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3. Global fine-resolution data on springtail abundance and community structure

Author

Potapov, Anton M., Chen, Ting-Wen, Striuchkova, Anastasia V., Alatalo, Juha M., Alexandre, Douglas, Arbea, Javier, Ashton, Thomas, Ashwood, Frank, Babenko, Anatoly B., Bandyopadhyaya, Ipsa, Baretta, Carolina Riviera Duarte Maluche, Baretta, Dilmar, Barnes, Andrew D., Bellini, Bruno C., Bendjaballah, Mohamed, Berg, Matty P., Bernava, Verónica, Bokhorst, Stef, Bokova, Anna I., Bolger, Thomas, Bouchard, Mathieu, Brito, Roniere A., Buchori, Damayanti, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chomel, Mathilde, Chow, Yasuko, Chown, Steven L., Classen, Aimee T., Cortet, Jérôme, Čuchta, Peter, de la Pedrosa, Ana Manuela, De Lima, Estevam C. A., Deharveng, Louis E., Doblas Miranda, Enrique, Drescher, Jochen, Eisenhauer, Nico, Ellers, Jacintha, Ferlian, Olga, Ferreira, Susana S. D., Ferreira, Aila S., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, Saori, Koudji, Essivi Gagnon, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gers, Charles, Greve, Michelle, Hamra-Kroua, Salah, Handa, I. Tanya, Hasegawa, Motohiro, Heiniger, Charlène, Hishi, Takuo, Holmstrup, Martin, Homet, Pablo, Høye, Toke T., Ivask, Mari, Jacques, Bob, Janion-Scheepers, Charlene, Jochum, Malte, Joimel, Sophie, Jorge, Bruna Claudia S., Juceviča, Edite, Kapinga, Esther M., Kováč, Ľubomír, Krab, Eveline J., Krogh, Paul Henning, Kuu, Annely, Kuznetsova, Natalya, Lam, Weng Ngai, Lin, Dunmei, Lindo, Zoë, Liu, Amy W. P., Lu, Jing-Zhong, Luciáñez, María José, Marx, Michael T., Mawan, Amanda, McCary, Matthew A., Minor, Maria A., Mitchell, Grace I., Moreno, David, Nakamori, Taizo, Negri, Ilaria, Nielsen, Uffe N., Ochoa-Hueso, Raúl, Oliveira Filho, Luís Carlos I., Palacios-Vargas, José G., Pollierer, Melanie M., Ponge, Jean-François, Potapov, Mikhail B., Querner, Pascal, Rai, Bibishan, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Reis, Aline S., Ross, Giles M., Rousseau, Laurent, Russell, David J., Saifutdinov, Ruslan A., Salmon, Sandrine, Santonja, Mathieu, Saraeva, Anna K., Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shaw, Peter, Shveenkova, Yulia B., Slade, Eleanor M., Stebaeva, Sophya, Sterzynska, Maria, Sun, Xin, Susanti, Winda Ika, Taskaeva, Anastasia A., Tay, Li Si, Thakur, Madhav P., Treasure, Anne M, Tsiafouli, Maria, Twala, Mthokozisi N., Uvarov, Alexei V., Venier, Lisa A., Widenfalk, Lina A., Widyastuti, Rahayu, Winck, Bruna, Winkler, Daniel, Wu, Donghui, Xie, Zhijing, Yin, Rui, Zampaulo, Robson A., Zeppelini, Douglas, Zhang, Bing, Zoughailech, Abdelmalek, Ashford, Oliver, Klauberg-Filho, Osmar, and Scheu, Stefan

Published
2024
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4. Comparison of DNA extraction methods on different sample matrices within the same terrestrial ecosystem

Author

Giulio Galla, Nadine Praeg, Theresa Rzehak, Else Sprecher, Filippo Colla, Julia Seeber, Paul Illmer, and Heidi C. Hauffe

Subjects
16S rRNA gene, Amplicon-sequencing, Metataxonomy, Method evaluation, MICCA, Medicine, Science
Abstract

Abstract Metataxonomic studies of ecosystem microbiotas require the simultaneous processing of samples with contrasting physical and biochemical traits. However, there are no published studies of comparisons of different DNA extraction kits to characterize the microbiotas of the main components of terrestrial ecosystems. Here, and to our knowledge for the first time, five DNA extraction kits were used to investigate the composition and diversity of the microbiota of a subset of samples typically studied in terrestrial ecosystems such as bulk soil, rhizosphere soil, invertebrate taxa and mammalian feces. DNA extraction kit was associated with changes in the relative abundance of hundreds of ASVs, in the same samples, resulting in significant differences in alpha and beta diversity estimates of their microbiotas. Importantly, the impact of DNA extraction kit on sample diversity varies according to sample type, with mammalian feces and soil samples showing the most and least consistent diversity estimates across DNA extraction kits, respectively. We show that the MACHEREY–NAGEL NucleoSpin® Soil kit was associated with the highest alpha diversity estimates, providing the highest contribution to the overall sample diversity, as indicated by comparisons with computationally assembled reference communities, and is recommended to be used for any large-scale microbiota study of terrestrial ecosystems.

Published
2024
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5. Global fine-resolution data on springtail abundance and community structure

Author

Anton M. Potapov, Ting-Wen Chen, Anastasia V. Striuchkova, Juha M. Alatalo, Douglas Alexandre, Javier Arbea, Thomas Ashton, Frank Ashwood, Anatoly B. Babenko, Ipsa Bandyopadhyaya, Carolina Riviera Duarte Maluche Baretta, Dilmar Baretta, Andrew D. Barnes, Bruno C. Bellini, Mohamed Bendjaballah, Matty P. Berg, Verónica Bernava, Stef Bokhorst, Anna I. Bokova, Thomas Bolger, Mathieu Bouchard, Roniere A. Brito, Damayanti Buchori, Gabriela Castaño-Meneses, Matthieu Chauvat, Mathilde Chomel, Yasuko Chow, Steven L. Chown, Aimee T. Classen, Jérôme Cortet, Peter Čuchta, Ana Manuela de la Pedrosa, Estevam C. A. De Lima, Louis E. Deharveng, Enrique Doblas Miranda, Jochen Drescher, Nico Eisenhauer, Jacintha Ellers, Olga Ferlian, Susana S. D. Ferreira, Aila S. Ferreira, Cristina Fiera, Juliane Filser, Oscar Franken, Saori Fujii, Essivi Gagnon Koudji, Meixiang Gao, Benoit Gendreau-Berthiaume, Charles Gers, Michelle Greve, Salah Hamra-Kroua, I. Tanya Handa, Motohiro Hasegawa, Charlène Heiniger, Takuo Hishi, Martin Holmstrup, Pablo Homet, Toke T. Høye, Mari Ivask, Bob Jacques, Charlene Janion-Scheepers, Malte Jochum, Sophie Joimel, Bruna Claudia S. Jorge, Edite Juceviča, Esther M. Kapinga, Ľubomír Kováč, Eveline J. Krab, Paul Henning Krogh, Annely Kuu, Natalya Kuznetsova, Weng Ngai Lam, Dunmei Lin, Zoë Lindo, Amy W. P. Liu, Jing-Zhong Lu, María José Luciáñez, Michael T. Marx, Amanda Mawan, Matthew A. McCary, Maria A. Minor, Grace I. Mitchell, David Moreno, Taizo Nakamori, Ilaria Negri, Uffe N. Nielsen, Raúl Ochoa-Hueso, Luís Carlos I. Oliveira Filho, José G. Palacios-Vargas, Melanie M. Pollierer, Jean-François Ponge, Mikhail B. Potapov, Pascal Querner, Bibishan Rai, Natália Raschmanová, Muhammad Imtiaz Rashid, Laura J. Raymond-Léonard, Aline S. Reis, Giles M. Ross, Laurent Rousseau, David J. Russell, Ruslan A. Saifutdinov, Sandrine Salmon, Mathieu Santonja, Anna K. Saraeva, Emma J. Sayer, Nicole Scheunemann, Cornelia Scholz, Julia Seeber, Peter Shaw, Yulia B. Shveenkova, Eleanor M. Slade, Sophya Stebaeva, Maria Sterzynska, Xin Sun, Winda Ika Susanti, Anastasia A. Taskaeva, Li Si Tay, Madhav P. Thakur, Anne M Treasure, Maria Tsiafouli, Mthokozisi N. Twala, Alexei V. Uvarov, Lisa A. Venier, Lina A. Widenfalk, Rahayu Widyastuti, Bruna Winck, Daniel Winkler, Donghui Wu, Zhijing Xie, Rui Yin, Robson A. Zampaulo, Douglas Zeppelini, Bing Zhang, Abdelmalek Zoughailech, Oliver Ashford, Osmar Klauberg-Filho, and Stefan Scheu

Subjects
Science
Abstract

Abstract Springtails (Collembola) inhabit soils from the Arctic to the Antarctic and comprise an estimated ~32% of all terrestrial arthropods on Earth. Here, we present a global, spatially-explicit database on springtail communities that includes 249,912 occurrences from 44,999 samples and 2,990 sites. These data are mainly raw sample-level records at the species level collected predominantly from private archives of the authors that were quality-controlled and taxonomically-standardised. Despite covering all continents, most of the sample-level data come from the European continent (82.5% of all samples) and represent four habitats: woodlands (57.4%), grasslands (14.0%), agrosystems (13.7%) and scrublands (9.0%). We included sampling by soil layers, and across seasons and years, representing temporal and spatial within-site variation in springtail communities. We also provided data use and sharing guidelines and R code to facilitate the use of the database by other researchers. This data paper describes a static version of the database at the publication date, but the database will be further expanded to include underrepresented regions and linked with trait data.

Published
2024
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7. Globally invariant metabolism but density-diversity mismatch in springtails

Author

Potapov, Anton M., Guerra, Carlos A., van den Hoogen, Johan, Babenko, Anatoly, Bellini, Bruno C., Berg, Matty P., Chown, Steven L., Deharveng, Louis, Kováč, Ľubomír, Kuznetsova, Natalia A., Ponge, Jean-François, Potapov, Mikhail B., Russell, David J., Alexandre, Douglas, Alatalo, Juha M., Arbea, Javier I., Bandyopadhyaya, Ipsa, Bernava, Verónica, Bokhorst, Stef, Bolger, Thomas, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chen, Ting-Wen, Chomel, Mathilde, Classen, Aimee T., Cortet, Jerome, Čuchta, Peter, Manuela de la Pedrosa, Ana, Ferreira, Susana S. D., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, Saori, Koudji, Essivi Gagnon, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gomez-Pamies, Diego F., Greve, Michelle, Tanya Handa, I., Heiniger, Charlène, Holmstrup, Martin, Homet, Pablo, Ivask, Mari, Janion-Scheepers, Charlene, Jochum, Malte, Joimel, Sophie, Claudia S. Jorge, Bruna, Jucevica, Edite, Ferlian, Olga, Iuñes de Oliveira Filho, Luís Carlos, Klauberg-Filho, Osmar, Baretta, Dilmar, Krab, Eveline J., Kuu, Annely, de Lima, Estevam C. A., Lin, Dunmei, Lindo, Zoe, Liu, Amy, Lu, Jing-Zhong, Luciañez, María José, Marx, Michael T., McCary, Matthew A., Minor, Maria A., Nakamori, Taizo, Negri, Ilaria, Ochoa-Hueso, Raúl, Palacios-Vargas, José G., Pollierer, Melanie M., Querner, Pascal, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Rousseau, Laurent, Saifutdinov, Ruslan A., Salmon, Sandrine, Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shveenkova, Yulia B., Stebaeva, Sophya K., Sterzynska, Maria, Sun, Xin, Susanti, Winda I., Taskaeva, Anastasia A., Thakur, Madhav P., Tsiafouli, Maria A., Turnbull, Matthew S., Twala, Mthokozisi N., Uvarov, Alexei V., Venier, Lisa A., Widenfalk, Lina A., Winck, Bruna R., Winkler, Daniel, Wu, Donghui, Xie, Zhijing, Yin, Rui, Zeppelini, Douglas, Crowther, Thomas W., Eisenhauer, Nico, and Scheu, Stefan

Published
2023
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10. Habitat heterogeneity promotes bird diversity in agricultural landscapes: Insights from remote sensing data

Author

Matteo Anderle, Mattia Brambilla, Andreas Hilpold, Joy Giovanni Matabishi, Chiara Paniccia, Duccio Rocchini, Jennifer Rossin, Erich Tasser, Michele Torresani, Ulrike Tappeiner, and Julia Seeber

Subjects
Agroecosystems, Alpine environment, Avian traits, Complex landscapes, Farming, Forest encroachment, Ecology, QH540-549.5
Abstract

Understanding the main drivers of biodiversity loss in Europe's agricultural landscapes has been a research priority in the last decades. One of the most important factors promoting biodiversity in farmed landscapes is habitat heterogeneity, which has often proved crucial for avian species and communities. Birds are highly sensitive to environmental changes and make use of a broad range of ecological niches, thus being exceptionally sensitive to the loss of habitat heterogeneity. Remote sensing data are particularly suited to quantify habitat heterogeneity at fine scales over relatively large extents, allowing to consider how different measures of heterogeneity may affect biotic communities at a regional scale. Here, we used airborne LiDAR (Light Detection And Ranging) and satellite multispectral data to derive vegetation canopy height and primary productivity for 118 sites in complex agricultural landscapes in a region in the Central Alps. We computed different bird diversity indices and classified bird species into guilds according to specific traits to analyse the relationship between avian communities and different facets of habitat heterogeneity. Results confirmed that habitat heterogeneity is essential in shaping rich and diverse bird communities, and it is particularly important for several farmland birds. By comparing the effects of canopy height, primary productivity, and specific vegetation features (e.g., cover of grassland, shrub, and tree layers), we showed how different habitat characteristics as well as landscape heterogeneity affected bird richness, diversity, functional entropy, and trait patterns. Landscape and height heterogeneity, estimated by NDVI and LiDAR Rao's Q indices, strongly influenced all response variables, for example, high NDVI values promoted species diversity and ground-understory nesters, and shrub layer was important for ground-understory nesters and forest specialists. Finally, we provide recommendations for conservation practices and mitigation measures to improve bird diversity in agricultural landscapes.

Published
2023
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11. Efficiency of birds as bioindicators for other taxa in mountain farmlands

Author

Matteo Anderle, Mattia Brambilla, Lisa Angelini, Elia Guariento, Chiara Paniccia, Julia Plunger, Julia Seeber, Simon Stifter, Ulrike Tappeiner, Erich Tasser, and Andreas Hilpold

Subjects
Agricultural ecosystems, Biodiversity, Bioindicators, Monitoring, Multitaxon study, Surrogates, Ecology, QH540-549.5
Abstract

Biodiversity loss is a global issue, particularly in mountain regions, where land-use/land-cover and climate change dramatically impact on species and communities. Sound ecological research and up-to-date information on biodiversity are needed to support conservation efforts. However, this information is often difficult and costly to obtain. Therefore, bioindicators serve as surrogates to provide information on the entire biocenosis. Birds are considered excellent bioindicators as they occupy different ecological niches and trait spaces.We present a study about the efficiency of birds as bioindicators for the diversity of other taxa in a mountain region in the Central Alps. We surveyed bird communities at 115 sites across a gradient of different grasslands and crops and compared them with the diversity of other taxa (bats, butterflies, grasshoppers, arachnids, and vascular plants). We aimed to identify indicator bird species for grasslands and crops, to assess cross-community concordance between birds and other taxa, and to model the efficiency of bird indices and indicator species as bioindicators of the diversity across habitat types and taxa.We identified indicator bird species for different grassland and crop types and found that efficiency of bird indices and single species varied for habitat types and taxa. We highlight the importance of using carefully selected bioindicators in biodiversity monitoring and conservation planning, and the need for an integrated and interdisciplinary approach for biodiversity research. Moreover, by looking at a combination of different indices we can gain a more comprehensive understanding of ecosystem functioning. We also provide a framework for the use of bird-based monitoring programs and bird-derived indices to guide biodiversity conservation, and emphasise the importance of incorporating different bioindicators into biodiversity research and monitoring to provide a more comprehensive understanding of ecological biodiversity patterns and trends.

Published
2024
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12. Abrupt boundaries between mountain meadows and forests separate ground-dwelling invertebrate communities: a case study from South Tyrol, Italy

Author

Helene Blasbichler, Julia Plunger, Julia Seeber, and Michael Steinwandter

Subjects
Mountain grassland, mixed forests, soil biodiversity, spiders, ants, Microbiology, QR1-502, Zoology, QL1-991
Abstract

In mountain regions, available agricultural land is often limited by the rugged topography and therefore an efficient and small-scale land use is needed to ensure food and fodder security. In the European Alps, mountain meadows at mid-elevations were created in medieval times by clearing and are therefore often still embedded in forest areas. The transition between these two habitats is mostly smooth due to the presence of a shrub strip, but sometimes sharp, as it is the case in our study. It is not well known whether such abrupt shrub-free habitat shifts affect the exchange of ground-dwelling macro-invertebrates between habitats and whether this may affect local biodiversity. We set up nine straight transects with five pitfall traps each, running from montane open extensive meadows through the sharp ecotone lines to mixed forest plots in South Tyrol, Northern Italy. Invertebrate activity densities, distribution, and biodiversity patterns were assessed. We found well separated invertebrate communities for the meadows and forests, with the ecotone communities being similar to those of the forests and not forming a distinct intermediate cluster. Araneae were significantly more abundant in the meadows and decreased towards the meadow edges and forests. In contrast, Diplopoda and Isopoda were significantly more abundant in the ecotone and forest plots. The meadow plots and partly the edge plots were inhabited by threatened Red List species. In heterogeneous mountain regions such as South Tyrol, where agricultural land is scarce and therefore must be used efficiently, sharp shifts between habitat types result in distinct invertebrate communities impeding species exchange. Maintaining the extensive management of grasslands and the establishment of buffering shrub strips are therefore desirable measures to support the local soil invertebrate biodiversity, as species may not be able to spill over the abrupt ecotone borders and seek shelter during management activities.

Published
2023
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13. Mock community as an in situ positive control for amplicon sequencing of microbiotas from the same ecosystem

Author

Giulio Galla, Nadine Praeg, Filippo Colla, Theresa Rzehak, Paul Illmer, Julia Seeber, and Heidi Christine Hauffe

Subjects
Medicine, Science
Abstract

Abstract Metataxonomy has become the standard for characterizing the diversity and composition of microbial communities associated with multicellular organisms and their environment. Currently available protocols for metataxonomy assume a uniform DNA extraction, amplification and sequencing efficiency for all sample types and taxa. It has been suggested that the addition of a mock community (MC) to biological samples before the DNA extraction step could aid identification of technical biases during processing and support direct comparisons of microbiota composition, but the impact of MC on diversity estimates of samples is unknown. Here, large and small aliquots of pulverized bovine fecal samples were extracted with no, low or high doses of MC, characterized using standard Illumina technology for metataxonomics, and analysed with custom bioinformatic pipelines. We demonstrated that sample diversity estimates were distorted only if MC dose was high compared to sample mass (i.e. when MC > 10% of sample reads). We also showed that MC was an informative in situ positive control, permitting an estimation of the sample 16S copy number, and detecting sample outliers. We tested this approach on a range of sample types from a terrestrial ecosystem, including rhizosphere soil, whole invertebrates, and wild vertebrate fecal samples, and discuss possible clinical applications.

