun, additional, Liu, Yurong, additional, Liu, Ji, additional, Chen, Ji, additional, Delgado‐Baquerizo, Manuel, additional, Brangarí, Albert C., additional, Chen, Li, additional, Cui, Yongxing, additional, Pan, Haibo, additional, Tian, Renmao, additional, Liang, Yuting, additional, Tan, Wenfeng, additional, Ochoa‐Hueso, Raúl, additional, and Fang, Linchuan, additional

Published
2023
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7. New perspectives on microbiome and nutrient sequestration in soil aggregates during long‐term grazing exclusion

Author

Ju, Wenliang, primary, Fang, Linchuan, additional, Shen, Guoting, additional, Delgado‐Baquerizo, Manuel, additional, Chen, Ji, additional, Zhou, Guiyao, additional, Ma, Dengke, additional, Bing, Haijian, additional, Liu, Lei, additional, Liu, Ji, additional, Jin, Xiaolian, additional, Guo, Liang, additional, Tan, Wenfeng, additional, and Blagodatskaya, Evgenia, additional

Published
2023
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12. Patterns and drivers of prokaryotic communities in thermokarst lake water across Northern Hemisphere

Author

Kang, Luyao, primary, Chen, Leiyi, additional, Li, Ziliang, additional, Wang, Jianjun, additional, Xue, Kai, additional, Deng, Ye, additional, Delgado‐Baquerizo, Manuel, additional, Song, Yutong, additional, Zhang, Dianye, additional, Yang, Guibiao, additional, Zhou, Wei, additional, Liu, Xuning, additional, Liu, Futing, additional, and Yang, Yuanhe, additional

Published
2023
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15. Symbiotic status alters fungal eco-evolutionary offspring trajectories

Author

Aguilar Trigueros, César A., Krah, Franz-Sebastian, Cornwell, William K., Zanne, Amy, Abrego, Nerea, Anderson, Ian C., Andrew, Carrie J., Baldrian, Petr, Bässler, Claus, Bissett, Andrew, Chaudhary, V.B., Chen, Baodong, Chen, Yongliang, Delgado-Baquerizo, Manuel, Deveautour, Coline, Egidi, E., Flores-Moreno, Habacuc, Golan, Jacob, Heilmann-Clausen, Jacob, Hempel, Stefan, Hu, Yajun, Kauserud, Håvard, Kivlin, Stephanie N., Kohout, Petr, Lammel, Daniel R., Maestre, Fernando T., Pringle, Anne, Purhonen, Jenna, Singh, Brajesh K., Veresoglou, Stavros, Vetrovský, Tomáš, Zhang, Haiyang, Alexander von Humboldt Foundation, Australian Research Council, BundesmForschunginisterium für Bildung und, Deutsche Forschungsgemeinschaft, Deutscher Akademischer Austauschdiens, Grantová Agentura České Republiky, European Commission, Universities Australia, Aguilar Trigueros, César A., Krah, Franz-Sebastian, Zanne, Amy, Abrego, Nerea, Baldrian, Petr, Bässler, Claus, Bissett, Andrew, Chen, Baodong, Delgado-Baquerizo, Manuel, Egidi, E., Heilmann-Clausen, Jacob, Kohout, Petr, Maestre, Fernando T., Singh, Brajesh K., Veresoglou, Stavros, and Zhang, Haiyang

Abstract

12 páginas.- 3 figuras.- 1 tablas.- referencias.- Additional supporting information can be found online in the Supporting Information section at the end of this article.https://doi.org/10.1111/ele.14271, Despite host-fungal symbiotic interactions being ubiquitous in all ecosystems, understanding how symbiosis has shaped the ecology and evolution of fungal spores that are involved in dispersal and colonization of their hosts has been ignored in life-history studies. We assembled a spore morphology database covering over 26,000 species of free-living to symbiotic fungi of plants, insects and humans and found more than eight orders of variation in spore size. Evolutionary transitions in symbiotic status correlated with shifts in spore size, but the strength of this effect varied widely among phyla. Symbiotic status explained more variation than climatic variables in the current distribution of spore sizes of plant-associated fungi at a global scale while the dispersal potential of their spores is more restricted compared to free-living fungi. Our work advances life-history theory by highlighting how the interaction between symbiosis and offspring morphology shapes the reproductive and dispersal strategies among living forms., Alexander von Humboldt-Stiftung, grant/Award Number: Feodor-Lynen Fellowship; Australian Research Council, Grant/Award Number: DP190103714 and FT0100590; BundesmForschunginisterium für Bildung und , Grant/Award Number: 01LC1501A; Deutsche Forschungsgemeinschaft, Grant/Award Number: HE6183; Deutscher Akademischer Austauschdienst; Division of Environmental Biology, Grant/Award Number: 1623040 and 1655759; Grantová Agentura České Republiky, Grant/Award Number: 21-17749S; H2020 European Research Council, Grant/Award Number: 647038 and 694368; Universities Australia

