Globally invariant metabolism but density-diversity mismatch in springtails
| Author | Potapov, Anton M. |
| Author | Guerra, Carlos A. |
| Author | van den Hoogen, Johan |
| Author | Babenko, Anatoly |
| Author | Bellini, Bruno C. |
| Author | Berg, Matty P. |
| Author | Chown, Steven L. |
| Author | Deharveng, Louis |
| Author | Kováč, Ľubomír |
| Author | Kuznetsova, Natalia A. |
| Author | Ponge, Jean François |
| Author | Potapov, Mikhail B. |
| Author | Russell, David J. |
| Author | Alexandre, Douglas |
| Author | Alatalo, Juha M. |
| Author | Arbea, Javier I. |
| Author | Bandyopadhyaya, Ipsa |
| Author | Bernava, Verónica |
| Author | Bokhorst, Stef |
| Author | Bolger, Thomas |
| Author | Castaño-Meneses, Gabriela |
| Author | Chauvat, Matthieu |
| Author | Chen, Ting Wen |
| Author | Chomel, Mathilde |
| Author | Classen, Aimee T. |
| Author | Cortet, Jerome |
| Author | Čuchta, Peter |
| Author | Manuela de la Pedrosa, Ana |
| Author | Ferreira, Susana S.D. |
| Author | Fiera, Cristina |
| Author | Filser, Juliane |
| Author | Franken, Oscar |
| Author | Fujii, Saori |
| Author | Koudji, Essivi Gagnon |
| Author | Gao, Meixiang |
| Author | Gendreau-Berthiaume, Benoit |
| Author | Gomez-Pamies, Diego F. |
| Author | Greve, Michelle |
| Author | Tanya Handa, I. |
| Author | Heiniger, Charlène |
| Author | Holmstrup, Martin |
| Author | Homet, Pablo |
| Author | Ivask, Mari |
| Author | Janion-Scheepers, Charlene |
| Author | Jochum, Malte |
| Author | Joimel, Sophie |
| Author | Claudia S. Jorge, Bruna |
| Author | Jucevica, Edite |
| Author | Ferlian, Olga |
| Author | Iuñes de Oliveira Filho, Luís Carlos |
| Author | Klauberg-Filho, Osmar |
| Author | Baretta, Dilmar |
| Author | Krab, Eveline J. |
| Author | Kuu, Annely |
| Author | de Lima, Estevam C.A. |
| Author | Lin, Dunmei |
| Author | Lindo, Zoe |
| Author | Liu, Amy |
| Author | Lu, Jing Zhong |
| Author | Luciañez, María José |
| Author | Marx, Michael T. |
| Author | McCary, Matthew A. |
| Author | Minor, Maria A. |
| Author | Nakamori, Taizo |
| Author | Negri, Ilaria |
| Author | Ochoa-Hueso, Raúl |
| Author | Palacios-Vargas, José G. |
| Author | Pollierer, Melanie M. |
| Author | Querner, Pascal |
| Author | Raschmanová, Natália |
| Author | Rashid, Muhammad Imtiaz |
| Author | Raymond-Léonard, Laura J. |
| Author | Rousseau, Laurent |
| Author | Saifutdinov, Ruslan A. |
| Author | Salmon, Sandrine |
| Author | Sayer, Emma J. |
| Author | Scheunemann, Nicole |
| Author | Scholz, Cornelia |
| Author | Seeber, Julia |
| Author | Shveenkova, Yulia B. |
| Author | Stebaeva, Sophya K. |
| Author | Sterzynska, Maria |
| Author | Sun, Xin |
| Author | Susanti, Winda I. |
| Author | Taskaeva, Anastasia A. |
| Author | Thakur, Madhav P. |
| Author | Tsiafouli, Maria A. |
| Author | Turnbull, Matthew S. |
| Author | Twala, Mthokozisi N. |
| Author | Uvarov, Alexei V. |
| Author | Venier, Lisa A. |
| Author | Widenfalk, Lina A. |
| Author | Winck, Bruna R. |
| Author | Winkler, Daniel |
| Author | Wu, Donghui |
| Author | Xie, Zhijing |
| Author | Yin, Rui |
| Author | Zeppelini, Douglas |
| Author | Crowther, Thomas W. |
| Author | Eisenhauer, Nico |
| Available date | 2023-05-14T06:23:40Z |
| Publication Date | 2023-12-01 |
| Publication Name | Nature Communications |
| Identifier | http://dx.doi.org/10.1038/s41467-023-36216-6 |
| Citation | Potapov, A.M., Guerra, C.A., van den Hoogen, J. et al. Globally invariant metabolism but density-diversity mismatch in springtails. Nat Commun 14, 674 (2023). https://doi.org/10.1038/s41467-023-36216-6 |
| Abstract | Soil life supports the functioning and biodiversity of terrestrial ecosystems. Springtails (Collembola) are among the most abundant soil arthropods regulating soil fertility and flow of energy through above- and belowground food webs. However, the global distribution of springtail diversity and density, and how these relate to energy fluxes remains unknown. Here, using a global dataset representing 2470 sites, we estimate the total soil springtail biomass at 27.5 megatons carbon, which is threefold higher than wild terrestrial vertebrates, and record peak densities up to 2 million individuals per square meter in the tundra. Despite a 20-fold biomass difference between the tundra and the tropics, springtail energy use (community metabolism) remains similar across the latitudinal gradient, owing to the changes in temperature with latitude. Neither springtail density nor community metabolism is predicted by local species richness, which is high in the tropics, but comparably high in some temperate forests and even tundra. Changes in springtail activity may emerge from latitudinal gradients in temperature, predation and resource limitation in soil communities. Contrasting relationships of biomass, diversity and activity of springtail communities with temperature suggest that climate warming will alter fundamental soil biodiversity metrics in different directions, potentially restructuring terrestrial food webs and affecting soil functioning. |