Published
2023
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15. Globally invariant metabolism but density-diversity mismatch in springtails

Author

Anton M. Potapov, Carlos A. Guerra, Johan van den Hoogen, Anatoly Babenko, Bruno C. Bellini, Matty P. Berg, Steven L. Chown, Louis Deharveng, Ľubomír Kováč, Natalia A. Kuznetsova, Jean-François Ponge, Mikhail B. Potapov, David J. Russell, Douglas Alexandre, Juha M. Alatalo, Javier I. Arbea, Ipsa Bandyopadhyaya, Verónica Bernava, Stef Bokhorst, Thomas Bolger, Gabriela Castaño-Meneses, Matthieu Chauvat, Ting-Wen Chen, Mathilde Chomel, Aimee T. Classen, Jerome Cortet, Peter Čuchta, Ana Manuela de la Pedrosa, Susana S. D. Ferreira, Cristina Fiera, Juliane Filser, Oscar Franken, Saori Fujii, Essivi Gagnon Koudji, Meixiang Gao, Benoit Gendreau-Berthiaume, Diego F. Gomez-Pamies, Michelle Greve, I. Tanya Handa, Charlène Heiniger, Martin Holmstrup, Pablo Homet, Mari Ivask, Charlene Janion-Scheepers, Malte Jochum, Sophie Joimel, Bruna Claudia S. Jorge, Edite Jucevica, Olga Ferlian, Luís Carlos Iuñes de Oliveira Filho, Osmar Klauberg-Filho, Dilmar Baretta, Eveline J. Krab, Annely Kuu, Estevam C. A. de Lima, Dunmei Lin, Zoe Lindo, Amy Liu, Jing-Zhong Lu, María José Luciañez, Michael T. Marx, Matthew A. McCary, Maria A. Minor, Taizo Nakamori, Ilaria Negri, Raúl Ochoa-Hueso, José G. Palacios-Vargas, Melanie M. Pollierer, Pascal Querner, Natália Raschmanová, Muhammad Imtiaz Rashid, Laura J. Raymond-Léonard, Laurent Rousseau, Ruslan A. Saifutdinov, Sandrine Salmon, Emma J. Sayer, Nicole Scheunemann, Cornelia Scholz, Julia Seeber, Yulia B. Shveenkova, Sophya K. Stebaeva, Maria Sterzynska, Xin Sun, Winda I. Susanti, Anastasia A. Taskaeva, Madhav P. Thakur, Maria A. Tsiafouli, Matthew S. Turnbull, Mthokozisi N. Twala, Alexei V. Uvarov, Lisa A. Venier, Lina A. Widenfalk, Bruna R. Winck, Daniel Winkler, Donghui Wu, Zhijing Xie, Rui Yin, Douglas Zeppelini, Thomas W. Crowther, Nico Eisenhauer, and Stefan Scheu

Subjects
Science
Abstract

Springtails are omnipresent soil arthropods, vital for ecosystems. In the first global assessment of springtails, this study shows a 20-fold biomass difference between the tundra and the tropics, with distinct temperature-related patterns for diversity and metabolism that suggest climate change may restructure the functioning of soil biodiversity.

Published
2023
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16. Frontiers in soil ecology—Insights from the World Biodiversity Forum 2022

Author

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

Subjects
biodiversity change, ecosystem functioning, scenario modelling, soil biodiversity, soil macroecology, Agriculture (General), S1-972, Environmental sciences, GE1-350
Abstract

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
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17. Global fine-resolution data on springtail abundance and community structure

Author

Russian Science Foundation, Leipzig University, German Research Foundation, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Federal Ministry of Education and Research (Germany), Carl Tryggers Foundation, Royal Marsden NHS Foundation Trust, Centre National de la Recherche Scientifique (France), Australian Research Council, National Science Foundation (US), American Association of University Women, German Centre for Integrative Biodiversity Research, Ministry of Innovation and Technology (Hungary), National Natural Science Foundation of China, South African National Antarctic Programme, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Estonian Science Foundation, Government of Canada, St. John's University, Ministére de l'Education Nationale de la Recherche et de la Technologie (France), Latvian Council of Science, Massey University, Austrian Academy of Sciences, Royal Society Te Apārangi, Slovak Research and Development Agency, Higher Education Commission (Pakistan), Natural Resources Canada, Ontario Ministry of Natural Resources and Forestry, Nanyang Technological University, Potapov, Anton [0000-0002-4456-1710], Striuchkova, Anastasia V. [0000-0002-6666-5844], Alatalo, Juha M. [0000-0001-5084-850X], Arbea, Javier I. [0000-0001-6122-1331], Babenko, Anatoly [0000-0002-6077-0619], Barnes, Andrew D. [0000-0002-6499-381X], Bellini, Bruno C. [0000-0001-7881-9436], Bernava, Verónica [0000-0002-7654-7913], Bokhorst, Stef [0000-0003-0184-1162], Castaño-Meneses, Gabriela [0000-0002-5405-5221], Chauvat, Matthieu [0000-0002-4831-5904], Chomel, Mathilde [0000-0001-5110-2355], Chown, Steven L. [0000-0001-6069-5105], Classen, Aimme T. [0000-0002-6741-3470], de Lima, Estevam C. A. [0000-0002-1680-4818], Doblas-Miranda, E. [0000-0003-3366-2759], Drescher. Jochen [0000-0002-5162-9779], Eisenhauer, Nico [0000-0002-0371-6720], Ferlian, Olga [0000-0002-2536-7592], Filser, Juliane [0000-0003-1535-6168], Franken, Oscar [0000-0001-8361-3117], Greve, Michelle [0000-0002-6229-8506], Holmstrup, Martin [0000-0001-8395-6582], Homet, Pablo [0000-0002-4285-6953], Høye, Toke T. [0000-0001-5387-3284], Janion-Scheepers, C. [0000-0001-5942-7912], Jochum, Malte [0000-0002-8728-1145], Jucevica, Edite [0000-0002-0710-9450], Kapinga, Esther M. [0000-0002-2454-6820], Kovac, L'ubomír [0000-0001-8194-2128], Krab, Eveline J. [0000-0001-8262-0198], Henning Krogh, Paul [0000-0003-2033-553X], Lindo, Zoë [0000-0001-9942-7204], Lu, Jing-Zhong [0000-0002-4051-8993], Luciánez Sánchez, Mª J. [0000-0001-5679-0951], Mawan, Amanda [0000-0003-1820-7432], Moreno Mateos, D. [0000-0002-1539-5848], Negri, Ilaria [0000-0001-5188-1408], Nielsen, Uffe N. [0000-0003-2400-7453], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Oliveira Filho, Luís Carlos I. [0000-0002-9010-481X], Palacios-Vargas, José [0000-0001-9097-6813], Pollierer, Melani M. [0000-0002-1498-2362], Potapov, Mikhail B. [0000-0002-6111-3354], Rashid, Muhammad Imtiaz [0000-0002-5178-4445], Raymond-Léonard, Laura J. [0000-0002-7324-7843], Saifutdinov, Ruslan [0000-0002-8878-3630], Sayer, Emma J. [0000-0002-3322-4487], Seeber, Julia [0000-0003-0189-7377], Shveenkova, Yulia B. [0000-0003-1887-8551], Slade, Eleanor M. [0000-0002-6108-1196], Sterzynska, Maria [0000-0001-9712-4285], Sun, Xin [0000-0002-3988-7847], Taskaeva, Anastasia A. [0000-0002-4519-8458], Thakur, Madhav P. [0000-0001-9426-1313], Tsiafouli, Maria A. [0000-0003-0203-8347], Twala, Mthokozisi N. [0000-0001-6499-1892], Winck, Bruna [0000-0002-7996-9855], Winkler, Daniel E.[0000-0002-6008-0562], Yin, Rui [0000-0002-4580-1317], Zeppelini, Douglas [0000-0002-9026-1129], Scheu, Stefan [0000-0003-4350-9520], Potapov, Anton, Chen, Ting-Wen, Striuchkova, Anastasia V., Alatalo, Juha M., Alexandre, Douglas, Arbea, Javier I., Ashton, Thomas, Ashwood, Frank, Babenko, Anatoly, Bandyopadhyaya, Ipsa, Duarte Maluche Baretta, Carolina R., Joimel, Sophie, Jorge, Bruna Claudia S., Jucevica, Edite, Kapinga, Esther M., Kovac, L'ubomír, Krab, Eveline J., Henning Krogh, Paul, Kuu, Annely, Kuznetsova, Natalia A., Lam Weng, Ngai, Russell, David J., Lin, Dunmei, Lindo, Zoë, Liu, Amy, Lu, Jing-Zhong, Luciánez Sánchez, Mª J., Marx, Michael T., Mawan, Amanda, McCary, Matthew A., Minor, María A., Mitchell, Grace I., Saifutdinov, Ruslan, Moreno Mateos, D., Nakamori, Taizo, Negri, Ilaria, Nielsen, Uffe N., Ochoa-Hueso, Raúl, Oliveira Filho, Luís Carlos I., Palacios-Vargas, José, Pollierer, Melani M., Ponge, Jean-François, Potapov, Mikhail B., Salmon, Sandrine, Querner, Pascal, Rai, Bibishan, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Reis, Aline S., Ross, Giles M., Rousseau, Laurent, Santoja, Mathieu, Saraeva, Anna K., Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shaw, Peter, Baretta, Dilmar, Shveenkova, Yulia B., Slade, Eleanor M., Stebaeva, Sophya K., Sterzynska, Maria, Sun, Xin, Susanti, Winda I., Taskaeva, Anastasia A., Tay, Li Si, Thakur, Madhav P., Treasure, Anne M., Barnes, Andrew D., Tsiafouli, Maria A., Twala, Mthokozisi N., Uvarov, Alexei V., Vernier, Lisa A., Widenfalk, Lina A., Widyastuti, Rahayu, Winck, Bruna, Winkler, Daniel E., Wu, Donghui, Xie, Zhijing, Bellini, Bruno C., Yin, Rui, Zampaulo, Robson A., Zeppelini, Douglas, Zhang, Bing, Zoughailech, Abdelmalek, Ashford, Oliver, Klauberg-Filho, Osmar, Scheu, Stefan, Bendjaballah, Mohamed, Berg, Matty P., Bernava, Verónica, Bokhorst, Stef, Bokova, Anna I., Bolger, Thomas, Bouchard, Mathieu, Brito, Roniere A., Buchori, Damayanti, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chomel, Mathilde, Chow, Yasuko, Chown, Steven L., Classen, Aimme T., Cortet, Jérôme, Čuchta, Peter, Pedrosa, Ana M. de la, de Lima, Estevam C. A., Deharveng, Louis, Doblas-Miranda, E., Drescher. Jochen, Eisenhauer, Nico, Ellers, J., Ferlian, Olga, Ferreira, Susana S. D., Ferreira, Alisa S., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, S., Gagnon Koudji, Essivi, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gers. Charles, Greve, Michelle, Hamra-Kroua, Salah, Tanya Handa, Ira, Hasegawa, Motohiro, Heiniger, Charlène, Hishi, Takuo, Holmstrup, Martin, Homet, Pablo, Høye, Toke T., Ivask, Mari, Jacques, Bob, Janion-Scheepers, C., Jochum, Malte, Russian Science Foundation, Leipzig University, German Research Foundation, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Federal Ministry of Education and Research (Germany), Carl Tryggers Foundation, Royal Marsden NHS Foundation Trust, Centre National de la Recherche Scientifique (France), Australian Research Council, National Science Foundation (US), American Association of University Women, German Centre for Integrative Biodiversity Research, Ministry of Innovation and Technology (Hungary), National Natural Science Foundation of China, South African National Antarctic Programme, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Estonian Science Foundation, Government of Canada, St. John's University, Ministére de l'Education Nationale de la Recherche et de la Technologie (France), Latvian Council of Science, Massey University, Austrian Academy of Sciences, Royal Society Te Apārangi, Slovak Research and Development Agency, Higher Education Commission (Pakistan), Natural Resources Canada, Ontario Ministry of Natural Resources and Forestry, Nanyang Technological University, Potapov, Anton [0000-0002-4456-1710], Striuchkova, Anastasia V. [0000-0002-6666-5844], Alatalo, Juha M. [0000-0001-5084-850X], Arbea, Javier I. [0000-0001-6122-1331], Babenko, Anatoly [0000-0002-6077-0619], Barnes, Andrew D. [0000-0002-6499-381X], Bellini, Bruno C. [0000-0001-7881-9436], Bernava, Verónica [0000-0002-7654-7913], Bokhorst, Stef [0000-0003-0184-1162], Castaño-Meneses, Gabriela [0000-0002-5405-5221], Chauvat, Matthieu [0000-0002-4831-5904], Chomel, Mathilde [0000-0001-5110-2355], Chown, Steven L. [0000-0001-6069-5105], Classen, Aimme T. [0000-0002-6741-3470], de Lima, Estevam C. A. [0000-0002-1680-4818], Doblas-Miranda, E. [0000-0003-3366-2759], Drescher. Jochen [0000-0002-5162-9779], Eisenhauer, Nico [0000-0002-0371-6720], Ferlian, Olga [0000-0002-2536-7592], Filser, Juliane [0000-0003-1535-6168], Franken, Oscar [0000-0001-8361-3117], Greve, Michelle [0000-0002-6229-8506], Holmstrup, Martin [0000-0001-8395-6582], Homet, Pablo [0000-0002-4285-6953], Høye, Toke T. [0000-0001-5387-3284], Janion-Scheepers, C. [0000-0001-5942-7912], Jochum, Malte [0000-0002-8728-1145], Jucevica, Edite [0000-0002-0710-9450], Kapinga, Esther M. [0000-0002-2454-6820], Kovac, L'ubomír [0000-0001-8194-2128], Krab, Eveline J. [0000-0001-8262-0198], Henning Krogh, Paul [0000-0003-2033-553X], Lindo, Zoë [0000-0001-9942-7204], Lu, Jing-Zhong [0000-0002-4051-8993], Luciánez Sánchez, Mª J. [0000-0001-5679-0951], Mawan, Amanda [0000-0003-1820-7432], Moreno Mateos, D. [0000-0002-1539-5848], Negri, Ilaria [0000-0001-5188-1408], Nielsen, Uffe N. [0000-0003-2400-7453], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Oliveira Filho, Luís Carlos I. [0000-0002-9010-481X], Palacios-Vargas, José [0000-0001-9097-6813], Pollierer, Melani M. [0000-0002-1498-2362], Potapov, Mikhail B. [0000-0002-6111-3354], Rashid, Muhammad Imtiaz [0000-0002-5178-4445], Raymond-Léonard, Laura J. [0000-0002-7324-7843], Saifutdinov, Ruslan [0000-0002-8878-3630], Sayer, Emma J. [0000-0002-3322-4487], Seeber, Julia [0000-0003-0189-7377], Shveenkova, Yulia B. [0000-0003-1887-8551], Slade, Eleanor M. [0000-0002-6108-1196], Sterzynska, Maria [0000-0001-9712-4285], Sun, Xin [0000-0002-3988-7847], Taskaeva, Anastasia A. [0000-0002-4519-8458], Thakur, Madhav P. [0000-0001-9426-1313], Tsiafouli, Maria A. [0000-0003-0203-8347], Twala, Mthokozisi N. [0000-0001-6499-1892], Winck, Bruna [0000-0002-7996-9855], Winkler, Daniel E.[0000-0002-6008-0562], Yin, Rui [0000-0002-4580-1317], Zeppelini, Douglas [0000-0002-9026-1129], Scheu, Stefan [0000-0003-4350-9520], Potapov, Anton, Chen, Ting-Wen, Striuchkova, Anastasia V., Alatalo, Juha M., Alexandre, Douglas, Arbea, Javier I., Ashton, Thomas, Ashwood, Frank, Babenko, Anatoly, Bandyopadhyaya, Ipsa, Duarte Maluche Baretta, Carolina R., Joimel, Sophie, Jorge, Bruna Claudia S., Jucevica, Edite, Kapinga, Esther M., Kovac, L'ubomír, Krab, Eveline J., Henning Krogh, Paul, Kuu, Annely, Kuznetsova, Natalia A., Lam Weng, Ngai, Russell, David J., Lin, Dunmei, Lindo, Zoë, Liu, Amy, Lu, Jing-Zhong, Luciánez Sánchez, Mª J., Marx, Michael T., Mawan, Amanda, McCary, Matthew A., Minor, María A., Mitchell, Grace I., Saifutdinov, Ruslan, Moreno Mateos, D., Nakamori, Taizo, Negri, Ilaria, Nielsen, Uffe N., Ochoa-Hueso, Raúl, Oliveira Filho, Luís Carlos I., Palacios-Vargas, José, Pollierer, Melani M., Ponge, Jean-François, Potapov, Mikhail B., Salmon, Sandrine, Querner, Pascal, Rai, Bibishan, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Reis, Aline S., Ross, Giles M., Rousseau, Laurent, Santoja, Mathieu, Saraeva, Anna K., Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shaw, Peter, Baretta, Dilmar, Shveenkova, Yulia B., Slade, Eleanor M., Stebaeva, Sophya K., Sterzynska, Maria, Sun, Xin, Susanti, Winda I., Taskaeva, Anastasia A., Tay, Li Si, Thakur, Madhav P., Treasure, Anne M., Barnes, Andrew D., Tsiafouli, Maria A., Twala, Mthokozisi N., Uvarov, Alexei V., Vernier, Lisa A., Widenfalk, Lina A., Widyastuti, Rahayu, Winck, Bruna, Winkler, Daniel E., Wu, Donghui, Xie, Zhijing, Bellini, Bruno C., Yin, Rui, Zampaulo, Robson A., Zeppelini, Douglas, Zhang, Bing, Zoughailech, Abdelmalek, Ashford, Oliver, Klauberg-Filho, Osmar, Scheu, Stefan, Bendjaballah, Mohamed, Berg, Matty P., Bernava, Verónica, Bokhorst, Stef, Bokova, Anna I., Bolger, Thomas, Bouchard, Mathieu, Brito, Roniere A., Buchori, Damayanti, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chomel, Mathilde, Chow, Yasuko, Chown, Steven L., Classen, Aimme T., Cortet, Jérôme, Čuchta, Peter, Pedrosa, Ana M. de la, de Lima, Estevam C. A., Deharveng, Louis, Doblas-Miranda, E., Drescher. Jochen, Eisenhauer, Nico, Ellers, J., Ferlian, Olga, Ferreira, Susana S. D., Ferreira, Alisa S., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, S., Gagnon Koudji, Essivi, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gers. Charles, Greve, Michelle, Hamra-Kroua, Salah, Tanya Handa, Ira, Hasegawa, Motohiro, Heiniger, Charlène, Hishi, Takuo, Holmstrup, Martin, Homet, Pablo, Høye, Toke T., Ivask, Mari, Jacques, Bob, Janion-Scheepers, C., and Jochum, Malte

Abstract

Springtails (Collembola) inhabit soils from the Arctic to the Antarctic and comprise an estimated ~32% of all terrestrial arthropods on Earth. Here, we present a global, spatially-explicit database on springtail communities that includes 249,912 occurrences from 44,999 samples and 2,990 sites. These data are mainly raw sample-level records at the species level collected predominantly from private archives of the authors that were quality-controlled and taxonomically-standardised. Despite covering all continents, most of the sample-level data come from the European continent (82.5% of all samples) and represent four habitats: woodlands (57.4%), grasslands (14.0%), agrosystems (13.7%) and scrublands (9.0%). We included sampling by soil layers, and across seasons and years, representing temporal and spatial within-site variation in springtail communities. We also provided data use and sharing guidelines and R code to facilitate the use of the database by other researchers. This data paper describes a static version of the database at the publication date, but the database will be further expanded to include underrepresented regions and linked with trait data.