Published
2023

16. Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts

Author

Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Risch, Anita C., Ashton, Louise, Augustine, David, Bélanger, Nicolas, Bridgham, Scott, Britton, A.J., Bruckman, Viktor J., Camarero, Jesús Julio, Cornelissen, Gerard, Crawford John A., Dijkstra, Feike A., Diochon, Amanda, Earl, Stevan, Edgerley, James, Epstein, Howard, Felton, Andrew, Fortier, Julien, Gagnon, Daniel, Greer, Ken, Griffiths, Hannah M, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hendrickson, Paul, Hovstad, Knut Anders, Hu, Jia, Jani. Arun D., Kent, Kelcy, Kerdraon-Byrne, Deirdre, Khalsa, Sat Darshan S., Lai, Derrick Y. F., Lambert, France, LaMontagne, Jalene M., Lavergne, Stéphanie, Lawrence. Beth A., Littke, Kim, Leeper, Abigail C., Licht, Mark A., Liebig, Mark A., Lynn, Joshua S., Maclean, Janet E., Martinsen, Vegard, McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Miller, Jim, Mulvaney, Michael J., Moreno, Gerardo, Newstead, Laura, Pakeman, Robin J., Pergl, Jan, Piñeiro, Juan, Quigley, Kathleen, Radtke, Troy M., Reed, Paul, Rolo, Víctor, Rudgers, Jennifer, Rutherford, P. Michael, Sayer, Emma J., Serrano-Grijalva, Lilia, Strack, Maria, Sukdeo, Nicole, Taylor, Andy F. S., Truax, Benoit, Tsuji, Leonard J. S., Van Gestel, Natasja, Vaness, Brenda M., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., Wilton, Meaghan, Yano, Yuriko, Teen, Ewing, Bremer, Eric, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Universidades (España), European Commission, Junta de Andalucía, Fundación Biodiversidad, National Science Foundation Macrosystems Biology, Belgian American Educational Foundation, Fulbright Program and the Fund for Scientific Research-Flanders, European Agricultural Fund for Rural Development, Czech Science Foundation, Czech Academy of Sciences, National Science Foundation (US), National Institute of Food and Agriculture (US), DePaul University, Huron Mountain Wildlife Foundation, Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Britton, A.J., Camarero, Jesús Julio, Earl, Stevan, Epstein, Howard, Felton, Andrew, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hovstad, Knut Anders, Khalsa, Sat Darshan S., LaMontagne, Jalene M., Lavergne, Stéphanie, Littke, Kim, Licht, Mark A., McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Moreno, Gerardo, Pakeman, Robin J., Pinno, Bradley D., Piñeiro, Juan, Rolo, Víctor, Rutherford, P. Michael, Sayer, Emma J., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., and Wilton, Meaghan

Abstract

14 páginas.- 6 figuras.- 53 referencias, Understanding the chemical composition of our planet's crust was one of the biggest questions of the 20th century. More than 100 years later, we are still far from understanding the global patterns in the bioavailability and spatial coupling of elements in topsoils worldwide, despite their importance for the productivity and functioning of terrestrial ecosystems. Here, we measured the bioavailability and coupling of thirteen macro- and micronutrients and phytotoxic elements in topsoils (3–8 cm) from a range of terrestrial ecosystems across all continents (∼10,000 observations) and in response to global change manipulations (∼5,000 observations). For this, we incubated between 1 and 4 pairs of anionic and cationic exchange membranes per site for a mean period of 53 days. The most bioavailable elements (Ca, Mg, and K) were also amongst the most abundant in the crust. Patterns of bioavailability were biome-dependent and controlled by soil properties such as pH, organic matter content and texture, plant cover, and climate. However, global change simulations resulted in important alterations in the bioavailability of elements. Elements were highly coupled, and coupling was predictable by the atomic properties of elements, particularly mass, mass to charge ratio, and second ionization energy. Deviations from the predictable coupling-atomic mass relationship were attributed to global change and agriculture. Our work illustrates the tight links between the bioavailability and coupling of topsoil elements and environmental context, human activities, and atomic properties of elements, thus deeply enhancing our integrated understanding of the biogeochemical connections that underlie the productivity and functioning of terrestrial ecosystems in a changing world., We acknowledge the following people as additional data contributors: Drs. G. Blume-Werry, V. Bruckman, J. Buss, S. Collins, E. Dorrepaal, K.N. Egger, J. Fridley, Gibson-Roy, R. Harrison, J. Heberling, K. Helsen, E. Hinman, A. K olstad, N. Lemoine, M. Lesser, E. Li, S. E. Macdonald, E. Mallory, E. Massicotte, H.B. Massicotte, T. Moore, C. Morris, L. Nijs, M. Smith, Suojala-Ahlfors, E. Thiffault, K. Trepanier, R. Uusitalo, L. Van Langenhove, S. Vicca, F. Wang, M. Werner, K. White and S. Wilson. R.O.H. was funded by the Ramón y Cajal program of the MICINN (RYC-2017 22032), by the R&D Project of the Ministry of Science and Innovation PID2019-106004RA-I00 funded by MCIN/AEI/10.13039/501100011033, by the program José Castillejo” of the “Ministry of Universities” (CAS21/00125), by a project of the European Regional Development Fund (FEDER) and the Ministry of Economic Transformation, Industry, Knowledge and Universities of the Junta de Andalucía (ERDF Andalucía 2014–2020 Thematic objective “01—Reinforcement of research, technological development and innovation”): P20_00323 (FUTURE-VINES), by the European Agricultural Fund for Rural Development (EAFRD) through the “Aid to operational groups of the European Association of Innovation (AEI) in terms of agricultural productivity and sustainability,” Reference: GOPC-CA-20-0001, and from Fundación Biodiversidad (SOILBIO). M.D-B. was supported by a Ramón y Cajal Grant (RYC2018-025483-I), a project from the Spanish Ministry of Science and Innovation (PID2020-115813RA-I00), and a project PAIDI 2020 from the Junta de Andalucía (P20_00879). JP acknowl-edges funding from MICINN (RYC–2021–033454). S. Bridgham and P. Reed were supported from National Science Foundation Macrosystems Biology Grant 1340847. KVS acknowledges support from the Belgian American Educational Foundation (Paul Vernel Fellow), the Fulbright Program and the Fund for Scientific Research-Flanders. J. Pergl and M. Vítková were partly supported by 17-19025S, EXPRO Grant 19-28807X (Czech Science Foundation), BiodivClim Call 2019 (Grant TACR SS70010001) and long-term research development project RVO 67985939 (Czech Academy of Sciences). Natasja van Gestel was funded by the National Science Foundation Grant 1643871. Stevan Earl was partially supported by the National Science Foundation under Grant DEB-2224662, Central Arizona-Phoenix Long-Term Ecological Research Program (CAP LTER). Lilia Serrano-Grijalva has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 890874. Kevin van Sundert acknowledges support from the Fund for Scientific Research-Flanders. Yuriko Yano acknowledges USDA, National Institute of Food and Agriculture Grant, Award number 2015-67020-23454. A. Leeper, B. Lawrence, and J. LaMontagne acknowledge support from National Science Foundation Grant DEB-1745496, the University Research Council Collaborative Grant from DePaul University, and the Huron Mountain Wildlife Foundation.