| Sponsor | The article is an outcome of the #GlobalCollembola community initiative that is voluntarily supported by researchers around the world. Data collection and analysis was supported by the Russian Science Foundation (19-74-00154 to A.P.) and by Deutsche Forschungsgemeinschaft (493345801 to A.P. and 192626868—SFB 990 to S.S.). We acknowledge support by the Open Access Publication Funds of the Göttingen University. The following funding bodies provided support for individual contributors: ARC SRIEAS Grant SR200100005 Securing Antarctica’s Environmental Future to S.L.C., Slovak Scientific Grant Agency VEGA 1/0438/22 to Ľ.K., RFBR 19-516-60002 to N.A.K., Carl Tryggers Stiftelse för Vetenskaplig Forskning and Qatar Petroleum to J.M.A., BIO 27 (2013-2014)-MAGyP and PICTO 2084 (2012)-ANPCyT to V.B., DAAD-19-10 and MSM200962001 to T.C., grant TE, PN-III-P1-1.1-TE-2019-0358 to C.F., NWO grant 821.01.015 to O.F., National Natural Sciences Foundation of China No 41471037 and 41871042 to M.G., BIO 27 (2013-2014), MAGyP; PICT 2084 (2012), FONCyT to D.F.G., NRF South African National Antarctic Programme grant 110734 to M.G., Natural Resources Canada (NRCan), EcoEnergy Innovation Initiative under the Office of Energy Research and Development, and the Natural Sciences and Engineering Research Council of Canada (NSERC) to I.T.H., L.A.V. and L.R., Independent Research Fund Denmark grant no. DFF-4002-00384 to M.H., Estonian Science Foundation G9145 to M.I., SA-France bilateral grant to C.J., SA (NRF)/Russia (RFBR) Joint Science and Technology Research Collaboration project no. 19-516-60002 (FRBR) and no. 118904 (NRF) to M.P. and C.J., European Research Council (ERC), European Union’s Horizon 2020 research and innovation programme (grant agreement no. 677232; to N.E.); iDiv, German Research Foundation (DFG–FZT 118, 202548816) to M.J. and N.E., French National Agency of Research (ANR) (JASSUR research project; ANR-12-VBDU-0011), «Ministère de l’Agriculture et de la Pêche» and «Ministère de l’Education Nationale de la Recherche et de la Technologie» (ACTA programme), «Ministère de l’Aménagement du Territoire et de l’Environnement» (Pnetox programme), EU-funded project, ECOGEN QLK5-CT-2002-01666 (www.ecogen.dk), “Agence de l’Environnement et de la Maîtrise de l'Énergie” (BIOINDICATEUR 2, BIOTECHNOSOL), ANDRA and GISFI (www.gisfi.fr) to S.J., GRR SER-BIODIV (Région Normandie, France) to MCha, ESF9258, B02 to A.K., Fundamental Research Funds for the Central Universities (grant no. 2018CDXYCH0014) to D.L., DFG 316045089 to J.L., Massey University Research Fund grant to M.A.M., DFG SCHE 376/38-2 to M.M.P., grant from the Austria Academy of Science: Heritage_2020-043_Modeling-Museum to P.Q., Slovak Scientific Grant Agency: VEGA Nos. 1/0441/03 and 1/3267/06 to N.R., Higher Education Commission of Pakistan to M.I.R., RSF 21-74-00126 to R.A.S., Austrian Federal Government and European Union (Rural Development 2014-2020) to J.S., АААА-А17-122040600025-2 to A.A.T., Brazilian Council for Scientific and Technological Development—CNPq (grant no. 152717/2016-1) to B.R.W., 309030/2018-8 to D.Z. and 305426/2018-4 to B.C.B., National Natural Science Foundation of China (31970434, 31772491) to N.N.G., Research and Innovation Support Foundation of Santa Catarina (FAPESC) (6.309/2011-6/FAPESC) and the CNPq (563251/2010-7/CNPq) to L.C.I.O.F., O.K.-F., the Latvian Council of Science Grants no. 90.108, 93.140, 96.0110, 01.0344 to E.J., CNPq for the Research Productivity Grant (305939/2018-1) to D.B., FPI-MICINN grant in the project INTERCAPA (CGL2014-56739-R) to P.H, the Natural Sciences and Engineering Research Council of Canada (NSERC) to Z.L., Ministry of Innovation and Technology of Hungary TKP2021-NKTA-43 to D.W. Authors are grateful to Penelope Greenslade for providing the literature on Australian Collembola communities. Authors are grateful to Frans Janssens for providing the global checklist of Collembola. |
| Language | en |
| Publisher | Nature Research |
| Subject | Biodiversity Macroecology |
| Type | Article |
| Issue Number | 1 |
| Volume Number | 14 |
| ESSN | 2041-1723 |
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