Published
2024

18. Distribution of soil macrofauna across different habitats in the Eastern European Alps

Author

Julia Seeber, Michael Steinwandter, Erich Tasser, Elia Guariento, Thomas Peham, Johannes Rüdisser, Birgit C. Schlick-Steiner, Florian M. Steiner, Ulrike Tappeiner, and Erwin Meyer

Subjects
Science
Abstract

Measurement(s) abundances of soil animals Technology Type(s) soil samples Factor Type(s) NONE Sample Characteristic - Organism Lumbricidae • Arthropoda • Mollusca Sample Characteristic - Environment Alpine habitats Sample Characteristic - Location European Alps

Published
2022
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21. Global change experiments in mountain ecosystems: A systematic review.

Author

Dainese, Matteo, Crepaz, Harald, Bottarin, Roberta, Fontana, Veronika, Guariento, Elia, Hilpold, Andreas, Obojes, Nikolaus, Paniccia, Chiara, Scotti, Alberto, Seeber, Julia, Steinwandter, Michael, Tappeiner, Ulrike, and Niedrist, Georg

Subjects
EVIDENCE gaps, CLIMATE change, BIOTIC communities, WATER supply, ECOSYSTEM services
Abstract

Mountain ecosystems play an important role globally as centers of biodiversity and in providing ecosystem services to lowland populations, but are influenced by multiple global change drivers such as climate change, nitrogen deposition, or altered disturbance regimes. As global change is accelerating and the consequences for humans and nature are intensifying, there is an increasing demand for understanding and predicting the impacts and implications of global change on mountain ecosystems. Manipulation experiments are one of the major tools for testing the causal impacts of global change and establishing a mechanistic understanding of how these changes may transform the global biota from single organisms to entire ecosystems. Over the past three decades, hundreds of such experiments have been conducted in mountainous regions worldwide. To strengthen the experimental evidence for the possible ecological consequences of global change, we systematically reviewed the literature on global change experiments in mountains. We first investigated the spread of manipulation experiments to test the effects of different global change drivers on key biological and ecological processes from the organism to the ecosystem level. We then examined and discussed the balance of evidence regarding the impact of these global change drivers on biological and ecological processes, and outlined the possible consequences for mountain ecosystems. Finally, we identified research gaps and proposed future directions for global change research in mountain environments. Among the major drivers, temperature was manipulated most frequently, generally showing consistent strong impacts between biological and ecosystem processes, functional groups, and habitat types. There is also strong evidence suggesting that changes in water and nutrient availability have a direct impact on the life history and functioning of mountain organisms. Despite these important findings, there are several gaps that require urgent attention. These include experiments testing adult trees in tropical and boreal regions, assessing animal responses and biotic interactions, and investigating aquatic environments and soil systems more extensively. A broader approach that integrates experimental data with field observations and relies on international collaboration through coordinated experiments could help address these gaps and provide a more consistent and robust picture of the impacts of global change on mountain ecosystems. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Shifts in ground-dwelling predator communities in response to changes in management intensity in Alpine meadows

Author

Julia Plunger, Elia Guariento, Michael Steinwandter, Filippo Colla, Alexander Rief, and Julia Seeber

Subjects
Soil, Arachnida, Coleoptera, Formicidae, species diversity, Microbiology, QR1-502, Zoology, QL1-991
Abstract

Land-use changes, especially agricultural intensification has increased in the last decades leading to a decrease in biodiversity. In Europe, grasslands have been influenced by humans for centuries and millennia and management intensity has increased since the 20th century. In this small-case study, we investigate how management intensity affects ground-dwelling predators in montane hay meadows in South Tyrol, an Alpine region in Northern Italy, using the pitfall trap method. As expected, species composition differed significantly when comparing the predator communities of extensive and intensive meadows, with the former supporting a higher predator species richness, and the latter showing higher proportions of frequent and euryoecious species. Regarding their activity densities and Shannon diversity, we did not find clear differences. Investigating selected ecological species traits, we found differences for moisture requirements and ecological tolerance between the two management types, with xerophilous species being more abundant in the extensive meadows, and stenoecious species more abundant in intensive meadows. In this study, we found management intensity of montane grasslands to have a limited influence on the biodiversity patterns of ground-dwelling predators. However, individual predator groups showed clear reactions to the intensity of management (i.e., decrease or increase in activity density, species richness and Shannon diversity). We conclude that a intensive management of grasslands in combination with local habitat specifics does not lead to a homogenisation of the predatory arthropod community like it was found in other studies. Our study contributes to a better understanding of scarcely investigated predator communities and their diversity in differently managed Alpine grasslands.

Published
2022
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25. Global data on earthworm abundance, biomass, diversity and corresponding environmental properties

Author

Helen R. P. Phillips, Elizabeth M. Bach, Marie L. C. Bartz, Joanne M. Bennett, Rémy Beugnon, Maria J. I. Briones, George G. Brown, Olga Ferlian, Konstantin B. Gongalsky, Carlos A. Guerra, Birgitta König-Ries, Julia J. Krebs, Alberto Orgiazzi, Kelly S. Ramirez, David J. Russell, Benjamin Schwarz, Diana H. Wall, Ulrich Brose, Thibaud Decaëns, Patrick Lavelle, Michel Loreau, Jérôme Mathieu, Christian Mulder, Wim H. van der Putten, Matthias C. Rillig, Madhav P. Thakur, Franciska T. de Vries, David A. Wardle, Christian Ammer, Sabine Ammer, Miwa Arai, Fredrick O. Ayuke, Geoff H. Baker, Dilmar Baretta, Dietmar Barkusky, Robin Beauséjour, Jose C. Bedano, Klaus Birkhofer, Eric Blanchart, Bernd Blossey, Thomas Bolger, Robert L. Bradley, Michel Brossard, James C. Burtis, Yvan Capowiez, Timothy R. Cavagnaro, Amy Choi, Julia Clause, Daniel Cluzeau, Anja Coors, Felicity V. Crotty, Jasmine M. Crumsey, Andrea Dávalos, Darío J. Díaz Cosín, Annise M. Dobson, Anahí Domínguez, Andrés Esteban Duhour, Nick van Eekeren, Christoph Emmerling, Liliana B. Falco, Rosa Fernández, Steven J. Fonte, Carlos Fragoso, André L. C. Franco, Abegail Fusilero, Anna P. Geraskina, Shaieste Gholami, Grizelle González, Michael J. Gundale, Mónica Gutiérrez López, Branimir K. Hackenberger, Davorka K. Hackenberger, Luis M. Hernández, Jeff R. Hirth, Takuo Hishi, Andrew R. Holdsworth, Martin Holmstrup, Kristine N. Hopfensperger, Esperanza Huerta Lwanga, Veikko Huhta, Tunsisa T. Hurisso, Basil V. Iannone, Madalina Iordache, Ulrich Irmler, Mari Ivask, Juan B. Jesús, Jodi L. Johnson-Maynard, Monika Joschko, Nobuhiro Kaneko, Radoslava Kanianska, Aidan M. Keith, Maria L. Kernecker, Armand W. Koné, Yahya Kooch, Sanna T. Kukkonen, H. Lalthanzara, Daniel R. Lammel, Iurii M. Lebedev, Edith Le Cadre, Noa K. Lincoln, Danilo López-Hernández, Scott R. Loss, Raphael Marichal, Radim Matula, Yukio Minamiya, Jan Hendrik Moos, Gerardo Moreno, Alejandro Morón-Ríos, Hasegawa Motohiro, Bart Muys, Johan Neirynck, Lindsey Norgrove, Marta Novo, Visa Nuutinen, Victoria Nuzzo, P. Mujeeb Rahman, Johan Pansu, Shishir Paudel, Guénola Pérès, Lorenzo Pérez-Camacho, Jean-François Ponge, Jörg Prietzel, Irina B. Rapoport, Muhammad Imtiaz Rashid, Salvador Rebollo, Miguel Á. Rodríguez, Alexander M. Roth, Guillaume X. Rousseau, Anna Rozen, Ehsan Sayad, Loes van Schaik, Bryant Scharenbroch, Michael Schirrmann, Olaf Schmidt, Boris Schröder, Julia Seeber, Maxim P. Shashkov, Jaswinder Singh, Sandy M. Smith, Michael Steinwandter, Katalin Szlavecz, José Antonio Talavera, Dolores Trigo, Jiro Tsukamoto, Sheila Uribe-López, Anne W. de Valença, Iñigo Virto, Adrian A. Wackett, Matthew W. Warren, Emily R. Webster, Nathaniel H. Wehr, Joann K. Whalen, Michael B. Wironen, Volkmar Wolters, Pengfei Wu, Irina V. Zenkova, Weixin Zhang, Erin K. Cameron, and Nico Eisenhauer

Subjects
Science
Abstract

Measurement(s) earthworm communities • Abundance • organic material • Diversity • environmental properties Technology Type(s) digital curation Factor Type(s) location Sample Characteristic - Organism Lumbricina Sample Characteristic - Environment soil Sample Characteristic - Location global Machine-accessible metadata file describing the reported data: https://doi.org/10.6084/m9.figshare.13399118

Published
2021
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26. Soil invertebrate abundance, diversity, and community composition across steep high elevation snowmelt gradients in the European Alps

Author

Julia Seeber, Christian Newesely, Michael Steinwandter, Alexander Rief, Christian Körner, Ulrike Tappeiner, and Erwin Meyer

Subjects
european alps, mesofauna, macrofauna, soil parameters, snowbeds, Environmental sciences, GE1-350, Ecology, QH540-549.5
Abstract

We studied abundance, diversity, and composition of soil invertebrates along snowmelt gradients to generally understand how soil animal communities are responding to life conditions across snowbeds along a west–east transect of the European Alps and to create a reference inventory for future investigations of climate change effects on snowbed habitats. We extracted microarthropods (collembolans, oribatid mites) and macroinvertebrates (spiders, beetles, insect larvae) from soil cores taken from three sections along the snowmelt gradient: high (early snowmelt), middle, and low (late snowmelt) sections. Linear models showed no correlations between either soil conditions or time of snowmelt and densities of soil animals. A small, though statistically significant, variation in the generally high soil organic matter and sand contents and high porosity of snowbed soils seems to have no effect on soil invertebrates. Species found along the snowmelt gradient were in similar shares generalist and specialist species. Microarthropod community composition in general was driven by soil porosity and soil organic matter content; for macroinvertebrate community composition we found no specific driver. We conclude that invertebrate species assemblages in snowbeds are rather similar in the European Alps.

Published
2021
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27. Global monitoring of soil animal communities using a common methodology

Author

Anton M. Potapov, Xin Sun, Andrew D. Barnes, Maria J. Briones, George G. Brown, Erin K. Cameron, Chih-Han Chang, Jerome Cortet, Nico Eisenhauer, Andre L.C. Franco, Saori Fujii, Stefan Geisen, Carlos Guerra, Konstantin Gongalsky, Jari Haimi, I. Tanya Handa, Charlene Janion-Sheepers, Kamil Karaban, Zoe Lindo, Jerome Matthieu, Maria Laura Moreno, Maka Murvanidze, Uffe Nielsen, Stefan Scheu, Olaf Schmidt, Clement Schneider, Julia Seeber, Maria Tsiafouli, Jiri Tuma, Alexei Tiunov, Andrey S. Zaytsev, Frank Ashwood, Mac Callaham, and Diana Wall

Subjects
biogeography, ecosystem functioning, macroecology, soil fauna, soil biodiversity, Microbiology, QR1-502, Zoology, QL1-991
Abstract

Here we introduce the Soil BON Foodweb Team, a cross-continental collaborative network that aims to monitor soil animal communities and food webs using consistent methodology at a global scale. Soil animals support vital soil processes via soil structure modification, consumption of dead organic matter, and interactions with microbial and plant communities. Soil animal effects on ecosystem functions have been demonstrated by correlative analyses as well as in laboratory and field experiments, but these studies typically focus on selected animal groups or species at one or few sites with limited variation in environmental conditions. The lack of comprehensive harmonised large-scale soil animal community data including microfauna, mesofauna, and macrofauna, in conjunction with related soil functions, microbial communities, and vegetation, limits our understanding of biological interactions in soil systems and how these interactions affect ecosystem functioning. To provide such data, the Soil BON Foodweb Team invites researchers worldwide to use a common methodology to address six long-term goals: (1) to collect globally representative harmonised data on soil micro-, meso-, and macrofauna communities, (2) to describe key environmental drivers of soil animal communities and food webs, (3) to assess the efficiency of conservation approaches for the protection of soil animal communities, (4) to describe soil food webs and their association with soil functioning globally, (5) to establish a global research network for soil biodiversity monitoring and collaborative projects in related topics, (6) to reinforce local collaboration networks and expertise and support capacity building for soil animal research around the world. In this paper, we describe the vision of the global research network and the common sampling protocol to assess soil animal communities and advocate for the use of standard methodologies across observational and experimental soil animal studies. We will use this protocol to conduct soil animal assessments and reconstruct soil food webs at sites associated with the global soil biodiversity monitoring network, Soil BON, allowing us to assess linkages among soil biodiversity, vegetation, soil physico-chemical properties, climate, and ecosystem functions. In the present paper, we call for researchers especially from countries and ecoregions that remain underrepresented in the majority of soil biodiversity assessments to join us. Together we will be able to provide science-based evidence to support soil biodiversity conservation and functioning of terrestrial ecosystems.

Published
2022
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28. Biodiversity in mountain soils above the treeline

Author

Praeg, Nadine, primary, Steinwandter, Michael, additional, Urbach, Davnah, additional, Snethlage, Mark A., additional, Alves, Rodrigo P., additional, Apple, Martha E., additional, Britton, Andrea J., additional, Bruni, Estelle P., additional, Chen, Ting-Wen, additional, Dumack, Kenneth, additional, Fernandez-Mendoza, Fernando, additional, Freppaz, Michele, additional, Frey, Beat, additional, Fromin, Nathalie, additional, Geisen, Stefan, additional, Grube, Martin, additional, Guariento, Elia, additional, Guisan, Antoine, additional, Ji, Qiao-Qiao, additional, Jiménez, Juan J., additional, Maier, Stefanie, additional, Malard, Lucie A., additional, Minor, Maria A., additional, Mc Lean, Cowan C., additional, Mitchell, Edward A.D., additional, Peham, Thomas, additional, Pizzolotto, Roberto, additional, Taylor, Andy F.S., additional, Vernon, Philippe, additional, van Tol, Johan J., additional, Wu, Yunga, additional, Wu, Donghui, additional, Xie, Zhijing, additional, Weber, Bettina, additional, Illmer, Paul, additional, and Seeber, Julia, additional

Published
2023
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30. Species richness and beta diversity patterns of multiple taxa along an elevational gradient in pastured grasslands in the European Alps

Author

Veronika Fontana, Elia Guariento, Andreas Hilpold, Georg Niedrist, Michael Steinwandter, Daniel Spitale, Juri Nascimbene, Ulrike Tappeiner, and Julia Seeber

Subjects
Medicine, Science
Abstract

Abstract To understand how diversity is distributed in space is a fundamental aim for optimizing future species and community conservation. We examined in parallel species richness and beta diversity components of nine taxonomic groups along a finite space, represented by pastured grasslands along an elevational gradient. Beta diversity, which is assumed to bridge local alpha diversity to regional gamma diversity was partitioned into the two components turnover and nestedness and analyzed at two levels: from the lowest elevation to all other elevations, and between neighboring elevations. Species richness of vascular plants, butterflies, beetles, spiders and earthworms showed a hump-shaped relationship with increasing elevation, while it decreased linearly for grasshoppers and ants, but increased for lichens and bryophytes. For most of the groups, turnover increased with increasing elevational distance along the gradient while nestedness decreased. With regard to step-wise beta diversity, rates of turnover or nestedness did not change notably between neighboring steps for the majority of groups. Our results support the assumption that species communities occupying the same habitat significantly change along elevation, however transition seems to happen continuously and is not detectable between neighboring steps. Our findings, rather than delineating levels of major diversity losses, indicate that conservation actions targeting at a preventive protection for species and their environment in mountainous regions require the consideration of entire spatial settings.