Published
2023

17. Organic fertilization promotes the accumulation of soil particulate organic carbon in a 9-year plantation experiment

Author

Ren, Tingting, Liao, Jiahui, Delgado-Baquerizo, Manuel, Ni, Juanping, Li, Yuanyuan, Jin, Long, Ruan, Honghua, National Key Research and Development Program (China), National Natural Science Foundation of China, Ministerio de Ciencia, Innovación (España), Agencia Estatal de Investigación (España), European Commission, Junta de Andalucía, Chinese Scholarship Council (CSC), Ren, Tingting, Liao, Jiahui, Delgado-Baquerizo, Manuel, and Ruan, Honghua

Abstract

10 páginas.- 5 figuras.- referencias, Management practices are expected to influence the capacity of forests to mitigate climate change. However, the long-term effects of afforestation on soil carbon accumulation in response to contrasting management regimes remain poorly understood. Here, we combined organic matter fractionation with a nine-year-long organic fertilization experiment to investigate the influences of largely accepted practices such as biochar (BC) and biogas-slurry (BS) inputs on the accumulation of soil particulate organic carbon (POC) and mineral-associated organic carbon (MAOC) in three soil horizon depths (0–25, 25–50, and 50–75 cm, respectively). Our results suggested that both BS and BC significantly enhanced the POC and total soil organic carbon (SOC) content but overall did not significantly influence MAOC. Moreover, the POC and MAOC was more responsive to BS than BC. Further, our analyses revealed that the effects of BC on POC and MAOC were indirectly regulated by changes in the SOC: total nitrogen (TN) ratio, while BS influenced POC and MAOC by regulating TN. However, the responses of MAOC to the infiltration of organic fertilizers into the mineral soil should not be ignored, especially under high BC levels. Our work revealed that management practices are critical for supporting the long-term capacity of new forests to accumulate soil carbon, thereby facilitating the provision of nature-based solutions in response to climate change., This study was supported by the National Key Research and Development Program of China (No. 2021YFD2200403, 2016YFD0600204),the National Natural Science Foundation of China (No. 32071594,32101339), and the key project of the open competition in JiangsuForestry (LYKJ[2022]01). Manuel Delgado-Baquerizo was supportedby a project from the Spanish Ministry of Science and Innovation(PID2020-115813RA-I00), and a project of the Fondo Europeo de Desarrollo Regional (FEDER), and the Consejería de Transformación Económica, Industria, Conocimiento y Universidades of the Junta de Andalucía (FEDER Andalucía 2014-2020 Objetivo temático“01—Refuerzo de la investigación, el desarrollo tecnológico y lainnovaci on”) associated with the research project P20_00879 (ANDABIOMA). Tingting Ren acknowledges the support of the Chinese Scholarship Council (CSC)

Published
2023

18. Litter and soil biodiversity jointly drive ecosystem functions

Author

Liu, Shengen, primary, Plaza, César, additional, Ochoa‐Hueso, Raúl, additional, Trivedi, Chanda, additional, Wang, Juntao, additional, Trivedi, Pankaj, additional, Zhou, Guiyao, additional, Piñeiro, Juan, additional, Martins, Catarina S. C., additional, Singh, Brajesh K., additional, and Delgado‐Baquerizo, Manuel, additional

Published
2023
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20. Symbiotic status alters fungal eco‐evolutionary offspring trajectories

Author

Aguilar‐Trigueros, Carlos A., primary, Krah, Franz‐Sebastian, additional, Cornwell, William K., additional, Zanne, Amy E., additional, Abrego, Nerea, additional, Anderson, Ian C., additional, Andrew, Carrie J., additional, Baldrian, Petr, additional, Bässler, Claus, additional, Bissett, Andrew, additional, Chaudhary, V. Bala, additional, Chen, Baodong, additional, Chen, Yongliang, additional, Delgado‐Baquerizo, Manuel, additional, Deveautour, Coline, additional, Egidi, Eleonora, additional, Flores‐Moreno, Habacuc, additional, Golan, Jacob, additional, Heilmann‐Clausen, Jacob, additional, Hempel, Stefan, additional, Hu, Yajun, additional, Kauserud, Håvard, additional, Kivlin, Stephanie N., additional, Kohout, Petr, additional, Lammel, Daniel R., additional, Maestre, Fernando T., additional, Pringle, Anne, additional, Purhonen, Jenna, additional, Singh, Brajesh K., additional, Veresoglou, Stavros D., additional, Větrovský, Tomáš, additional, Zhang, Haiyang, additional, Rillig, Matthias C., additional, and Powell, Jeff R., additional

Published
2023
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22. Microbial communities in terrestrial surface soils are not widely limited by carbon

Author

Cui, Yongxing, primary, Peng, Shushi, additional, Delgado‐Baquerizo, Manuel, additional, Rillig, Matthias C., additional, Terrer, César, additional, Zhu, Biao, additional, Jing, Xin, additional, Chen, Ji, additional, Li, Jinquan, additional, Feng, Jiao, additional, He, Yue, additional, Fang, Linchuan, additional, Moorhead, Daryl L., additional, Sinsabaugh, Robert L., additional, and Peñuelas, Josep, additional

Published
2023
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24. Disconnection between plant–microbial nutrient limitation across forest biomes

Author

Liu, Ji, primary, Fang, Linchuan, additional, Qiu, Tianyi, additional, Bing, Haijian, additional, Cui, Yongxing, additional, Sardans, Jordi, additional, Du, Enzai, additional, Chen, Ji, additional, Tan, Wenfeng, additional, Delgado‐Baquerizo, Manuel, additional, Zhou, Guiyao, additional, Cui, Qingliang, additional, and Penuelas, Josep, additional

Published
2023
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28. Grazing intensity alters the plant diversity–ecosystem carbon storage relationship in rangelands across topographic and climatic gradients

Author

Sanaei, Anvar, primary, Sayer, Emma J., additional, Yuan, Zuoqiang, additional, Saiz, Hugo, additional, Delgado‐Baquerizo, Manuel, additional, Sadeghinia, Majid, additional, Ashouri, Parvaneh, additional, Ghafari, Sahar, additional, Kaboli, Hasan, additional, Kargar, Mansoureh, additional, Seabloom, Eric W., additional, and Ali, Arshad, additional

Published
2023
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30. Symbiotic status alters fungal eco‐evolutionary offspring trajectories

Author

Aguilar‐Trigueros, Carlos A., Krah, Franz‐Sebastian, Cornwell, William K., Zanne, Amy E., Abrego, Nerea, Anderson, Ian C., Andrew, Carrie J., Baldrian, Petr, Bässler, Claus, Bissett, Andrew, Chaudhary, V. Bala, Chen, Baodong, Chen, Yongliang, Delgado‐Baquerizo, Manuel, Deveautour, Coline, Egidi, Eleonora, Flores‐Moreno, Habacuc, Golan, Jacob, Heilmann‐Clausen, Jacob, Hempel, Stefan, Hu, Yajun, Kauserud, Håvard, Kivlin, Stephanie N., Kohout, Petr, Lammel, Daniel R., Maestre, Fernando T., Pringle, Anne, Purhonen, Jenna, Singh, Brajesh K., Veresoglou, Stavros D., Větrovský, Tomáš, Zhang, Haiyang, Rillig, Matthias C., and Powell, Jeff R.