Published
2020
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31. Global data on earthworm abundance, biomass, diversity and corresponding environmental properties

Author

Phillips, Helen R. P., Bach, Elizabeth M., Bartz, Marie L. C., Bennett, Joanne M., Beugnon, Rémy, Briones, Maria J. I., Brown, George G., Ferlian, Olga, Gongalsky, Konstantin B., Guerra, Carlos A., König-Ries, Birgitta, Krebs, Julia J., Orgiazzi, Alberto, Ramirez, Kelly S., Russell, David J., Schwarz, Benjamin, Wall, Diana H., Brose, Ulrich, Decaëns, Thibaud, Lavelle, Patrick, Loreau, Michel, Mathieu, Jérôme, Mulder, Christian, van der Putten, Wim H., Rillig, Matthias C., Thakur, Madhav P., de Vries, Franciska T., Wardle, David A., Ammer, Christian, Ammer, Sabine, Arai, Miwa, Ayuke, Fredrick O., Baker, Geoff H., Baretta, Dilmar, Barkusky, Dietmar, Beauséjour, Robin, Bedano, Jose C., Birkhofer, Klaus, Blanchart, Eric, Blossey, Bernd, Bolger, Thomas, Bradley, Robert L., Brossard, Michel, Burtis, James C., Capowiez, Yvan, Cavagnaro, Timothy R., Choi, Amy, Clause, Julia, Cluzeau, Daniel, Coors, Anja, Crotty, Felicity V., Crumsey, Jasmine M., Dávalos, Andrea, Cosín, Darío J. Díaz, Dobson, Annise M., Domínguez, Anahí, Duhour, Andrés Esteban, van Eekeren, Nick, Emmerling, Christoph, Falco, Liliana B., Fernández, Rosa, Fonte, Steven J., Fragoso, Carlos, Franco, André L. C., Fusilero, Abegail, Geraskina, Anna P., Gholami, Shaieste, González, Grizelle, Gundale, Michael J., López, Mónica Gutiérrez, Hackenberger, Branimir K., Hackenberger, Davorka K., Hernández, Luis M., Hirth, Jeff R., Hishi, Takuo, Holdsworth, Andrew R., Holmstrup, Martin, Hopfensperger, Kristine N., Lwanga, Esperanza Huerta, Huhta, Veikko, Hurisso, Tunsisa T., Iannone, III, Basil V., Iordache, Madalina, Irmler, Ulrich, Ivask, Mari, Jesús, Juan B., Johnson-Maynard, Jodi L., Joschko, Monika, Kaneko, Nobuhiro, Kanianska, Radoslava, Keith, Aidan M., Kernecker, Maria L., Koné, Armand W., Kooch, Yahya, Kukkonen, Sanna T., Lalthanzara, H., Lammel, Daniel R., Lebedev, Iurii M., Le Cadre, Edith, Lincoln, Noa K., López-Hernández, Danilo, Loss, Scott R., Marichal, Raphael, Matula, Radim, Minamiya, Yukio, Moos, Jan Hendrik, Moreno, Gerardo, Morón-Ríos, Alejandro, Motohiro, Hasegawa, Muys, Bart, Neirynck, Johan, Norgrove, Lindsey, Novo, Marta, Nuutinen, Visa, Nuzzo, Victoria, Mujeeb Rahman, P., Pansu, Johan, Paudel, Shishir, Pérès, Guénola, Pérez-Camacho, Lorenzo, Ponge, Jean-François, Prietzel, Jörg, Rapoport, Irina B., Rashid, Muhammad Imtiaz, Rebollo, Salvador, Rodríguez, Miguel Á., Roth, Alexander M., Rousseau, Guillaume X., Rozen, Anna, Sayad, Ehsan, van Schaik, Loes, Scharenbroch, Bryant, Schirrmann, Michael, Schmidt, Olaf, Schröder, Boris, Seeber, Julia, Shashkov, Maxim P., Singh, Jaswinder, Smith, Sandy M., Steinwandter, Michael, Szlavecz, Katalin, Talavera, José Antonio, Trigo, Dolores, Tsukamoto, Jiro, Uribe-López, Sheila, de Valença, Anne W., Virto, Iñigo, Wackett, Adrian A., Warren, Matthew W., Webster, Emily R., Wehr, Nathaniel H., Whalen, Joann K., Wironen, Michael B., Wolters, Volkmar, Wu, Pengfei, Zenkova, Irina V., Zhang, Weixin, Cameron, Erin K., and Eisenhauer, Nico

Published
2021
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32. Globally invariant metabolism but density-diversity mismatch in springtails

Author

Russian Science Foundation, University of Göttingen, Securing Antarctica's Environmental Future (Australia), National Natural Science Foundation of China, South African National Antarctic Programme, Natural Resources Canada, Natural Sciences and Engineering Research Council of Canada, Independent Research Fund Denmark, Estonian Science Foundation, European Research Council, European Commission, German Research Foundation, Agence Nationale de la Recherche (France), Ministère de l'Agriculture et de la Souveraineté alimentaire (France), Ministére de l'Education Nationale de la Recherche et de la Technologie (France), Ministère de la Transition écologique et de la Cohésion des territoires (France), Agence de l'Environnement et de la Maîtrise de l'Energie (France), Fundamental Research Funds for the Central Universities (China), Massey University, Austrian Academy of Sciences, Higher Education Commission (Pakistan), Government of Austria, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Fundação de Apoio à Pesquisa Científica e Tecnológica do Estado de Santa Catarina, Latvian Council of Science, Ministerio de Ciencia e Innovación (España), Ministry of Innovation and Technology (Hungary), Potapov, Anton [0000-0002-4456-1710], Guerra, Carlos A. [0000-0003-4917-2105], Babenko, Anatoly [0000-0002-6077-0619], Bellini, Bruno C. [0000-0001-7881-9436], Chown, Steven L. [0000-0001-6069-5105], Kovac, L'ubomír [0000-0001-8194-2128], Alatalo, Juha M. [0000-0001-5084-850X], Arbea, Javier I. [0000-0001-6122-1331], Bokhorst, Stef [0000-0003-0184-1162], Castaño-Meneses, Gabriela [0000-0002-5405-5221], Chauvat, Matthieu [0000-0002-4831-5904], Chomel, Mathilde [0000-0001-5110-2355], Classen, Aimme T. [0000-0002-6741-3470], Filser, Juliane [0000-0003-1535-6168], Franken, Oscar [0000-0001-8361-3117], Greve, Michelle [0000-0002-6229-8506], Holmstrup, Martin [0000-0001-8395-6582], Homet, Pablo [0000-0002-4285-6953], Janion-Scheepers, C. [0000-0001-5942-7912], Jochum, Malte [0000-0002-8728-1145], Jucevica, Edite [0000-0002-0710-9450], Ferlian, Olga [0000-0002-2536-7592], Oliveira Filho, Luís Carlos I. [0000-0002-9010-481X], Krab, Eveline J. [0000-0001-8262-0198], de Lima, Estevam C. A. [0000-0002-1680-4818], Lindo, Zoë [0000-0001-9942-7204], Lu, Jing-Zhong [0000-0002-4051-8993], Negri, Ilaria [0000-0001-5188-1408], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Palacios-Vargas, José [0000-0001-9097-6813], Pollierer, Melani M. [0000-0002-1498-2362], Rashid, Muhammad Imtiaz [0000-0002-5178-4445], Raymond-Léonard, Laura J. [0000-0002-7324-7843], Saifutdinov, Ruslan [0000-0002-8878-3630], Sayer, Emma J. [0000-0002-3322-4487], Seeber, Julia [0000-0003-0189-7377], Shveenkova, Yulia B. [0000-0003-1887-8551], Sterzynska, Maria [0000-0001-9712-4285], Sun, Xin [0000-0002-3988-7847], Taskaeva, Anastasia A. [0000-0002-4519-8458], Thakur, Madhav P. [0000-0001-9426-1313], Tsiafouli, Maria A. [0000-0003-0203-8347], Twala, Mthokozisi N. [0000-0001-6499-1892], Winck, Bruna [0000-0002-7996-9855], Winkler, Daniel E.[0000-0002-6008-0562], Yin, Rui [0000-0002-4580-1317], Zeppelini, Douglas [0000-0002-9026-1129], Crowther, Thomas W. [0000-0001-5674-8913], Eisenhauer, Nico [0000-0002-0371-6720], Scheu, Stefan [0000-0003-4350-9520], Luciánez Sánchez, Mª J. [0000-0001-5679-0951], Potapov, Mikhail B. [0000-0002-6111-3354], Potapov, Anton, Guerra, Carlos A., van den Hoogen, Johan, Babenko, Anatoly, Bellini, Bruno C., Berg, Matty P., Chown, Steven L., Deharveng, Louis, Kovac, L'ubomír, Kuznetsova, Natalia A., Ponge, Jean-François, Yin, Rui, Zeppelini, Douglas, Crowther, Thomas W., Eisenhauer, Nico, Scheu, Stefan, Potapov, Mikhail B., Russell, David J., Alexandre, Douglas, Alatalo, Juha M., Arbea, Javier I., Bandyopadhyaya, Ipsa, Bernava, Verónica, Bokhorst, Stef, Bolger, Thomas, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chen, Ting-Wen, Chomel, Mathilde, Classen, Aimme T., Cortet, Jérôme, Čuchta, Peter, Pedrosa, Ana M. de la, Ferreira, Susana S. D., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, S., Gagnon Koudji, Essivi, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gómez-Pamies, Diego F., Greve, Michelle, Handa, I. Tanya, Heiniger, Charlène, Holmstrup, Martin, Homet, Pablo, Ivask, Mari, Janion-Scheepers, C., Jochum, Malte, Joimel, Sophie, Jorge, Bruna Claudia S., Jucevica, Edite, Ferlian, Olga, Oliveira Filho, Luís Carlos I., Klauberg-Filho, Osmar, Baretta, Dilmar, Krab, Eveline J., Kuu, Annely, de Lima, Estevam C. A., Lin, Dunmei, Lindo, Zoë, Liu, Amy, Lu, Jing-Zhong, Luciánez Sánchez, Mª J., Marx, Michael T., McCary, Matthew A., Minor, María A., Nakamori, Taizo, Negri, Ilaria, Ochoa-Hueso, Raúl, Palacios-Vargas, José, Pollierer, Melani M., Querner, Pascal, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Rousseau, Laurent, Saifutdinov, Ruslan, Salmon, Sandrine, Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shveenkova, Yulia B., Stebaeva, Sophya K., Sterzynska, Maria, Sun, Xin, Susanti, Winda I., Taskaeva, Anastasia A., Thakur, Madhav P., Tsiafouli, Maria A., Turnbull, Matthew S., Twala, Mthokozisi N., Uvarov, Alexei V., Vernier, Lisa A., Widenfalk, Lina A., Winck, Bruna, Winkler, Daniel E., Wu, Donghui, Xie, Zhijing, Russian Science Foundation, University of Göttingen, Securing Antarctica's Environmental Future (Australia), National Natural Science Foundation of China, South African National Antarctic Programme, Natural Resources Canada, Natural Sciences and Engineering Research Council of Canada, Independent Research Fund Denmark, Estonian Science Foundation, European Research Council, European Commission, German Research Foundation, Agence Nationale de la Recherche (France), Ministère de l'Agriculture et de la Souveraineté alimentaire (France), Ministére de l'Education Nationale de la Recherche et de la Technologie (France), Ministère de la Transition écologique et de la Cohésion des territoires (France), Agence de l'Environnement et de la Maîtrise de l'Energie (France), Fundamental Research Funds for the Central Universities (China), Massey University, Austrian Academy of Sciences, Higher Education Commission (Pakistan), Government of Austria, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Fundação de Apoio à Pesquisa Científica e Tecnológica do Estado de Santa Catarina, Latvian Council of Science, Ministerio de Ciencia e Innovación (España), Ministry of Innovation and Technology (Hungary), Potapov, Anton [0000-0002-4456-1710], Guerra, Carlos A. [0000-0003-4917-2105], Babenko, Anatoly [0000-0002-6077-0619], Bellini, Bruno C. [0000-0001-7881-9436], Chown, Steven L. [0000-0001-6069-5105], Kovac, L'ubomír [0000-0001-8194-2128], Alatalo, Juha M. [0000-0001-5084-850X], Arbea, Javier I. [0000-0001-6122-1331], Bokhorst, Stef [0000-0003-0184-1162], Castaño-Meneses, Gabriela [0000-0002-5405-5221], Chauvat, Matthieu [0000-0002-4831-5904], Chomel, Mathilde [0000-0001-5110-2355], Classen, Aimme T. [0000-0002-6741-3470], Filser, Juliane [0000-0003-1535-6168], Franken, Oscar [0000-0001-8361-3117], Greve, Michelle [0000-0002-6229-8506], Holmstrup, Martin [0000-0001-8395-6582], Homet, Pablo [0000-0002-4285-6953], Janion-Scheepers, C. [0000-0001-5942-7912], Jochum, Malte [0000-0002-8728-1145], Jucevica, Edite [0000-0002-0710-9450], Ferlian, Olga [0000-0002-2536-7592], Oliveira Filho, Luís Carlos I. [0000-0002-9010-481X], Krab, Eveline J. [0000-0001-8262-0198], de Lima, Estevam C. A. [0000-0002-1680-4818], Lindo, Zoë [0000-0001-9942-7204], Lu, Jing-Zhong [0000-0002-4051-8993], Negri, Ilaria [0000-0001-5188-1408], Ochoa-Hueso, Raúl [0000-0002-1839-6926], Palacios-Vargas, José [0000-0001-9097-6813], Pollierer, Melani M. [0000-0002-1498-2362], Rashid, Muhammad Imtiaz [0000-0002-5178-4445], Raymond-Léonard, Laura J. [0000-0002-7324-7843], Saifutdinov, Ruslan [0000-0002-8878-3630], Sayer, Emma J. [0000-0002-3322-4487], Seeber, Julia [0000-0003-0189-7377], Shveenkova, Yulia B. [0000-0003-1887-8551], Sterzynska, Maria [0000-0001-9712-4285], Sun, Xin [0000-0002-3988-7847], Taskaeva, Anastasia A. [0000-0002-4519-8458], Thakur, Madhav P. [0000-0001-9426-1313], Tsiafouli, Maria A. [0000-0003-0203-8347], Twala, Mthokozisi N. [0000-0001-6499-1892], Winck, Bruna [0000-0002-7996-9855], Winkler, Daniel E.[0000-0002-6008-0562], Yin, Rui [0000-0002-4580-1317], Zeppelini, Douglas [0000-0002-9026-1129], Crowther, Thomas W. [0000-0001-5674-8913], Eisenhauer, Nico [0000-0002-0371-6720], Scheu, Stefan [0000-0003-4350-9520], Luciánez Sánchez, Mª J. [0000-0001-5679-0951], Potapov, Mikhail B. [0000-0002-6111-3354], Potapov, Anton, Guerra, Carlos A., van den Hoogen, Johan, Babenko, Anatoly, Bellini, Bruno C., Berg, Matty P., Chown, Steven L., Deharveng, Louis, Kovac, L'ubomír, Kuznetsova, Natalia A., Ponge, Jean-François, Yin, Rui, Zeppelini, Douglas, Crowther, Thomas W., Eisenhauer, Nico, Scheu, Stefan, Potapov, Mikhail B., Russell, David J., Alexandre, Douglas, Alatalo, Juha M., Arbea, Javier I., Bandyopadhyaya, Ipsa, Bernava, Verónica, Bokhorst, Stef, Bolger, Thomas, Castaño-Meneses, Gabriela, Chauvat, Matthieu, Chen, Ting-Wen, Chomel, Mathilde, Classen, Aimme T., Cortet, Jérôme, Čuchta, Peter, Pedrosa, Ana M. de la, Ferreira, Susana S. D., Fiera, Cristina, Filser, Juliane, Franken, Oscar, Fujii, S., Gagnon Koudji, Essivi, Gao, Meixiang, Gendreau-Berthiaume, Benoit, Gómez-Pamies, Diego F., Greve, Michelle, Handa, I. Tanya, Heiniger, Charlène, Holmstrup, Martin, Homet, Pablo, Ivask, Mari, Janion-Scheepers, C., Jochum, Malte, Joimel, Sophie, Jorge, Bruna Claudia S., Jucevica, Edite, Ferlian, Olga, Oliveira Filho, Luís Carlos I., Klauberg-Filho, Osmar, Baretta, Dilmar, Krab, Eveline J., Kuu, Annely, de Lima, Estevam C. A., Lin, Dunmei, Lindo, Zoë, Liu, Amy, Lu, Jing-Zhong, Luciánez Sánchez, Mª J., Marx, Michael T., McCary, Matthew A., Minor, María A., Nakamori, Taizo, Negri, Ilaria, Ochoa-Hueso, Raúl, Palacios-Vargas, José, Pollierer, Melani M., Querner, Pascal, Raschmanová, Natália, Rashid, Muhammad Imtiaz, Raymond-Léonard, Laura J., Rousseau, Laurent, Saifutdinov, Ruslan, Salmon, Sandrine, Sayer, Emma J., Scheunemann, Nicole, Scholz, Cornelia, Seeber, Julia, Shveenkova, Yulia B., Stebaeva, Sophya K., Sterzynska, Maria, Sun, Xin, Susanti, Winda I., Taskaeva, Anastasia A., Thakur, Madhav P., Tsiafouli, Maria A., Turnbull, Matthew S., Twala, Mthokozisi N., Uvarov, Alexei V., Vernier, Lisa A., Widenfalk, Lina A., Winck, Bruna, Winkler, Daniel E., Wu, Donghui, and Xie, Zhijing

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.