Subjects
life-history, koko, symbioosi, fungi, functional ecology, offspring size, sienet, symbiosis, itiöt
Abstract

Despite host-fungal symbiotic interactions being ubiquitous in all ecosystems, understanding how symbiosis has shaped the ecology and evolution of fungal spores that are involved in dispersal and colonization of their hosts has been ignored in life-history studies. We assembled a spore morphology database covering over 26,000 species of free-living to symbiotic fungi of plants, insects and humans and found more than eight orders of variation in spore size. Evolutionary transitions in symbiotic status correlated with shifts in spore size, but the strength of this effect varied widely among phyla. Symbiotic status explained more variation than climatic variables in the current distribution of spore sizes of plant-associated fungi at a global scale while the dispersal potential of their spores is more restricted compared to free-living fungi. Our work advances life-history theory by highlighting how the interaction between symbiosis and offspring morphology shapes the reproductive and dispersal strategies among living forms. peerReviewed

Published
2023

31. Effects of livestock overgrazing on the relationships between plant and microbial diversity across the temperate steppes in northern China

Author

Zhao, Xuan, primary, Delgado‐Baquerizo, Manuel, additional, Song, Yueqing, additional, Cai, Jinting, additional, Chang, Qing, additional, Liu, Jushan, additional, Zhu, Hui, additional, Li, Zhiqiang, additional, Chen, Ying, additional, Song, Xuxin, additional, Zhu, Yu, additional, and Wang, Ling, additional

Published
2022
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35. Frontiers in soil ecology—Insights from the World Biodiversity Forum 2022

Author

Eisenhauer, Nico, primary, Bender, S. Franz, additional, Calderón‐Sanou, Irene, additional, de Vries, Franciska T., additional, Lembrechts, Jonas J., additional, Thuiller, Wilfried, additional, Wall, Diana H., additional, Zeiss, Romy, additional, Bahram, Mohammad, additional, Beugnon, Rémy, additional, Burton, Victoria J., additional, Crowther, Thomas W., additional, Delgado‐Baquerizo, Manuel, additional, Geisen, Stefan, additional, Kardol, Paul, additional, Krashevska, Valentyna, additional, Martínez‐Muñoz, Carlos A., additional, Patoine, Guillaume, additional, Seeber, Julia, additional, Soudzilovskaia, Nadejda A., additional, Steinwandter, Michael, additional, Sünnemann, Marie, additional, Sun, Xin, additional, van der Heijden, Marcel G. A., additional, Guerra, Carlos A., additional, and Potapov, Anton, additional

Published
2022
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36. Soils in warmer and less developed countries have less micronutrients globally

Author

Moreno‐Jiménez, Eduardo, primary, Maestre, Fernando T., additional, Flagmeier, Maren, additional, Guirado, Emilio, additional, Berdugo, Miguel, additional, Bastida, Felipe, additional, Dacal, Marina, additional, Díaz‐Martínez, Paloma, additional, Ochoa‐Hueso, Raúl, additional, Plaza, César, additional, Rillig, Matthias C., additional, Crowther, Thomas W., additional, and Delgado‐Baquerizo, Manuel, additional

Published
2022
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39. Global patterns in endemicity and vulnerability of soil fungi

Author

Tedersoo, Leho, primary, Mikryukov, Vladimir, additional, Zizka, Alexander, additional, Bahram, Mohammad, additional, Hagh‐Doust, Niloufar, additional, Anslan, Sten, additional, Prylutskyi, Oleh, additional, Delgado‐Baquerizo, Manuel, additional, Maestre, Fernando T., additional, Pärn, Jaan, additional, Öpik, Maarja, additional, Moora, Mari, additional, Zobel, Martin, additional, Espenberg, Mikk, additional, Mander, Ülo, additional, Khalid, Abdul Nasir, additional, Corrales, Adriana, additional, Agan, Ahto, additional, Vasco‐Palacios, Aída‐M., additional, Saitta, Alessandro, additional, Rinaldi, Andrea C., additional, Verbeken, Annemieke, additional, Sulistyo, Bobby P., additional, Tamgnoue, Boris, additional, Furneaux, Brendan, additional, Ritter, Camila Duarte, additional, Nyamukondiwa, Casper, additional, Sharp, Cathy, additional, Marín, César, additional, Gohar, Daniyal, additional, Klavina, Darta, additional, Sharmah, Dipon, additional, Dai, Dong Qin, additional, Nouhra, Eduardo, additional, Biersma, Elisabeth Machteld, additional, Rähn, Elisabeth, additional, Cameron, Erin K., additional, De Crop, Eske, additional, Otsing, Eveli, additional, Davydov, Evgeny A., additional, Albornoz, Felipe E., additional, Brearley, Francis Q., additional, Buegger, Franz, additional, Zahn, Geoffrey, additional, Bonito, Gregory, additional, Hiiesalu, Inga, additional, Barrio, Isabel C., additional, Heilmann‐Clausen, Jacob, additional, Ankuda, Jelena, additional, Kupagme, John Y., additional, Maciá‐Vicente, Jose G., additional, Fovo, Joseph Djeugap, additional, Geml, József, additional, Alatalo, Juha M., additional, Alvarez‐Manjarrez, Julieta, additional, Põldmaa, Kadri, additional, Runnel, Kadri, additional, Adamson, Kalev, additional, Bråthen, Kari Anne, additional, Pritsch, Karin, additional, Tchan, Kassim I., additional, Armolaitis, Kęstutis, additional, Hyde, Kevin D., additional, Newsham, Kevin K., additional, Panksep, Kristel, additional, Lateef, Adebola A., additional, Tiirmann, Liis, additional, Hansson, Linda, additional, Lamit, Louis J., additional, Saba, Malka, additional, Tuomi, Maria, additional, Gryzenhout, Marieka, additional, Bauters, Marijn, additional, Piepenbring, Meike, additional, Wijayawardene, Nalin, additional, Yorou, Nourou S., additional, Kurina, Olavi, additional, Mortimer, Peter E., additional, Meidl, Peter, additional, Kohout, Petr, additional, Nilsson, Rolf Henrik, additional, Puusepp, Rasmus, additional, Drenkhan, Rein, additional, Garibay‐Orijel, Roberto, additional, Godoy, Roberto, additional, Alkahtani, Saad, additional, Rahimlou, Saleh, additional, Dudov, Sergey V., additional, Põlme, Sergei, additional, Ghosh, Soumya, additional, Mundra, Sunil, additional, Ahmed, Talaat, additional, Netherway, Tarquin, additional, Henkel, Terry W., additional, Roslin, Tomas, additional, Nteziryayo, Vincent, additional, Fedosov, Vladimir E., additional, Onipchenko, Vladimir G., additional, Yasanthika, W. A. Erandi, additional, Lim, Young Woon, additional, Soudzilovskaia, Nadejda A., additional, Antonelli, Alexandre, additional, Kõljalg, Urmas, additional, and Abarenkov, Kessy, additional

Published
2022
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41. Continental‐scale niche differentiation of dominant topsoil archaea in drylands

Author

Hu, Weigang, primary, Hou, Qingqing, additional, Delgado‐Baquerizo, Manuel, additional, Stegen, James C., additional, Du, Qiajun, additional, Dong, Longwei, additional, Ji, Mingfei, additional, Sun, Yuan, additional, Yao, Shuran, additional, Gong, Haiyang, additional, Xiong, Junlan, additional, Xia, Rui, additional, Liu, Jiayuan, additional, Aqeel, Muhammad, additional, Akram, Muhammad Adnan, additional, Ran, Jinzhi, additional, and Deng, Jianming, additional

Published
2022
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42. Effects of vegetation on soil cyanobacterial communities through time and space

Author

Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Cano-Díaz, Concha, Maestre, Fernando T., Wang, Juntao, Li, Jing, Singh, Brajesh, Ochoa, Victoria, Gozalo, Beatriz, Delgado-Baquerizo, Manuel, Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio "Ramón Margalef", Cano-Díaz, Concha, Maestre, Fernando T., Wang, Juntao, Li, Jing, Singh, Brajesh, Ochoa, Victoria, Gozalo, Beatriz, and Delgado-Baquerizo, Manuel

Abstract

Photoautotrophic soil cyanobacteria play essential ecological roles and are known to experience large changes in their diversity and abundance throughout early succession. However, much less is known about how and why soil cyanobacterial communities change as soil develops from centuries to millennia, and the effects of vegetation on them. We combined an extensive field survey including 16 global soil chronosequences across contrasting ecosystems (from deserts to tropical forests) with molecular analyses to investigate how the diversity and abundance of photosynthetic and non-photosynthetic soil cyanobacteria under vegetation change during soil development from hundreds to thousands of years. We show that, in most chronosequences, the abundance, species richness and community composition of soil cyanobacteria were relatively stable as soil develops (from centuries to millennia). Regardless of soil age, forest chronosequences were consistently dominated by non-photosynthetic cyanobacteria (Vampirovibrionia), while grasslands and shrublands were dominated by photosynthetic cyanobacteria. Chronosequences undergoing drastic vegetation shifts (e.g. transitions from grasslands to forests) experienced significant changes in the composition of soil cyanobacteria communities. Our results advance our understanding of the ecology of cyanobacterial classes, specially the understudied non-photosynthetic ones and highlight the key role of vegetation as a major driver of their temporal dynamics as soil develops.