Published
2023

33. Effects of Climate and Atmospheric Nitrogen Deposition on Early to Mid-Term Stage Litter Decomposition Across Biomes

Author

TaeOh Kwon, Hideaki Shibata, Sebastian Kepfer-Rojas, Inger K. Schmidt, Klaus S. Larsen, Claus Beier, Björn Berg, Kris Verheyen, Jean-Francois Lamarque, Frank Hagedorn, Nico Eisenhauer, Ika Djukic, TeaComposition Network, Inger Kappel Schmidt, Klaus Steenberg Larsen, Jean Francois Lamarque, Adriano Caliman, Alain Paquette, Alba Gutiérrez-Girón, Alessandro Petraglia, Algirdas Augustaitis, Amélie Saillard, Ana Carolina Ruiz-Fernández, Ana I. Sousa, Ana I. Lillebø, Anderson da Rocha Gripp, Andrea Lamprecht, Andreas Bohner, André-Jean Francez, Andrey Malyshev, Andrijana Andrić, Angela Stanisci, Anita Zolles, Anna Avila, Anna-Maria Virkkala, Anne Probst, Annie Ouin, Anzar A. Khuroo, Arne Verstraeten, Artur Stefanski, Aurora Gaxiola, Bart Muys, Beatriz Gozalo, Bernd Ahrends, Bo Yang, Brigitta Erschbamer, Carmen Eugenia Rodríguez Ortíz, Casper T. Christiansen, Céline Meredieu, Cendrine Mony, Charles Nock, Chiao-Ping Wang, Christel Baum, Christian Rixen, Christine Delire, Christophe Piscart, Christopher Andrews, Corinna Rebmann, Cristina Branquinho, Dick Jan, Dirk Wundram, Dušanka Vujanović, E. Carol Adair, Eduardo Ordóñez-Regil, Edward R. Crawford, Elena F. Tropina, Elisabeth Hornung, Elli Groner, Eric Lucot, Esperança Gacia, Esther Lévesque, Evanilde Benedito, Evgeny A. Davydov, Fábio Padilha Bolzan, Fernando T. Maestre, Florence Maunoury-Danger, Florian Kitz, Florian Hofhansl, Flurin Sutter, Francisco de Almeida Lobo, Franco Leadro Souza, Franz Zehetner, Fulgence Kouamé Koffi, Georg Wohlfahrt, Giacomo Certini, Gisele Daiane Pinha, Grizelle González, Guylaine Canut, Harald Pauli, Héctor A. Bahamonde, Heike Feldhaar, Heinke Jäger, Helena Cristina Serrano, Hélène Verheyden, Helge Bruelheide, Henning Meesenburg, Hermann Jungkunst, Hervé Jactel, Hiroko Kurokawa, Ian Yesilonis, Inara Melece, Inge van Halder, Inmaculada García Quirós, István Fekete, Ivika Ostonen, Jana Borovská, Javier Roales, Jawad Hasan Shoqeir, Jean-Christophe Lata, Jean-Luc Probst, Jeyanny Vijayanathan, Jiri Dolezal, Joan-Albert Sanchez-Cabeza, Joël Merlet, John Loehr, Jonathan von Oppen, Jörg Löffler, José Luis Benito Alonso, José-Gilberto Cardoso-Mohedano, Josep Peñuelas, Joseph C. Morina, Juan Darío Quinde, Juan J. Jiménez, Juha M. Alatalo, Julia Seeber, Julia Kemppinen, Jutta Stadler, Kaie Kriiska, Karel Van den Meersche, Karibu Fukuzawa, Katalin Szlavecz, Katalin Juhos, Katarína Gerhátová, Kate Lajtha, Katie Jennings, Katja Tielbörger, Kazuhiko Hoshizaki, Ken Green, Klaus Steinbauer, Laryssa Pazianoto, Laura Dienstbach, Laura Yahdjian, Laura J. Williams, Laurel Brigham, Lee Hanna, Liesbeth van den Brink, Lindsey Rustad, Lourdes Morillas, Luciana Silva Carneiro, Luciano Di Martino, Luis Villar, Luísa Alícida Fernandes Tavares, Madison Morley, Manuela Winkler, Marc Lebouvier, Marcello Tomaselli, Marcus Schaub, Maria Glushkova, Maria Guadalupe Almazan Torres, Marie-Anne de Graaff, Marie-Noëlle Pons, Marijn Bauters, Marina Mazón, Mark Frenzel, Markus Wagner, Markus Didion, Maroof Hamid, Marta Lopes, Martha Apple, Martin Weih, Matej Mojses, Matteo Gualmini, Matthew Vadeboncoeur, Michael Bierbaumer, Michael Danger, Michael Scherer-Lorenzen, Michal Růžek, Michel Isabellon, Michele Di Musciano, Michele Carbognani, Miglena Zhiyanski, Mihai Puşcaş, Milan Barna, Mioko Ataka, Miska Luoto, Mohammed H. Alsafaran, Nadia Barsoum, Naoko Tokuchi, Nathalie Korboulewsky, Nicolas Lecomte, Nina Filippova, Norbert Hölzel, Olga Ferlian, Oscar Romero, Osvaldo Pinto-Jr, Pablo Peri, Pavel Dan Turtureanu, Peter Haase, Peter Macreadie, Peter B. Reich, Petr Petřík, Philippe Choler, Pierre Marmonier, Quentin Ponette, Rafael Dettogni Guariento, Rafaella Canessa, Ralf Kiese, Rebecca Hewitt, Robert Weigel, Róbert Kanka, Roberto Cazzolla Gatti, Rodrigo Lemes Martins, Romà Ogaya, Romain Georges, Rosario G. Gavilán, Sally Wittlinger, Sara Puijalon, Satoshi Suzuki, Schädler Martin, Schmidt Anja, Sébastien Gogo, Silvio Schueler, Simon Drollinger, Simone Mereu, Sonja Wipf, Stacey Trevathan-Tackett, Stefan Stoll, Stefan Löfgren, Stefan Trogisch, Steffen Seitz, Stephan Glatzel, Susanna Venn, Sylvie Dousset, Taiki Mori, Takanori Sato, Takuo Hishi, Tatsuro Nakaji, Theurillat Jean-Paul, Thierry Camboulive, Thomas Spiegelberger, Thomas Scholten, Thomas J. Mozdzer, Till Kleinebecker, Tomáš Rusňák, Tshililo Ramaswiela, Tsutom Hiura, Tsutomu Enoki, Tudor-Mihai Ursu, Umberto Morra di Cella, Ute Hamer, Valentin Klaus, Valter Di Cecco, Vanessa Rego, Veronika Fontana, Veronika Piscová, Vincent Bretagnolle, Vincent Maire, Vinicius Farjalla, Vittoz Pascal, Wenjun Zhou, Wentao Luo, William Parker, Yasuhiro Utsumi, Yuji Kominami, Zsolt Kotroczó, and Zsolt Tóth

Subjects
tea bag, Green tea, Rooibos tea, litter decomposition, carbon turnover, nitrogen deposition, Forestry, SD1-669.5, Environmental sciences, GE1-350
Abstract

Litter decomposition is a key process for carbon and nutrient cycling in terrestrial ecosystems and is mainly controlled by environmental conditions, substrate quantity and quality as well as microbial community abundance and composition. In particular, the effects of climate and atmospheric nitrogen (N) deposition on litter decomposition and its temporal dynamics are of significant importance, since their effects might change over the course of the decomposition process. Within the TeaComposition initiative, we incubated Green and Rooibos teas at 524 sites across nine biomes. We assessed how macroclimate and atmospheric inorganic N deposition under current and predicted scenarios (RCP 2.6, RCP 8.5) might affect litter mass loss measured after 3 and 12 months. Our study shows that the early to mid-term mass loss at the global scale was affected predominantly by litter quality (explaining 73% and 62% of the total variance after 3 and 12 months, respectively) followed by climate and N deposition. The effects of climate were not litter-specific and became increasingly significant as decomposition progressed, with MAP explaining 2% and MAT 4% of the variation after 12 months of incubation. The effect of N deposition was litter-specific, and significant only for 12-month decomposition of Rooibos tea at the global scale. However, in the temperate biome where atmospheric N deposition rates are relatively high, the 12-month mass loss of Green and Rooibos teas decreased significantly with increasing N deposition, explaining 9.5% and 1.1% of the variance, respectively. The expected changes in macroclimate and N deposition at the global scale by the end of this century are estimated to increase the 12-month mass loss of easily decomposable litter by 1.1–3.5% and of the more stable substrates by 3.8–10.6%, relative to current mass loss. In contrast, expected changes in atmospheric N deposition will decrease the mid-term mass loss of high-quality litter by 1.4–2.2% and that of low-quality litter by 0.9–1.5% in the temperate biome. Our results suggest that projected increases in N deposition may have the capacity to dampen the climate-driven increases in litter decomposition depending on the biome and decomposition stage of substrate.

Published
2021
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34. First records of Opetiopalpus sabulosus Motschulsky, 1840 (Coleoptera, Cleridae) for the European Alps

Author

Michael Steinwandter, Manfred Kahlen, Ulrike Tappeiner, and Julia Seeber

Subjects
Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

The genus Opetiopalpus from the family of checkered beetles (Coleoptera: Cleridae) is represented by 28 species worldwide, with 11 species found in the Palearctic and only four sparsely in Europe prior to 1998. One species, Opetiopalpus sabulosus Motschulsky, 1840, was recently found in Eastern Europe (i.e. Ukraine, Bulgaria, and Moldavia), with the most recent record in 2015 in Eastern Romania; no data are available for Central Europe. During a comprehensive sampling survey in 2016 in the dry inner-Alpine Vinschgau Valley (South Tyrol, Italy), one individual of O. sabulosus was recorded from soil core samples on an extensively managed steppe-like dry pasture at 2000 m a.s.l. This was the first record of O. sabulosus for the European Alps and Central Europe. Further intensive samplings were conducted in 2017 and 2018, in which one additional specimen at a dry pasture at 2500 m confirms the presence of this checkered beetle. Opetiopalpus sabulosus seems to have a cryptic lifestyle and therefore a low detection probability. The locations from where the species was recorded, all steppe-like dry grasslands that are part of the LTSER area “Val Mazia/Matschertal” within the LTER-Italia network, are characterized by low precipitation (730 mm at 2000 m a.s.l.) and traditional low input management (grazing cattle, sheep, and horses). Beside O. sabulosus, other rare and new species for South Tyrol and Italy were found at the sampling area. Therefore, our records underline the high biodiversity and the high nature conservational value of these steppe-like dry grasslands and the importance of long-term research to monitor such species.

Published
2019
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36. Soil Macroinvertebrate Distribution Along a Subalpine Land Use Transect

Author

Katherina Damisch, Michael Steinwandter, Ulrike Tappeiner, and Julia Seeber

Subjects
climate change, european alps, ltser, soil biodiversity, south tyrol, traditional low-input land use, Environmental sciences, GE1-350
Abstract

Little is known about the complex processes within the soil ecosystem and especially about soil animals and their role in supporting and sustaining ecosystem functioning in alpine soils. Currently, environmental and socioeconomic changes, such as climate change and the cessation of traditional cultivation, are influencing mountain ecosystems. Epi- and endogeic animals play an essential role in litter decomposition, humus formation, and pedogenesis and in improving resistance to natural hazards. Therefore, knowledge about the diversity of soil macroinvertebrates is of immediate importance. To test the effect of different management techniques on soil macroinvertebrates, we took 144 soil monoliths from 4 different land use types (with 3 replicates each) in a subalpine area. The land use types were (1) extensively grazed dry pastures, (2) intensively used hay meadows, (3) larch forests, and (4) spruce forests. All sites were comparable in terms of bedrock and exposition. Additionally, we measured pH, organic matter content, and C and N content, as well as soil temperature and soil moisture. We found the highest abundances of macroinvertebrates on the intensively used hay meadows, followed by larch forests, spruce forests, and dry pastures. Diptera larvae and Lumbricidae were predominant in hay meadows, while we found the highest number of Coleoptera larvae, Araneae, and Symphyla in larch forests. In comparison to the other land use types, the dry pastures harbored the most Gastropoda individuals. No unique taxa were observed in the spruce forests. At species level, larch forests had the highest number of species (73), followed by hay meadows (44), spruce forests (42), and dry pasture (36). Despite showing lower biodiversity, we found more rare and specialist species in the extensive dry pastures compared to the more generalist species assemblages in the other habitats, supporting the high conservation value of extensively managed alpine landscapes.

Published
2020
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37. Life‐history traits and physiological limits of the alpine fly Drosophila nigrosparsa (Diptera: Drosophilidae): A comparative study

Author

Martin‐Carl Kinzner, Patrick Krapf, Martina Nindl, Carina Heussler, Stephanie Eisenkölbl, Ary A. Hoffmann, Julia Seeber, Wolfgang Arthofer, Birgit C. Schlick‐Steiner, and Florian M. Steiner

Subjects
Alpine species, Drosophila, laboratory experiments, life‐history traits, physiological limits, Ecology, QH540-549.5
Abstract

Abstract Interspecific variation in life‐history traits and physiological limits can be linked to the environmental conditions species experience, including climatic conditions. As alpine environments are particularly vulnerable under climate change, we focus on the montane‐alpine fly Drosophila nigrosparsa. Here, we characterized some of its life‐history traits and physiological limits and compared these with those of other drosophilids, namely Drosophila hydei, Drosophila melanogaster, and Drosophila obscura. We assayed oviposition rate, longevity, productivity, development time, larval competitiveness, starvation resistance, and heat and cold tolerance. Compared with the other species assayed, D. nigrosparsa is less fecund, relatively long‐living, starvation susceptible, cold adapted, and surprisingly well heat adapted. These life‐history characteristics provide insights into invertebrate adaptations to alpine conditions which may evolve under ongoing climate change.

Published
2018
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40. From diverse to simple: butterfly communities erode from extensive grasslands to intensively used farmland and urban areas

Author

Elia Guariento, Johannes Rüdisser, Konrad Fiedler, Chiara Paniccia, Simon Stifter, Ulrike Tappeiner, Julia Seeber, and Andreas Hilpold

Subjects
Ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

The severe biodiversity decline in European agricultural landscapes demands a specific evaluation of the various land-use practices. Many butterflies in Europe, as an important ecological indicator and pollinator taxon, require human interventions to sustain their populations in cultivated landscapes. However, land-use changes and management intensification are currently responsible for their decline. In this study, we compare butterfly communities occurring on 93 sites in seven widely distributed land-use types, viz. extensive meadows and pastures, semi-intensive meadows, vineyards, arable land, settlements and apple orchards. We recorded a high butterfly diversity in supposedly high nature-conservation value (HNV) grasslands (extensive meadows and pastures). All other land-use types showed significantly lower diversity, with decreasing diversity from semi-intensive meadows to apple orchards. Moreover, functional traits uncovered a general trend: extensive grasslands supported communities of more specialized and sedentary species whilst all other non-HNV land-use types showed communities characterized by mobile generalists. Community composition was driven by the land-use type and explained by plant-based indicator values for nutrients and light and temperature variables. Important life-history traits further correlated with site variables confirming the shift from specialists to generalists along increasing land-use intensity gradients and the effect of the thermal environment on phenological traits. We found supporting evidence for the effectiveness of regional Agri-Environmental Measures for butterfly conservation in European cultural landscapes and for the European conservation schemes to focus at least partly on the preservation of HNV grasslands with extensive management. Furthermore, we clearly show the poor ecological state of butterfly communities in more disturbed land-use types (including urban areas) and propose adopting measures to improve butterflies’ conservation in these environments.

Published
2022

41. First records of Attagenus smirnovi Zhantiev, 1973 from Italy in South Tyrol (Coleoptera: Dermestidae)

Author

Elia Guariento, Filippo Colla, Michael Steinwandter, Jiří Háva, and Julia Seeber

Subjects
Introduced species, Pest species, Carpet beetle, New national record, Zoology, QL1-991
Abstract

The Dermestidae species Attagenus smirnovi Zhantiev, 1973 was discovered in two household in South Tyrol, making it the first official records for this species in Italy. The larvae feeds upon dried organic materials, making this species a common pest in museum collections and households in Central and Northern Europe. The spread of A. smirnovi in Italy was expected but has not yet been recorded. Further, developments of its distribution need to be monitored to prevent damaging infestations, especially to museum collections.

Published
2019
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42. Long-term monitoring of high-elevation terrestrial and aquatic ecosystems in the Alps – a five-year synthesis

Author

Christian Körner, Ulrike-Gabriele Berninger, Andreas Daim, Thomas Eberl, Fernando Fernández Mendoza, Leopold Füreder, Martin Grube, Elisabeth Hainzer, Roland Kaiser, Erwin Meyer, Christian Newesely, Georg Niedrist, Georg H. Niedrist, Jana S. Petermann, Julia Seeber, Ulrike Tappeiner, and Stephen Wickham

Subjects
Ecology, Management, Monitoring, Policy and Law, Nature and Landscape Conservation
Published
2022

43. Handbook Biodiversity Monitoring South Tyrol

Author

Hilpold, Andreas, Anderle, Matteo, Guariento, Elia, Marsoner, Thomas, Mina, Marco, Paniccia, Chiara, Plunger, Julia, Rigo, Francesca, Rüdisser, Johannes, Scotti, Alberto, Seeber, Julia, Steinwandter, Michael, Stifter, Simon, Strobl, Julia, Suárez-Muñoz, María, Vanek, Magdalena, Bottarin, Roberta, and Tappeiner, Ulrike

Abstract

On initiative of the government of the Autonomous Province of Bolzano-Südtirol (Province Bolzano-Südtirol, Region Trentino-Alto Adige, Italy) a biodiversity monitoring program was established, starting with sampling on terrestrial sites in 2019 and on running water sites in 2021. The Biodiversity Monitoring South Tyrol (BMS in short) is a long-term project with repetitions on a regular basis. The BMS was launched and is conducted by the Institute for Alpine Environment of Eurac Research in collaboration with the Museum for Nature South Tyrol and the province of South Tyrol’s Nature Conservation Department, as well as the Department for Agriculture. BMS surveys biodiversity throughout the area of South Tyrol and within the most important habitat types, including near-natural, agricultural, and urban habitats. BMS spans sites from the planar zone up to the high alpine zone. At the center of the monitoring are specified monitoring sites; all surveys are conducted in or directly around these sites. In total, we investigate 320 terrestrial survey sites over a period of five years, which is 64 single sites per year. For the monitoring of running waters (in short aquatic BMS) we investigate 120 sites in total over a period of four years.

Published
2023
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44. Vegetation shapes alpine ground-dwelling macro-invertebrate communities: A case study from the Stilfserjoch/Stelvio National Park (Martell/Martello, South Tyrol, Italy)

Author

Steinwandter Michael, Blasbichler Helene & Seeber Julia

Subjects
pitfall traps, protected area, alpine plant communities, Diplopoda, Coleoptera, Araneae
Abstract

There are few studies on ground-dwelling invertebrates from alpine ecosystems, often with only one or a few samplings per growing season. However, to get a most comprehensive picture of the faunal community present, samplings throughout an entire season are needed. Here we present data on ground-dwelling macro-invertebrate communities from four characteristic alpine habitats (i.e., pasture, dwarf shrub heath, grassland, and fragmented grassland) along a short elevation gradient. They were monitored continuously over almost an entire growing season (June to October) using pitfall traps. We found considerable differences between the four habitat types, with the pasture having the lowest abundances (i.e., activity densities as individuals per sampling day). At the other three sites, biodiversity indices (i.e., Shannon and Evenness) increased with elevation, while the activity densities of the main taxa Araneae, Myriapoda and Coleoptera decreased; they showed a peak activity in mid-July to mid-August. The faunal communities, despite sharing many families among habitat types, showed a clear separation of three groups in the ordination plot (CCA), with the pasture and grassland harbouring similar communities and being well separated from the ones of the dwarf shrub heath and the fragmented grassland. In this study we found distinct ground-dwelling macro-invertebrate communities in four characteristic alpine habitats, despite their spatial proximity. We found the vegetation (i.e., here plant life-forms as proxy) being a strong driver shaping faunal communities. Additionally, the quite intensive grazing activities on the pasture might have negative impact on the invertebrates, while low/no grazing at the more natural higher plots (i.e., grassland and fragments) and a high habitat heterogeneity (at the fragmented grasslands) might be reflected in high numbers of abundances and biodiversity indices. Our study underlines the importance of assessing alpine soil fauna by performing many samplings throughout a growing season to depict most complete faunal communities.

Published
2022
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45. Management Intensification of Hay Meadows and Fruit Orchards Alters Soil Macro- Invertebrate Communities Differently

Author

Elia Guariento, Filippo Colla, Michael Steinwandter, Julia Plunger, Ulrike Tappeiner, and Julia Seeber

Subjects
traditional management, soil biodiversity, sustainable agriculture, management intensity, South Tyrol, mountain agriculture, Agriculture
Abstract

Land-use changes and especially management intensification currently pose a major threat to biodiversity both on and beneath the soil surface. With a comparative approach, we investigated how management intensity in orchards and meadows influences soil macro-invertebrate communities in a North-Italian Alpine region. We compared soil fauna assemblies from traditional low-input sites with respective intensively managed ones. As expected, the taxonomical richness and diversity were lower in both intensive management types. Extensive management of both types revealed similar communities, while intensification led to substantial differences between management types. From these results, we conclude that intensification of agricultural practices severely alters the soil fauna community and biodiversity in general, however, the direction of these changes is governed by the management type. In our view, extensive management, traditional for mountain areas, favors soil fauna communities that have adapted over a long time and can thus be viewed as a sustainable reference condition for new production systems that consider the protection of soil diversity in order to conserve essential ecosystem functions.