Published
2022

43. ​Global patterns in endemicity and vulnerability of soil fungi

Author

Tedersoo, Leho, Mikryukov, Vladimir, Zizka, Alexander, Bahram, Mohammad, Hagh-Doust, Niloufar, Anslan, Sten, Prylutskyi, Oleh, Delgado-Baquerizo, Manuel, Maestre, Fernando T., Pärn, Jaan, Öpik, Maarja, Moora, Mari, Zobel, Martin, Espenberg, Mikk, Mander, Ülo, Khalid, Abdul Nasir, Corrales, Adriana, Agan, Ahto, Vasco-Palacios, Aída-M., Saitta, Alessandro, Rinaldi, Andrea C., Verbeken, Annemieke, Sulistyo, Bobby P., Tamgnoue, Boris, Furneaux, Brendan, Ritter, Camila Duarte, Nyamukondiwa, Casper, Sharp, Cathy, Marín, César, Gohar, Daniyal, Klavina, Darta, Sharmah, Dipon, Dai, Dong Qin, Nouhra, Eduardo, Biersma, Elisabeth Machteld, Rähn, Elisabeth, Cameron, Erin K., De Crop, Eske, Otsing, Eveli, Davydov, Evgeny A., Albornoz, Felipe E., Brearley, Francis Q., Buegger, Franz, Zahn, Geoffrey, Bonito, Gregory, Hiiesalu, Inga, Barrio, Isabel C., Heilmann-Clausen, Jacob, Ankuda, Jelena, Kupagme, John Y., Maciá-Vicente, Jose G., Djeugap Fovo, Joseph, Geml, József, Alatalo, Juha M., Alvarez-Manjarrez, Julieta, Põldmaa, Kadri, Runnel, Kadri, Adamson, Kalev, Bråthen, Kari Anne, Pritsch, Karin, Tchan, Kassim I., Armolaitis, Kęstutis, Hyde, Kevin D., Newsham, Kevin K., Panksep, Kristel, Lateef, Adebola A., Tiirmann, Liis, Hansson, Linda, Lamit, Louis J., Saba, Malka, Tuomi, Maria, Gryzenhout, Marieka, Bauters, Marijn, Piepenbring, Meike, Wijayawardene, Nalin, Yorou, Nourou S., Kurina, Olavi, Mortimer, Peter E., Meidl, Peter, Kohout, Petr, Nilsson, R. Henrik, Puusepp, Rasmus, Drenkhan, Rein, Garibay-Orijel, Roberto, Godoy, Roberto, Alkahtani, Saad, Rahimlou, Saleh, Dudov, Sergey V., Põlme, Sergei, Ghosh, Soumya, Mundra, Sunil, Ahmed, Talaat, Netherway, Tarquin, Henkel, Terry W., Roslin, Tomas, Nteziryayo, Vincent, Fedosov, Vladimir E., Onipchenko, Vladimir G., Yasanthika, W.A. Erandi, Lim, Young Woon, Soudzilovskaia, Nadejda A., Antonelli, Alexandre, Kõljalg, Urmas, Abarenkov, Kessy, Tedersoo, Leho, Mikryukov, Vladimir, Zizka, Alexander, Bahram, Mohammad, Hagh-Doust, Niloufar, Anslan, Sten, Prylutskyi, Oleh, Delgado-Baquerizo, Manuel, Maestre, Fernando T., Pärn, Jaan, Öpik, Maarja, Moora, Mari, Zobel, Martin, Espenberg, Mikk, Mander, Ülo, Khalid, Abdul Nasir, Corrales, Adriana, Agan, Ahto, Vasco-Palacios, Aída-M., Saitta, Alessandro, Rinaldi, Andrea C., Verbeken, Annemieke, Sulistyo, Bobby P., Tamgnoue, Boris, Furneaux, Brendan, Ritter, Camila Duarte, Nyamukondiwa, Casper, Sharp, Cathy, Marín, César, Gohar, Daniyal, Klavina, Darta, Sharmah, Dipon, Dai, Dong Qin, Nouhra, Eduardo, Biersma, Elisabeth Machteld, Rähn, Elisabeth, Cameron, Erin K., De Crop, Eske, Otsing, Eveli, Davydov, Evgeny A., Albornoz, Felipe E., Brearley, Francis Q., Buegger, Franz, Zahn, Geoffrey, Bonito, Gregory, Hiiesalu, Inga, Barrio, Isabel C., Heilmann-Clausen, Jacob, Ankuda, Jelena, Kupagme, John Y., Maciá-Vicente, Jose G., Djeugap Fovo, Joseph, Geml, József, Alatalo, Juha M., Alvarez-Manjarrez, Julieta, Põldmaa, Kadri, Runnel, Kadri, Adamson, Kalev, Bråthen, Kari Anne, Pritsch, Karin, Tchan, Kassim I., Armolaitis, Kęstutis, Hyde, Kevin D., Newsham, Kevin K., Panksep, Kristel, Lateef, Adebola A., Tiirmann, Liis, Hansson, Linda, Lamit, Louis J., Saba, Malka, Tuomi, Maria, Gryzenhout, Marieka, Bauters, Marijn, Piepenbring, Meike, Wijayawardene, Nalin, Yorou, Nourou S., Kurina, Olavi, Mortimer, Peter E., Meidl, Peter, Kohout, Petr, Nilsson, R. Henrik, Puusepp, Rasmus, Drenkhan, Rein, Garibay-Orijel, Roberto, Godoy, Roberto, Alkahtani, Saad, Rahimlou, Saleh, Dudov, Sergey V., Põlme, Sergei, Ghosh, Soumya, Mundra, Sunil, Ahmed, Talaat, Netherway, Tarquin, Henkel, Terry W., Roslin, Tomas, Nteziryayo, Vincent, Fedosov, Vladimir E., Onipchenko, Vladimir G., Yasanthika, W.A. Erandi, Lim, Young Woon, Soudzilovskaia, Nadejda A., Antonelli, Alexandre, Kõljalg, Urmas, and Abarenkov, Kessy