Published
2020
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47. 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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48. Global monitoring of soil animal communities using a common methodology

Author

Potapov, Anton. M., Sun, Xin, Barnes, Andrew D., Briones, Maria J., Brown, George G., Cameron, Erin K., Chang, Chih-Han, Cortet, Jerome, Eisenhauer, Nico, Franco, Andre L., Fujii, Saori, Geisen, Stefan, Guerra, Carlos, Gongalsky, Konstantin, Haimi, Jari, Handa, I. Tanya, Janion-Sheepers, Charlene, Karaban, Kamil, Lindo, Zoe, Mathieu, Jerome, Moreno, Maria Laura, Murvanidze, Maka, Nielsen, Uffe, Scheu, Stefan, Schmidt, Olaf, Schneider, Clement, Seeber, Julia, Tsiafouli, Maria, Tuma, Jiri, Tiunov, Alexei, Zaytsev, Andrey S., Ashwood, Frank, Callaham, Mac, Wall, Diana, ANTON M. POTAPOV, University of Göttingen, CHIH-HAN CHANG, National Taiwan University, JÉRÔME CORTET, Université de Montpellier, NICO EISENHAUER, German Centre for Integrative Biodiversity Research, ANDRÉ L. C. FRANCO, Colorado State University, SAORI FUJII, Forestry and Forest Products Research Institute, STEFAN GEISEN, Wageningen University & Research, KONSTANTIN B. GONGALSKY, Russian Academy of Sciences, CARLOS GUERRA, German Centre for Integrative Biodiversity Research, JARI HAIMI, University of Jyväskylä, I. TANYA HANDA, Université du Québec à Montréal, CHARLENE JANION-SCHEEPERS, University of Cape Town, KAMIL KARABAN, Cardinal Stefan Wyszynski University in Warsaw, ZOË LINDO, University of Western Ontario, JÉRÔME MATHIEU, Sorbonne Université, MARÍA LAURA MORENO, Universidad Nacional de Córdoba, MAKA MURVANIDZE, Javakhishvili Tbilisi State University, UFFE N. NIELSEN, Western Sydney University, STEFAN SCHEU, University of Göttingen, OLAF SCHMIDT, University College Dublin, CLEMENT SCHNEIDER, Senckenberg Society for Nature Research, JULIA SEEBER, Eurac Research, MARIA A. TSIAFOULI, Aristotle University, JIRI TUMA, Institute of Soil Biology, ALEXEI V. TIUNOV, Russian Academy of Sciences, ANDREY S. ZAITSEV, Russian Academy of Sciences, FRANK ASHWOOD, Forest Research, Northern Research Station, MAC CALLAHAM, USDA Forest Service, Southern Research Station, DIANA H. WALL, Colorado State University., XIN SUN, Institute of Urban Environment Chinese Academy of Sciences, ANDREW D. BARNES, University of Waikato, MARIA J. I. BRIONES, Universidad de Vigo, GEORGE GARDNER BROWN, CNPF, and ERIN K. CAMERON, Saint Mary’s University

Subjects
maaperä, Fauna do solo, ympäristötekijät, eliöyhteisöt, Soil biodiversity, eliömaantiede, Soil fauna, ekosysteemit (ekologia), tieteellinen yhteistyö, maaperäeläimistö, Biogeography, Biogeografia, monimuotoisuus, Macroecologia, Ecosystem functioning, seuranta, Biodiversidade do solo, Macroecology, ravintoverkot
Abstract

Here we introduce the Soil BON Foodweb Team, a cross-continental collaborative network that aims to monitor soil animal communities and food webs using consistent methodology at a global scale. Soil animals support vital soil processes via soil structure modification, consumption of dead organic matter, and interactions with microbial and plant communities. Soil animal effects on ecosystem functions have been demonstrated by correlative analyses as well as in laboratory and field experiments, but these studies typically focus on selected animal groups or species at one or few sites with limited variation in environmental conditions. The lack of comprehensive harmonised large-scale soil animal community data including microfauna, mesofauna, and macrofauna, in conjunction with related soil functions, microbial communities, and vegetation, limits our understanding of biological interactions in soil systems and how these interactions affect ecosystem functioning. To provide such data, the Soil BON Foodweb Team invites researchers worldwide to use a common methodology to address six long-term goals: (1) to collect globally representative harmonised data on soil micro-, meso-, and macrofauna communities, (2) to describe key environmental drivers of soil animal communities and food webs, (3) to assess the efficiency of conservation approaches for the protection of soil animal communities, (4) to describe soil food webs and their association with soil functioning globally, (5) to establish a global research network for soil biodiversity monitoring and collaborative projects in related topics, (6) to reinforce local collaboration networks and expertise and support capacity building for soil animal research around the world. In this paper, we describe the vision of the global research network and the common sampling protocol to assess soil animal communities and advocate for the use of standard methodologies across observational and experimental soil animal studies. We will use this protocol to conduct soil animal assessments and reconstruct soil food webs at sites associated with the global soil biodiversity monitoring network, Soil BON, allowing us to assess linkages among soil biodiversity, vegetation, soil physico-chemical properties, climate, and ecosystem functions. In the present paper, we call for researchers especially from countries and ecoregions that remain underrepresented in the majority of soil biodiversity assessments to join us. Together we will be able to provide science-based evidence to support soil biodiversity conservation and functioning of terrestrial ecosystems. Made available in DSpace on 2022-04-05T05:00:35Z (GMT). No. of bitstreams: 1 George-SO-Global.pdf: 4233169 bytes, checksum: 9faad657460c5d69e137289ebd0e4488 (MD5) Previous issue date: 2022

Published
2022

50. Global maps of soil temperature

Author

Winkler, Manuela, Plichta, Roman, Buysse, Pauline, Lohila, Annalea, Spicher, Fabien, Boeckx, Pascal, Wild, Jan, Feigenwinter, Iris, Olejnik, Janusz, Risch, Anita, Khuroo, Anzar, Lynn, Joshua, di Cella, Umberto, Schmidt, Marius, Urbaniak, Marek, Marchesini, Luca, Govaert, Sanne, Uogintas, Domas, Assis, Rafael, Medinets, Volodymyr, Abdalaze, Otar, Varlagin, Andrej, Dolezal, Jiri, Myers, Jonathan, Randall, Krystal, Bauters, Marijn, Jimenez, Juan, Stoll, Stefan, Petraglia, Alessandro, Mazzolari, Ana, Ogaya, Romà, Tyystjärvi, Vilna, Hammerle, Albin, Wipf, Sonja, Lorite, Juan, Fanin, Nicolas, Benavides, Juan, Scholten, Thomas, Yu, Zicheng, Veen, G., Treier, Urs, Candan, Onur, Bell, Michael, Hörtnagl, Lukas, Siebicke, Lukas, Vives-Ingla, Maria, Eugster, Werner, Grelle, Achim, Stemkovski, Michael, Theurillat, Jean-Paul, Matula, Radim, Dorrepaal, Ellen, Steinbrecher, Rainer, Alatalo, Juha, Fenu, Giuseppe, Arzac, Alberto, Homeier, Jürgen, Porro, Francesco, Robinson, Sharon, Ghosn, Dany, Haugum, Siri, Ziemblińska, Klaudia, Camargo, José, Zhao, Peng, Niittynen, Pekka, Liljebladh, Bengt, Normand, Signe, Dias, Arildo, Larson, Christian, Peichl, Matthias, Collier, Laura, Myers-Smith, Isla, Zong, Shengwei, Kašpar, Vít, Cooper, Elisabeth, Haider, Sylvia, von Oppen, Jonathan, Cutini, Maurizio, Benito-Alonso, José-Luis, Luoto, Miska, Klemedtsson, Leif, Higgens, Rebecca, Zhang, Jian, Speed, James, Nijs, Ivan, Macek, Martin, Steinwandter, Michael, Poyatos, Rafael, Niedrist, Georg, Curasi, Salvatore, Yang, Yan, Dengler, Jürgen, Géron, Charly, de Pablo, Miguel, Xenakis, Georgios, Kreyling, Juergen, Forte, Tai, Bailey, Joseph, Knohl, Alexander, Goulding, Keith, Wilkinson, Matthew, Kljun, Natascha, Roupsard, Olivier, Stiegler, Christian, Verbruggen, Erik, Wingate, Lisa, Lamprecht, Andrea, Hamid, Maroof, Rossi, Graziano, Descombes, Patrice, Hrbacek, Filip, Bjornsdottir, Katrin, Poulenard, Jérôme, Meeussen, Camille, Guénard, Benoit, Venn, Susanna, Dimarco, Romina, Man, Matěj, Scharnweber, Tobias, Chown, Steven, Pio, Casimiro, Way, Robert, Erickson, Todd, Fernández-Pascual, Eduardo, Pușcaș, Mihai, Orsenigo, Simone, Di Musciano, Michele, Enquist, Brian, Newling, Emily, Tagesson, Torbern, Kemppinen, Julia, Serra-Diaz, Josep, Gottschall, Felix, Schuchardt, Max, Pitacco, Andrea, Jump, Alistair, Exton, Dan, Carnicer, Jofre, Aschero, Valeria, Urban, Anastasiya, Daskalova, Gergana, Santos, Cinthya, Goeckede, Mathias, Bruna, Josef, Andrews, Christopher, Jónsdóttir, Ingibjörg, Casanova-Katny, Angélica, Moriana-Armendariz, Mikel, Ewers, Robert, Pärtel, Meelis, Sagot, Clotilde, Herbst, Mathias, De Frenne, Pieter, Milbau, Ann, Gobin, Anne, Alexander, Jake, Kopecký, Martin, Buchmann, Nina, Kotowska, Martyna, Puchalka, Radoslaw, Penuelas, Josep, Gigauri, Khatuna, Prokushkin, Anatoly, Moiseev, Pavel, Jentsch, Anke, Klisz, Marcin, Barrio, Isabel, Ammann, Christof, Panov, Alexey, Van Geel, Maarten, Finckh, Manfred, Vaccari, Francesco, Erschbamer, Brigitta, Backes, Amanda, Robroek, Bjorn, Campoe, Otávio, Ahmadian, Negar, Boike, Julia, Thomas, Haydn, Pastor, Ada, Smith, Stuart, Pauli, Harald, Kollár, Jozef, de Cássia Guimarães Mesquita, Rita, Michaletz, Sean, Fuentes-Lillo, Eduardo, Urban, Josef, Greenwood, Sarah, Lens, Luc, Van de Vondel, Stijn, Vitale, Luca, Remmele, Sabine, Naujokaitis-Lewis, Ilona, Meusburger, Katrin, Cremonese, Edoardo, Barros, Agustina, Bokhorst, Stef, Svátek, Martin, Allonsius, Camille, Høye, Toke, Smiljanic, Marko, Hik, David, Canessa, Rafaella, van den Hoogen, Johan, Altman, Jan, Björkman, Mats, Cesarz, Simone, Blonder, Benjamin, Kazakis, George, Opedal, Øystein, Assmann, Jakob, Tanentzap, Andrew, Sidenko, Nikita, le Maire, Guerric, Ursu, Tudor-Mihai, Montagnani, Leonardo, Muffler, Lena, Hederová, Lucia, Rubtsov, Alexey, Pauchard, Aníbal, Tielbörger, Katja, Sørensen, Mia, Crowther, Thomas, Remmers, Wolfram, Pitteloud, Camille, Zyryanov, Viacheslav, Nilsson, Matts, Bazzichetto, Manuele, Sallo-Bravo, Jhonatan, Moiseev, Dmitry, Spasojevic, Marko, Haase, Peter, Pearse, William, Tutton, Rosamond, Fazlioglu, Fatih, Siqueira, David, Ardö, Jonas, Nardino, Marianna, Tomaselli, Marcello, Pavelka, Marian, García, Rafael, Nosetto, Marcelo, Bon, Matteo, Semenchuk, Philipp, Choler, Philippe, Scott, Tony, Halbritter, Aud, Dušek, Jiří, Mackenzie, Roy, Stanisci, Angela, Nouvellon, Yann, Kovács, Bence, Haesen, Stef, Veenendaal, Elmar, Juszczak, Radoslaw, Verheijen, Frank, de Andrade, Ana, Verbeeck, Hans, Bader, Maaike, RENAULT, David, Zimmermann, Reiner, Ferlian, Olga, Medinets, Sergiy, Walz, Josefine, Rossi, Christian, Rocha, Adrian, Lembrechts, Jonas, Jactel, Hervé, Brum, Barbara, Aartsma, Peter, Kobler, Johannes, Eisenhauer, Nico, Bjerke, Jarle, Pellissier, Loïc, Ueyama, Masahito, Manca, Giovanni, Bahalkeh, Khadijeh, Meysman, Filip, Niessner, Armin, Curtis, Robin, Six, Johan, Saccone, Patrick, Wang, Runxi, Ahrends, Antje, Okello, Joseph, Kolle, Olaf, Portillo-Estrada, Miguel, Laska, Kamil, Freeman, Erika, Di Cecco, Valter, Ashcroft, Michael, Steinbauer, Klaus, Della Chiesa, Stefano, van den Brink, Liesbeth, Herberich, Maximiliane, Loubet, Benjamin, Barančok, Peter, Hermanutz, Luise, Souza, Bartolomeu, Contador, Tamara, Zhang, Zhaochen, Aerts, Rien, Stephan, Jörg, Chojnicki, Bogdan, Manco, Antonio, Larson, Keith, Mondoni, Andrea, Palaj, Andrej, Schmeddes, Jonas, Hepenstrick, Daniel, Järveoja, Järvi, Manise, Tanguy, Barthel, Matti, Marciniak, Felipe, Weigel, Robert, Rixen, Christian, Turtureanu, Pavel, Hoffrén, Raúl, Iwata, Hiroki, Vittoz, Pascal, Wedegärtner, Ronja, Penczykowski, Rachel, Phartyal, Shyam, Sitková, Zuzana, Nagy, Laszlo, Ujházy, Karol, Heinesch, Bernard, Berauer, Bernd, Ogée, Jérôme, Malfasi, Francesco, Greise, Caroline, Helfter, Carole, Mosedale, Jonathan, Senior, Rebecca, Magliulo, Enzo, Nuñez, Martin, García, María, Wohlfahrt, Georg, Carbognani, Michele, Thomas, Andrew, Eklundh, Lars, Erfanian, Mohammad, Villar, Luis, Maier, Regine, Dahlberg, C., Guglielmin, Mauro, Jucker, Tommaso, Kelly, Julia, Olesen, Jørgen, Lang, Simone, Tanneberger, Franziska, Gharun, Mana, Jackowicz-Korczynski, Marcin, Convey, Peter, Aalto, Juha, Scheffers, Brett, Ujházyová, Mariana, Andres, Christian, Arriga, Nicola, Smith-Tripp, Sarah, Kanka, Róbert, Dick, Jan, Leihy, Rachel, Van Meerbeek, Koenraad, Maclean, Ilya, Vangansbeke, Pieter, Pampuch, Timo, Čiliak, Marek, Guillemot, Joannès, Sarneel, Judith, Souza, José, Svoboda, Miroslav, Björk, Robert, Merinero, Sonia, Zellweger, Florian, Simpson, Elizabeth, Cannone, Nicoletta, Abedi, Mehdi, Seipel, Tim, Klinges, David, Máliš, František, Basham, Edmund, Sewerniak, Piotr, Schwartz, Naomi, Trouillier, Mario, Vandvik, Vigdis, Shekhar, Ankit, Munoz-Rojas, Miriam, Nicklas, Lena, Goded, Ignacio, Manolaki, Paraskevi, Radujković, Dajana, Yu, Kailiang, Phoenix, Gareth, Cifuentes, Edgar, Seeber, Julia, Deronde, Bart, Lenoir, Jonathan, Frei, Esther, Wilmking, Martin, Hylander, Kristoffer, Graae, Bente, Calzado, M., Wang, Yifeng, Hampe, Arndt, Somers, Ben, Mörsdorf, Martin, Jastrzebowski, Szymon, Ejtehadi, Hamid, Terrestrial Ecology (TE), Universidad de Alcalá. Departamento de Geología, Geografía y Medio Ambiente, BioGeoClimate Modelling Lab, Department of Geosciences and Geography, Helsinki Institute of Sustainability Science (HELSUS), Institute for Atmospheric and Earth System Research (INAR), Universiteit Antwerpen = University of Antwerpen [Antwerpen], Ecosystèmes, biodiversité, évolution [Rennes] (ECOBIO), Université de Rennes (UR)-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS), Ecologie fonctionnelle et écotoxicologie des agroécosystèmes (ECOSYS), AgroParisTech-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Laboratoire d'Ecologie Alpine (LECA ), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), LTSER Zone Atelier Alpes, Interactions Sol Plante Atmosphère (UMR ISPA), Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux-Aquitaine (Bordeaux Sciences Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Ecologie fonctionnelle et biogéochimie des sols et des agro-écosystèmes (UMR Eco&Sols), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut de Recherche pour le Développement (IRD)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Département Performances des systèmes de production et de transformation tropicaux (Cirad-PERSYST), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Senckenberg Research Institute and Natural History Museum [Frankfurt], Senckenberg – Leibniz Institution for Biodiversity and Earth System Research - Senckenberg Gesellschaft für Naturforschung, Leibniz Association-Leibniz Association, Biodiversité, Gènes & Communautés (BioGeCo), Université de Bordeaux (UB)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Environnements, Dynamiques et Territoires de Montagne (EDYTEM), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.), SILVA (SILVA), AgroParisTech-Université de Lorraine (UL)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Ecologie et Dynamique des Systèmes Anthropisés - UMR CNRS 7058 (EDYSAN), Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS), 12P1819N, Fonds Wetenschappelijk Onderzoek, ANR-10-LABX-0045,COTE,COntinental To coastal Ecosystems: evolution, adaptability and governance(2010), ANR-13-ISV7-0004,ODYSSEE,De nouvelles voies pour la modélisation des dynamiques d'assemblages d'espèces intégrant l'écologie et l'évolution: le cas des écosystèmes de montagne des Alpes et des Carpates(2013), ANR-20-EBI5-0004,ASICS,ASsessing and mitigating the effects of climate change and biological Invasions on the spatial redistribution of biodiversity in Cold environmentS(2020), ANR-19-CE32-0005,IMPRINT,IMpacts des PRocessus mIcroclimatiques sur la redistributioN de la biodiversiTé forestière en contexte de réchauffement du macroclimat(2019), European Project: 774124 , H2020,H2020-SFS-2017-2,SUPER-G (2018), European Project: 282910,EC:FP7:ENV,FP7-ENV-2011,ECLAIRE(2011), European Project: 641918,H2020,H2020-SC5-2014-two-stage,AfricanBioServices(2015), European Project: 678841,H2020,ERC-2015-STG,NICH(2016), European Project: 871128,eLTER PLUS (2020), European Project: 861974, H2020,SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy,SustainSahel(2020), Lembrechts, Jonas J [0000-0002-1933-0750], van den Hoogen, Johan [0000-0001-6624-8461], Aalto, Juha [0000-0001-6819-4911], De Frenne, 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Steinwandter, Michael [0000-0001-8545-6047], Stemkovski, Michael [0000-0002-9854-887X], Stephan, Jörg G [0000-0001-6195-7867], Stiegler, Christian [0000-0002-0130-2401], Stoll, Stefan [0000-0002-3656-417X], Svátek, Martin [0000-0003-2328-4627], Svoboda, Miroslav [0000-0003-4050-3422], Tagesson, Torbern [0000-0003-3011-1775], Tanentzap, Andrew J [0000-0002-2883-1901], Tanneberger, Franziska [0000-0002-4184-9671], Theurillat, Jean-Paul [0000-0002-1843-5809], Thomas, Haydn JD [0000-0001-9099-6304], Thomas, Andrew D [0000-0002-1360-1687], Tomaselli, Marcello [0000-0003-4208-3433], Treier, Urs Albert [0000-0003-4027-739X], Trouillier, Mario [0000-0001-9151-7686], Turtureanu, Pavel Dan [0000-0002-7422-3106], Tyystjärvi, Vilna A [0000-0002-1175-5463], Ueyama, Masahito [0000-0002-4000-4888], Ujházy, Karol [0000-0002-0228-1737], Ujházyová, Mariana [0000-0002-5546-1547], Uogintas, Domas [0000-0002-3937-1218], Urban, Josef [0000-0003-1730-947X], Urbaniak, Marek [0000-0002-1225-9170], Ursu, 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Wilkinson, Matthew [0000-0002-3858-553X], Wilmking, Martin [0000-0003-4964-2402], Wingate, Lisa [0000-0003-1921-1556], Winkler, Manuela [0000-0002-8655-9555], Wipf, Sonja [0000-0002-3492-1399], Wohlfahrt, Georg [0000-0003-3080-6702], Xenakis, Georgios [0000-0002-2950-4101], Yang, Yan [0000-0003-0858-7603], Yu, Zicheng [0000-0003-2358-2712], Yu, Kailiang [0000-0003-4223-5169], Zellweger, Florian [0000-0003-1265-9147], Zhang, Jian [0000-0003-0589-6267], Zhao, Peng [0000-0003-3289-5067], Ziemblińska, Klaudia [0000-0003-4070-6553], Zimmermann, Reiner [0000-0002-8724-941X], Zong, Shengwei [0000-0002-3583-6110], Zyryanov, Viacheslav I [0000-0002-1748-4801], Nijs, Ivan [0000-0003-3111-680X], Lenoir, Jonathan [0000-0003-0638-9582], Apollo - University of Cambridge Repository, Department of Biology (University of Antwerp), and University of Antwerp (UA)