Abstract

Fungi are highly diverse organisms, which provide multiple ecosystem services. However, compared with charismatic animals and plants, the distribution patterns and conservation needs of fungi have been little explored. Here we used high-resolution sequencing to assess endemicity patterns, global change vulnerability and conservation priority areas for functional groups of soil fungi based on six global surveys using a high-resolution, long-read metabarcoding approach. We found that the endemicity of all fungi and most functional groups peaks in tropical habitats, including Amazonia, Yucatan, West-Central Africa, Sri Lanka and New Caledonia, with a negligible island effect compared with plants and animals. We also found that fungi are predominantly vulnerable to drought, heat and land cover change, particularly in dry tropical regions with high human population density. Fungal conservation areas of highest priority include herbaceous wetlands, tropical forests and woodlands. We stress that more attention should be focused on the conservation of fungi, especially root symbiotic arbuscular mycorrhizal and ectomycorrhizal fungi in tropical regions as well as unicellular early-diverging groups and macrofungi in general. Given the low overlap between the endemicity of fungi and macroorganisms, but high conservation needs in both groups, detailed analyses on distribution and conservation requirements are warranted for other microorganisms and soil organisms.

Published
2022

44. Frontiers in soil ecology—Insights from the World Biodiversity Forum 2022

Author

Eisenhauer, Nico, Bender, S Franz, Calderón‐Sanou, Irene, de Vries, Franciska T, Lembrechts, Jonas J, Thuiller, Wilfried, Wall, Diana H, Zeiss, Romy, Bahram, Mohammad, Beugnon, Rémy, Burton, VJ, Crowther, Thomas W, Delgado‐Baquerizo, Manuel, Geisen, Stefan, Kardol, Paul, Krashevska, Valentyna, Martínez‐Muñoz, Carlos A, Patoine, Guillaume, Seeber, Julia, Soudzilovskaia, Nadejda A, Steinwandter, Michael, Sünnemann, Marie, Sun, Xin, van der Heijden, Marcel GA, Guerra, Carlos A, Potapov, Anton, Eisenhauer, Nico, Bender, S Franz, Calderón‐Sanou, Irene, de Vries, Franciska T, Lembrechts, Jonas J, Thuiller, Wilfried, Wall, Diana H, Zeiss, Romy, Bahram, Mohammad, Beugnon, Rémy, Burton, VJ, Crowther, Thomas W, Delgado‐Baquerizo, Manuel, Geisen, Stefan, Kardol, Paul, Krashevska, Valentyna, Martínez‐Muñoz, Carlos A, Patoine, Guillaume, Seeber, Julia, Soudzilovskaia, Nadejda A, Steinwandter, Michael, Sünnemann, Marie, Sun, Xin, van der Heijden, Marcel GA, Guerra, Carlos A, and Potapov, Anton

Abstract

Global change is affecting soil biodiversity and functioning across all terrestrial ecosystems. Still, much is unknown about how soil biodiversity and function will change in the future in response to simultaneous alterations in climate and land use, as well as other environmental drivers. It is crucial to understand the direct, indirect and interactive effects of global change drivers on soil communities and ecosystems across environmental contexts, not only today but also in the near future. This is particularly relevant for international efforts to tackle climate change like the Paris Agreement, and considering the failure to achieve the 2020 biodiversity targets, especially the target of halting soil degradation. Here, we outline the main frontiers related to soil ecology that were presented and discussed at the thematic sessions of the World Biodiversity Forum 2022 in Davos, Switzerland. We highlight multiple frontiers of knowledge associated with data integration, causal inference, soil biodiversity and function scenarios, critical soil biodiversity facets, underrepresented drivers, global collaboration, knowledge application and transdisciplinarity, as well as policy and public communication. These identified research priorities are not only of immediate interest to the scientific community but may also be considered in research priority programmes and calls for funding.

Published
2022

46. The global biogeography of soil priming effect intensity

Author

Ren, Chengjie, primary, Mo, Fei, additional, Zhou, Zhenghu, additional, Bastida, Felipe, additional, Delgado‐Baquerizo, Manuel, additional, Wang, Jieying, additional, Zhang, Xinyi, additional, Luo, Yiqi, additional, Griffis, Timothy J., additional, Han, Xinhui, additional, Wei, Gehong, additional, Wang, Jun, additional, Zhong, Zekun, additional, Feng, Yongzhong, additional, Ren, Guangxin, additional, Wang, Xiaojiao, additional, Yu, Kailiang, additional, Zhao, Fazhu, additional, Yang, Gaihe, additional, and Yuan, Fenghui, additional

Published
2022
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49. Temporal dynamics in biotic and functional recovery following mining

Author

Eldridge, David J., primary, Oliver, Ian, additional, Powell, Jeff R., additional, Dorrough, Josh, additional, Carrillo, Yolima, additional, Nielsen, Uffe N., additional, Macdonald, Catriona A., additional, Wilson, Brian, additional, Fyfe, Christine, additional, Amarasinghe, Apsara, additional, Kuginis, Laura, additional, Peake, Travis, additional, Robinson, Trish, additional, Howe, Belinda, additional, and Delgado‐Baquerizo, Manuel, additional

Published
2022
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