Subjects
0106 biological sciences, Zoology and botany: 480 [VDP], Q1, 01 natural sciences, Global map, SDG 13 - Climate Action, Soil temperature, Zone climatique, bepress|Physical Sciences and Mathematics|Environmental Sciences, bioclimatic variables, global maps, microclimate, near-surface temperatures, soil temperature, soil-dwelling organisms, temperature offset, weather stations, ComputingMilieux_MISCELLANEOUS, General Environmental Science, Global and Planetary Change, GB, Geology, PE&RC, 6. Clean water, Near-surface soil temperature, international, [SDE]Environmental Sciences, 551: Geologie und Hydrologie, Plantenecologie en Natuurbeheer, Température du sol, Near-surface temperature, Near-surface temperatures, Biologie, P40 - Météorologie et climatologie, bepress|Physical Sciences and Mathematics|Earth Sciences, MITIGATION, bepress|Life Sciences|Ecology and Evolutionary Biology, bepress|Physical Sciences and Mathematics|Oceanography and Atmospheric Sciences and Meteorology|Climate, Bioclimatic variables, Settore BIO/07 - ECOLOGIA, 577: Ökologie, Biology, Ecosystem, Ekologi, Changement climatique, Cartographie, Biology and Life Sciences, Microclimate, 15. Life on land, bepress|Physical Sciences and Mathematics|Environmental Sciences|Environmental Monitoring, Agriculture and Soil Science, 0401 agriculture, forestry, and fisheries, Temperature offset, Weather stations, Plan_S-Compliant-OA, Soil, bepress|Life Sciences, ddc:550, Geología, Ecology, Temperature, 04 agricultural and veterinary sciences, Biological Sciences, FOREST, Weather station, Variation saisonnière, Chemistry, Bioclimatologie, bepress|Physical Sciences and Mathematics, 1171 Geosciences, Technology and Engineering, Climate Change, Plant Ecology and Nature Conservation, MOISTURE, LITTER DECOMPOSITION, PERMAFROST, ddc:570, SUITABILITY, G1, bepress|Physical Sciences and Mathematics|Oceanography and Atmospheric Sciences and Meteorology, Global maps, VDP::Mathematics and natural scienses: 400::Zoology and botany: 480, Environmental Chemistry, Zoologiske og botaniske fag: 480 [VDP], Soil-dwelling organisms, Aquatic Ecology, P30 - Sciences et aménagement du sol, Bioclimatic variable, SNOW-COVER, bepress|Physical Sciences and Mathematics|Earth Sciences|Soil Science, Earth sciences, PLANT-RESPONSES, CLIMATIC CONTROLS, Soil-dwelling organism, 13. Climate action, Earth and Environmental Sciences, VDP::Matematikk og naturvitenskap: 400::Zoologiske og botaniske fag: 480, 040103 agronomy & agriculture, Réchauffement global, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Environmental Sciences, 010606 plant biology & botany
Abstract

JJL received funding from the Research Foundation Flanders (grant nr. 12P1819N). The project received funding from the Research Foundation Flanders (grants nrs, G018919N, W001919N). JVDH and TWC received funding from DOB Ecology. JA received funding from the University of Helsinki, Faculty of Science (MICROCLIM, grant nr. 7510145) and Academy of Finland Flagship (grant no. 337552). PDF, CM and PV received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (ERC Starting Grant FORMICA 757833). JK received funding from the Arctic Interactions at the University of Oulu and Academy of Finland (318930, Profi 4), Maaja vesitekniikan tuki ry., Tiina and Antti Herlin Foundation, Nordenskiold Samfundet and Societas pro Fauna et Flora Fennica. MK received funding from the Czech Science Foundation (grant nr. 20-28119S) and the Czech Academy of Sciences (grant nr. RVO 67985939). TWC received funding from National Geographic Society grant no. 9480-14 and WW-240R-17. MA received funding from CISSC (program ICRP (grant nr:2397) and INSF (grant nr: 96005914). The Royal Botanic Garden Edinburgh is supported by the Scottish Government's Rural and Environment Science and Analytical Services Division. JMA received funding from the Funding Org. Qatar Petroleum (grant nr. QUEX-CAS-QP-RD-18/19). JMA received funding from the European Union's Horizon 2020 research and innovation program (grant no. 678841) and from the Swiss National Science Foundation (grant no. 31003A_176044). JA was supported by research grants LTAUSA19137 (program INTER-EXCELLENCE, subprogram INTER-ACTION) provided by Czech Ministry of Education, Youth and Sports and 20-05840Y of the Czech Science Foundation. AA was supported by the Ministry of Science and Higher Education of the Russian Federation (grant FSRZ-2020-0014). SN, UAT, JJA, and JvO received funding from the Independent Research Fund Denmark (7027-00133B). LvdB, KT, MYB and RC acknowledge funding from the German Research Foundation within the Priority Program SPP-1803 'EarthShape: Earth Surface Shaping by Biota' (grant TI 338/14-1&2 and BA 3843/6-1). PB was supported by grant project VEGA of the Ministry of Education of the Slovak Republic and the Slovak Academy of Sciences No. 2/0132/18. Forest Research received funding from the Forestry Commission (climate change research programme). JCB acknowledges the support of Universidad Javeriana. JLBA received funding from the Direccion General de Cambio Climatico del Gobierno de Aragon; JLBA acknowledges fieldwork assistance by Ana Acin, the Ordesa y Monte Perdido National Park, and the Servicio de Medio Ambiente de Soria de la Junta de Castilla y Leon. RGB and MPB received funding from BECC - Biodiversity and Ecosystem services in a Changing Climate. MPB received funding from The European Union's Horizon 2020 research and innovation program under the Marie Skodowska-Curie Grant Agreement No. 657627 and The Swedish Research Council FORMAS - future research leaders No. 2016-01187. JB received funding from the Czech Academy of Sciences (grant nr. RVO 67985939). NB received funding from the SNF (grant numbers 40FA40_154245, 20FI21_148992, 20FI20_173691, 407340_172433) and from the EU (contract no. 774124). ICOS EU research infrastructure. EU FP7 NitroEurope. EU FP7 ECLAIRE. The authors from Biological Dynamics of Forest Fragments Project, PDBFF, Instituto Nacional de Pesquisas da Amazonia, Brazil were supported by the MCTI/CNPq/FNDCT - AcAo Transversal no68/2013 - Programa de Grande Escala da Biosfera-Atmosfera na Amazonia - LBA; Project 'Como as florestas da Amazonia Central respondem as variacoes climaticas? Efeitos sobre dinamica florestal e sinergia com a fragmentacAo florestal'. This is the study 829 of the BDFFP Technical Series. to The EUCFLUX Cooperative Research Program and Forest Science and Research Institute-IPEF. NC acknowledges funding by Stelvio National Park. JC was funded by the Spanish government grant CGL2016-78093-R. ANID-FONDECYT 1181745 AND INSTITUTO ANTARTICO CHILENO (INACH FR-0418). SC received funding from the German Research Foundation (grant no. DFG- FZT 118, 202548816). The National Science Foundation, Poland (grant no. UMO-2017/27/B/ST10/02228), within the framework of the 'Carbon dioxide uptake potential of sphagnum peatlands in the context of atmospheric optical parameters and climate changes' (KUSCO2) project. SLC received funding from the South African National Research Foundation and the Australian Research Council. FM, M, KU and MU received funding from Slovak Research and Development Agency (no. APVV-19-0319). Instituto Antartico Chileno (INACH_RT-48_16), Iniciativa Cientifica Milenio Nucleo Milenio de Salmonidos Invasores INVASAL, Institute of Ecology and Biodiversity (IEB), CONICYT PIA APOYO CCTE AFB170008. PC is supported by NERC core funding to the BAS 'Biodiversity, Evolution and Adaptation Team. EJC received funding from the Norwegian Research Council (grant number 230970). GND was supported by NERC E3 doctoral training partnership grant (NE/L002558/1) at the University of Edinburgh and the Carnegie Trust for the Universities of Scotland. Monitoring stations on Livingston Island, Antarctica, were funded by different research projects of the Gobern of Spain (PERMAPLANET CTM2009-10165-E; ANTARPERMA CTM2011-15565-E; PERMASNOW CTM2014-52021-R), and the PERMATHERMAL arrangement between the University of Alcala and the Spanish Polar Committee. GN received funding from the Autonomous Province of Bolzano (ITA). The infrastructure, part of the UK Environmental Change Network, was funded historically in part by ScotNature and NERC National Capability LTS-S: UK-SCAPE; NE/R016429/1). JD was supported by the Czech Science Foundation (GA17-19376S) and MSMT (LTAUSA18007). ED received funding from the Kempe Foundation (JCK-1112 and JCK-1822). The infrastructure was supported by the Ministry of Education, Youth and Sports of the Czech Republic within the National Sustainability Programme I (NPU I), grant number LO1415 and by the project for national infrastructure support CzeCOS/ICOS Reg. No. LM2015061. NE received funding from the German Research Foundation (DFG- FZT 118, 202548816). BE received funding from the GLORIA-EU project no EVK2-CT2000-00056, the Autonomous Province of Bolzano (ITA), from the Tiroler Wissenschaftsfonds and from the University of Innsbruck. RME was supported by funding to the SAFE Project from the Sime Darby Foundation. OF received funding from the German Research Foundation (DFG- FZT 118, 202548816). EFP was supported by the Jardin Botanico Atlantico (SV-20-GIJON-JBA). MF was funded by the German Federal Ministry of Education and Research (BMBF) in the context of The Future Okavango (Grant No. 01LL0912) and SASSCAL (01LG1201M; 01LG1201N) projects. EFL received funding from ANID PIA / BASAL FB210006. RAG received funding from Fondecyt 11170516, CONICYT PIA AFB170008 and ANID PIA / BASAL FB210006. MBG received funding from National Parks (DYNBIO, #1656/2015) and The Spanish Research Agency (VULBIMON, #CGL2017-90040-R). MG received funding from the Swiss National Science Foundation (ICOS-CH Phase 2 20FI20_173691). FG received funding from the German Research Foundation (DFG- FZT 118, 202548816). KG and TS received funding from the UK Biotechnology and Biological Research Council (grant = 206/D16053). SG was supported by the Research Foundation Flanders (FWO) (project G0H1517N). KJ and PH received funding from the EU Horizon2020 INFRAIA project eLTER-PLUS (871128), the project LTER-CWN (FFG, F&E Infrastrukturforderung, project number 858024) and the Austrian Climate Research Program (ACRP7 - CentForCSink - KR14AC7K11960). SH and ARB received funding through iDiv funded by the German Research Foundation (DFG- FZT 118, 202548816). LH received funding from the Czech Science Foundation (grant nr. 20-28119S) and the Czech Academy of Sciences (grant nr. RVO 67985939). MH received funding from the Baden-Wurttemberg Ministry of Science, Research and Arts via the project DRIeR (Drought impacts, processes and resilience: making the in-visible visible). LH received funding from International Polar Year, Weston Foundation, and ArcticNet. DH received funding from Natural Sciences and Engineering Council (Canada) (RGPIN-06691). TTH received funding from Independent Research Fund Denmark (grant no. 8021-00423B) and Villum Foundation (grant no. 17523). Ministry of Education, Youth and Sports of the Czech Republic (projects LM2015078, VAN2020/01 and CZ.02.1.01/0.0/0.0/16_013/0001708). KH, CG and CJD received funding from Bolin Centre for Climate Research, Stockholm University and from the Swedish research council Formas [grant n:o 2014-00530 to KH]. JJ received funding from the Funding Org. Swedish Forest Society Foundation (grant nr. 2018-485-Steg 2 2017) and Swedish Research Council FORMAS (grant nr. 2018-00792). AJ received funding from the German Federal Ministry of Education and Research BMBF (Grant Nr. FKZ 031B0516C SUSALPS) and the Oberfrankenstiftung (Grant Nr. OFS FP00237). ISJ received funding from the Energy Research Fund (NYR-11 - 2019, NYR-18 - 2020). TJ was supported by a UK NERC Independent Research Fellowship (grant number: NE/S01537X/1). RJ received funding from National Science Centre of Poland (grant number: 2016/21/B/ST10/02271) and Polish National Centre for Research and Development (grant number: Pol-Nor/203258/31/2013). VK received funding from the Czech Academy of Sciences (grant nr. RVO 67985939). AAK received funding from MoEFCC, Govt of India (AICOPTAX project F. No. 22018/12/2015/RE/Tax). NK received funding from FORMAS (grants nr. 2018-01781, 2018-02700, 2019-00836), VR, support from the research infrastructure ICOS-SE. BK received funding from the National Research, Development and Innovation Fund of Hungary (grant nr. K128441). Ministry of Education, Youth and Sports of the Czech Republic (projects LM2015078 and CZ.02.1.01/0.0/0.0/16_013/0001708). Project B1-RNM-163-UGR-18-Programa Operativo FEDER 2018, partially funded data collection. Norwegian Research Council (NORKLIMA grants #184912 and #244525) awarded to Vigdis Vandvik. MM received funding from the Czech Science Foundation (grant nr. 20-28119S) and the Czech Academy of Sciences (grant nr. RVO 67985939). Project CONICYT-PAI 79170119 and ANID-MPG 190029 awarded to Roy Mackenzie. This work was partly funded by project MIUR PON Cluster OT4CLIMA. RM received funding from the SNF project number 407340_172433. FM received funding from the Stelvio National Park. PM received funding from AIAS-COFUND fellowship programme supported by the Marie Skodowska- Curie actions under the European Union's Seventh Framework Pro-gramme for Research, Technological development and Demonstration (grant agreement no 609033) and the Aarhus University Research Foundation, Denmark. RM received funding from the Ministry of Education, Youth and Sports of the Czech Republic (project LTT17033). SM and VM received funding from EU FP6 NitroEurope (grant nr. 17841), EU FP7 ECLAIRE (grant nr. 282910), the Ministry of Education and Science of Ukraine (projects nr. 505, 550, 574, 602), GEF-UNEP funded "Toward INMS" project (grant nr. NEC05348) and ENI CBC BSB PONTOS (grant nr. BSB 889). The authors from Biological Dynamics of Forest Fragments Project, PDBFF, Instituto Nacional de Pesquisas da Amazonia, Brazil were supported by the MCTI/CNPq/FNDCT - AcAo Transversal no68/2013 - Programa de Grande Escala da Biosfera-Atmosfera na Amazonia - LBA; Project 'Como as florestas da Amazonia Central respondem as variacoes climaticas? Efeitos sobre dinamica florestal e sinergia com a fragmentacAo florestal'. FJRM was financially supported by the Netherlands Organization for Scientific Research (VICI grant 016.VICI.170.072) and Research Foundation Flanders (FWO-SBO grant S000619N). STM received funding from New Frontiers in Research Fund-Exploration (grant nr. NFRF-2018-02043) and NSERC Discovery. MMR received funding from the Australian Research Council Discovery Early Career Research Award (grant nr. DE180100570). JAM received funding from the National Science Foundation (DEB 1557094), International Center for Advanced Renewable Energy and Sustainability (I-CARES) at Washington University in St. Louis, ForestGEO, and Tyson Research Center. IM-S was funded by the UK Natural Environment Research Council through the ShrubTundra Project (NE/M016323/1). MBN received funding from FORMAS, VR, Kempe Foundations support from the research infrastructures ICOS and SITES. MDN received funding from CONICET (grant nr. PIP 112-201501-00609). Spanish Ministry of Science grant PID2019-110521GB-I00 and Catalan government grant 2017-1005. French National Research Agency (ANR) in the frame of the Cluster of Excellence COTE (project HydroBeech, ANR-10-LABX-45). VLIR-OUS, under the Institutional University Coorperation programme (IUC) with Mountains of the Moon University. Project LAS III 77/2017/B entitled: \"Estimation of net carbon dioxide fluxes exchanged between the forest ecosystem on post-agricultural land and between the tornado-damaged forest area and the atmosphere using spectroscopic and numerical methods\", source of funding: General Directorate of State Forests, Warsaw, Poland. Max Planck Society (Germany), RFBR, Krasnoyarsk Territory and Krasnoyarsk Regional Fund of Science, project number 20-45-242908. Estonian Research Council (PRG609), and the European Regional Development Fund (Centre of Excellence EcolChange). Canada-Denmark Arctic Research Station Early Career Scientist Exchange Program, from Polar knowledge Canada (POLAR) and the Danish Agency for Science and Higher Education. AP received funding from Fondecyt 1180205, CONICYT PIA AFB170008 and ANID PIA / BASAL FB210006. MP received funding from the Funding Org. Knut and Alice Wallenberg Foundation (grant nr. 2015.0047), and acknowledges funding from the Swedish Research Council (VR) with contributing research institutes to both the SITES and ICOS Sweden infrastructures. JP and RO were funded by the Spanish Ministry of Science grant PID2019-110521GB-I00, the fundacion Ramon Areces grant ELEMENTAL-CLIMATE, and the Catalan government grant 2017-1005. MPB received funding from the Svalbard Environmental Protection Fund (grant project number 15/128) and the Research Council of Norway (Arctic Field Grant, project number 269957). RP received funding from the Ministry of Education, Youth and Sports of the Czech Republic (grant INTER-TRANSFER nr. LTT20017). LTSER Zone Atelier Alpes; Federation FREE-Alpes. RP received funding from a Humboldt Fellowship for Experienced Researchers. Prokushkin AS and Zyryanov VI contribution has been supported by the RFBR grant #18-05-60203-Arktika. RPu received founding from the Polish National Science Centre (grant project number 2017/27/B/NZ8/00316). ODYSSEE project (ANR-13-ISV7-0004, PN-II-ID-JRP-RO-FR-2012). KR was supported through an Australian Government Research Training Program Scholarship. Fieldwork was supported by the Global Challenges program at the University of Wollongong, the ARC the Australian Antarctic Division and INACH. DR was funded by the project SUBANTECO IPEV 136 (French Polar Institute Paul-Emile Victor), Zone Atelier CNRS Antarctique et Terres Australes, SAD Region Bretagne (Project INFLICT), BiodivERsa 2019-2020 BioDivClim call 'ASICS' (ANR-20-EBI5-0004). SAR received funding from the Australian Research Council. NSF grant #1556772 to the University of Notre Dame. Pavia University (Italy). OR received funding from EU-LEAP-Agri (RAMSES II), EU-DESIRA (CASSECS), EU-H2020 (SustainSahel), AGROPOLIS and TOTAL Foundations (DSCATT), CGIAR (GLDC). AR was supported by the Russian Science Foundation (Grant 18-74-10048). Parc national des Ecrins. JS received funding from Vetenskapsradet grant nr (No: 2014-04270), ALTER-net multi-site grant, River LIFE project (LIFE08 NAT/S/000266), Flexpeil. Helmholtz Association long-term research program TERENO (Terrestrial Environmental Observatories). PS received funding from the Polish Ministry of Science and Higher Education (grant nr. N N305 304840). AS acknowledges funding by ETH Zurich project FEVER ETH-27 19-1. LSC received funding from NSERC Canada Graduate Scholarship (Doctoral) Program; LSC was also supported by ArcticNet-NCE (insert grant #). Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (141513/2017-9); FundacAo Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro (E26/200.84/2019). ZS received funding from the SRDA (grants nos. APVV-16-0325 and APVV-20-0365) and from the ERDF (grant no. ITMS 313011S735, CE LignoSilva). JS, MB and CA received funding from core budget of ETH Zurich. State excellence Program M-V \"WETSCAPES\". AfricanBioServices project funded by the EU Horizon 2020 grant number 641918. The authors from KIT/IMK-IFU acknowledge the funding received within the German Terrestrial Environmental Observatories (TERENO) research program of the Helmholtz Association and from the Bavarian Ministry of the Environment and Public Health (UGV06080204000). Deutsche Forschungsgemeinschaft (DFG, German Research Foundation), project number 192626868, in the framework of the collaborative German-Indonesian research project CRC 990 (SFB): 'EFForTS, Ecological and Socioeconomic Functions of Tropical Lowland Rainforest Transformation Systems (Sumatra, Indonesia)'. MS received funding from the Ministry of Education, Youth and Sports of the Czech Republic (grant nr. INTER-TRANSFER LTT19018). TT received funding from the Swedish National Space Board (SNSB Dnr 95/16) and the CASSECS project supported by the European Union. HJDT received funding from the UK Natural Environment Research Council (NERC doctoral training partnership grant NE/L002558/1). German Science Foundation (DFG) GraKo 2010 \"Response\". PDT received funding from the MEMOIRE project (PN-III-P1-1.1-PD2016-0925). Arctic Challenge for Sustainability II (ArCS II; JPMXD1420318865). JU received funding from Czech Science Foundation (grant nr. 21-11487S). TU received funding from the Romanian Ministry of Education and Research (CCCDI - UEFISCDI -project PN-III-P2-2.1-PED-2019-4924 and PN2019-2022/19270201-Ctr. 25N BIODIVERS 3-BIOSERV). AV acknowledge funding from RSF, project 21-14-00209. GFV received funding from the Dutch Research Council NWO (Veni grant, no. 863.14.013). Australian Research Council Discovery Early Career Research Award DE140101611. FGAV received funding from the Portuguese Science Foundation (FCT) under CEECIND/02509/2018, CESAM (UIDP/50017/2020+UIDB/50017/2020), FCT/MCTES through national funds, and the co-funding by the FEDER, within the PT2020 Partnership Agreement and Compete 2020. Ordesa y Monte Perdido National Park. MVI received funding from the Spanish Ministry of Science and Innovation through a doctoral grant (FPU17/05869). JW received funding from the Czech Science Foundation (grant nr. 20-28119S) and the Czech Academy of Sciences (grant nr. RVO 67985939). CR and SW received funding from the Swiss Federal Office for the Environment (FOEN) and the de Giacomi foundation. YY received funding from the National Natural Science Foundation of China (Grant no. 41861134039 and 41941015). ZY received funding from the National Natural Science Foundation of China (grant nr. 41877458). FZ received funding from the Swiss National Science Foundation (grant nr. 172198 and 193645). PZ received funding from the Funding Org. Knut and Alice Wallenberg Foundation (grant no. 2015.0047). JL received funding from (i) the Agence Nationale de la Recherche (ANR), under the framework of the young investigators (JCJC) funding instrument (ANR JCJC Grant project NoANR-19-CE32-0005-01: IMPRINT) (ii) the Centre National de la Recherche Scientifique (CNRS) (Defi INFINITI 2018: MORFO); and the Structure Federative de Recherche (SFR) Condorcet (FR CNRS 3417: CREUSE). Fieldwork in the Arctic got facilitated by funding from the EU INTERACT program. SN, UAT, JJA and JvO would like to thank the field team of the Vegetation Dynamics group for their efforts and hard work. We acknowledge Dominique Tristan for letting access to the field. For the logistic support the crew of INACH and Gabriel de Castilla Station team on Deception Island. We thank the Inuvialuit and Kluane First Nations for the opportunity to work on their land. MAdP acknowledges fieldwork assistance and logistics support to Unidad de Tecnologia Marina CSIC, and the crew of Juan Carlos I and Gabriel de Castilla Spanish Antarctic Stations, as well as to the different colleagues from UAH that helped on the instrument maintenance. ERF acknowledges fieldwork assistance by Martin Heggli. MBG acknowledges fieldwork and technical assistance by P Abadia, C Benede, P Bravo, J Gomez, M Grasa, R Jimenez, H Miranda, B Ponz, J Revilla and P Tejero and the Ordesa and Monte Perdido National Park staff. LH acknowledges field assistance by John Jacobs, Andrew Trant, Robert Way, Darroch Whitaker; we acknowledge the Inuit of Nunatsiavut, and the Co-management Board of Torngat Mountains National Park for their support of this project and acknowledge that the field research was conducted on their traditional lands. We thank our many bear guides, especially Boonie, Eli, Herman, John and Maria Merkuratsuk. AAK acknowledges field support of Akhtar Malik, Rameez Ahmad. Part of microclimatic records from Saxony was funded by the Saxon Switzerland National Park Administration. Tyson Research Center. JP acknowledges field support of Emmanuel Malet (Edytem) and Rangers of Reserves Naturelles de Haute-Savoie (ASTERS). Practical help: Roel H. Janssen, N. Huig, E. Bakker, Schools in the tepaseforsoket, Forskar fredag, Erik Herberg. The support by the Bavarian Forest National Park administration is highly appreciated. LvdB acknowledges CONAF and onsite support from the park rangers from PN Pan de Azucar, PN La Campana, PN Nahuelbuta and from communidad agricola Quebrada de Talca. JL and FS acknowledge Manuel Nicolas and all forest officers from the Office National des Forets (ONF) who are in charge of the RENECOFOR network and who provided help and local support for the installation and maintenance of temperature loggers in the field., Research in global change ecology relies heavily on global climatic grids derived from estimates of air temperature in open areas at around 2 m above the ground. These climatic grids do not reflect conditions below vegetation canopies and near the ground surface, where critical ecosystem functions occur and most terrestrial species reside. Here, we provide global maps of soil temperature and bioclimatic variables at a 1-km2 resolution for 0–5 and 5–15 cm soil depth. These maps were created by calculating the difference (i.e. offset) between in situ soil temperature measurements, based on time series from over 1200 1-km2 p ixels ( summarized f rom 8 519 u nique t emperature sensors) across all the world's major terrestrial biomes, and coarse-grained air temperature estimates from ERA5-Land (an atmospheric reanalysis by the European Centre for Medium-Range Weather Forecasts). We show that mean annual soil temperature differs markedly from the corresponding gridded air temperature, by up to 10°C (mean = 3.0 ± 2.1°C), with substantial variation across biomes and seasons. Over the year, soils in cold and/or dry biomes are substantially warmer (+3.6 ± 2.3°C) than gridded air temperature, whereas soils in warm and humid environments are on average slightly cooler (−0.7 ± 2.3°C). The observed substantial and biome-specific offsets emphasize that the projected impacts of climate and climate change on near-surface biodiversity and ecosystem functioning are inaccurately assessed when air rather than soil temperature is used, especially in cold environments. The global soil-related bioclimatic variables provided here are an important step forward for any application in ecology and related disciplines. Nevertheless, we highlight the need to fill remaining geographic gaps by collecting more in situ measurements of microclimate conditions to further enhance the spatiotemporal resolution of global soil temperature products for ecological applications., FWO G018919N W001919N 12P1819N, DOB Ecology, University of Helsinki, Faculty of Science (MICROCLIM) 7510145, European Research Council (ERC) FORMICA 757833, Arctic Interactions at the University of Oulu, Academy of Finland 318930 337552, Maaja vesitekniikan tuki ry., Tiina and Antti Herlin Foundation, Nordenskiold Samfundet, Societas pro Fauna et Flora Fennica, Grant Agency of the Czech Republic 20-28119S 20-05840Y GA17-19376S 21-11487S, Czech Academy of Sciences RVO 67985939, National Geographic Society 9480-14 WW-240R-17, CISSC (program ICRP) 2397, Iran National Science Foundation (INSF) 96005914, Scottish Government's Rural and Environment Science and Analytical Services Division, Qatar Petroleum QUEX-CAS-QP-RD-18/19, European Union's Horizon 2020 research and innovation program 678841, Swiss National Science Foundation (SNSF), European Commission 172198 193645 31003A_176044, Ministry of Education, Youth & Sports - Czech Republic LTAUSA19137, Ministry of Science and Higher Education of the Russian Federation FSRZ-2020-0014, Independent Research Fund Denmark 8021-00423B 7027-00133B, German Research Foundation (DFG) DFG- FZT 118 202548816 TI 338/14-1 TI 338/14-2 BA 3843/6-1, grant project VEGA of the Ministry of Education of the Slovak Republic Slovak Academy of Sciences 2/0132/18, Forestry Commission, Universidad Javeriana, Direccion General de Cambio Climatico del Gobierno de Aragon, European Union's Horizon 2020 research and innovation program under the Marie Skodowska-Curie Grant 657627 SNF 407340_172433 40FA40_154245 20FI21_148992 20FI20_173691, European Commission 17841 774124, MCTI/CNPq/FNDCT 68/2013, Project 'Como as florestas da Amazonia Central respondem as variacoes climaticas? Efeitos sobre dinamica florestal e sinergia com a fragmentacAo florestal', Spanish Government, European Commission CGL2016-78093-R, ANID-FONDECYT 1181745, National Science Foundation, Poland UMO-2017/27/B/ST10/02228, National Research Foundation - South Africa, Australian Research Council, Slovak Research and Development Agency APVV-19-0319, Instituto Antartico Chileno INACH_RT-48_16 INACH FR-0418, Comision Nacional de Investigacion Cientifica y Tecnologica (CONICYT) PIA APOYO CCTE AFB170008 PIA AFB170008, UK Research & Innovation (UKRI), Natural Environment Research Council (NERC), Research Council of Norway, European Commission 230970, NERC E3 doctoral training partnership grant at the University of Edinburgh NE/L002558/1, Carnegie Trust for the Universities of Scotland, Gobern of Spain PERMAPLANET CTM2009-10165-E ANTARPERMA CTM2011-15565-E PERMASNOW CTM2014-52021-R, University of Alcala, Spanish Polar Committee, Autonomous Province of Bolzano (ITA), ScotNature, NERC National Capability LTS-S: UK-SCAPE NE/R016429/1, Ministry of Education, Youth & Sports - Czech Republic LTAUSA18007, Kempe Foundation JCK-1112 JCK-1822, Ministry of Education, Youth and Sports of the Czech Republic within the National Sustainability Programme I (NPU I) LO1415, project for national infrastructure support CzeCOS/ICOS LM2015061 GLORIA-EU EVK2-CT2000-00056, Tiroler Wissenschaftsfonds, University of Innsbruck, Sime Darby Foundation, Jardin Botanico Atlantico SV-20-GIJON-JBA, Federal Ministry of Education & Research (BMBF) 01LL0912 01LG1201M 01LG1201N, Comision Nacional de Investigacion Cientifica y Tecnologica (CONICYT) CONICYT FONDECYT 11170516 1180205, ANID PIA / BASAL FB210006, National Parks (DYNBIO) 1656/2015, Spanish Research Agency (VULBIMON) CGL2017-90040-R, Swiss National Science Foundation (SNSF) 20FI20_173691, Biotechnology and Biological Sciences Research Council (BBSRC) 206/D16053 FWO G0H1517N, EU Horizon2020 INFRAIA project eLTER-PLUS 871128, project LTER-CWN (FFG, F&E Infrastrukturforderung) 858024, Austrian Climate Research Program ACRP7 - CentForCSink - KR14AC7K11960, iDiv by the German Research Foundation DFG- FZT 118 202548816, Baden-Wurttemberg Ministry of Science, Research and Arts, Weston Foundation, ArcticNet, Natural Sciences and Engineering Research Council of Canada (NSERC) RGPIN-06691, Villum Foundation 17523, Ministry of Education, Youth & Sports - Czech Republic LM2015078 VAN2020/01 CZ.02.1.01/0.0/0.0/16_013/0001708 LTT17033 LTT20017 INTER-TRANSFER LTT19018, Bolin Centre for Climate Research, Stockholm University, Swedish Research Council Swedish Research Council Formas 2014-00530 2018-00792 2016-01187, Swedish Forest Society Foundation 2018-485-Steg 2 2017, Federal Ministry of Education & Research (BMBF) FKZ 031B0516C SUSALPS, Oberfrankenstiftung OFS FP00237, Energy Research Fund NYR-11 - 2019 NYR-18 - 2020, UK NERC Independent Research Fellowship NE/S01537X/1, National Science Centre, Poland 2016/21/B/ST10/02271, Polish National Centre for Research and Development Pol-Nor/203258/31/2013, MoEFCC, Govt of India (AICOPTAX project) 22018/12/2015/RE/Tax, Swedish Research Council Formas 2018-01781 2018-02700 2019-00836, research infrastructure ICOS-SE, National Research, Development and Innovation Fund of Hungary K128441, Programa Operativo FEDER 2018 B1-RNM-163-UGR-18, Norwegian Research Council (NORKLIMA grants) 184912 244525, CONICYT-PAI 79170119, ANID-MPG 190029, project MIUR PON Cluster OT4CLIMA, Stelvio National Park, AIAS-COFUND fellowship programme - Marie Skodowska- Curie actions under the European Union's Seventh Framework Pro-gramme for Research, Technological development and Demonstration 609033, Aarhus University Research Foundation, Denmark, EU FP6 NitroEurope 17841, EU FP7 ECLAIRE 282910, Ministry of Education and Science of Ukraine 505 550 574 602, GEF-UNEP NEC05348, ENI CBC BSB PONTOS BSB 889, Netherlands Organization for Scientific Research (NWO) 016.VICI.170.072, New Frontiers in Research Fund-Exploration NFRF-2018-02043, Natural Sciences and Engineering Research Council of Canada (NSERC), Australian Research Council DE180100570, National Science Foundation (NSF) DEB 1557094, International Center for Advanced Renewable Energy and Sustainability (I-CARES) at Washington University in St. Louis, Smithsonian Institution Smithsonian Tropical Research Institute, Tyson Research Center, UK Natural Environment Research Council through the ShrubTundra Project NE/M016323/1, Swedish Research Council Formas Swedish Research Council, Kempe Foundations - research infrastructure ICOS Kempe Foundations - research infrastructure SITES, Consejo Nacional de Investigaciones Cientificas y Tecnicas (CONICET) PIP 112-201501-00609, Spanish Government PID2019-110521GB-I00, Catalan government 2017-1005, French National Research Agency (ANR) ANR-10-LABX-45, General Directorate of State Forests, Warsaw, Poland, Max Planck Society, Russian Foundation for Basic Research (RFBR), Krasnoyarsk Territory Krasnoyarsk Regional Fund of Science 20-45-242908, Estonian Research Council PRG609, Knut & Alice Wallenberg Foundation 2015.0047, Swedish Research Council, fundacion Ramon Areces grant ELEMENTAL-CLIMATE, Svalbard Environmental Protection Fund 15/128, Research Council of Norway 269957, Humboldt Fellowship for Experienced Researchers, Russian Foundation for Basic Research (RFBR) 18-05-60203-Arktika, Polish National Science Centre 2017/27/B/NZ8/00316, ODYSSEE project (PN-II-ID-JRP-RO-FR-2012) ANR-13-ISV7-0004, Australian Government, Department of Industry, Innovation and Science, Global Challenges program at the University of Wollongong, ARC the Australian Antarctic Division, INACH, project SUBANTECO IPEV 136 (French Polar Institute Paul-Emile Victor), Zone Atelier CNRS Antarctique et Terres Australes, SAD Region Bretagne (Project INFLICT), BiodivERsa 2019-2020 BioDivClim call 'ASICS' ANR-20-EBI5-0004, National Science Foundation (NSF) 1556772, EU-LEAP-Agri (RAMSES II) EU-DESIRA (CASSECS) EU-H2020 (SustainSahel), AGROPOLIS, Total SA, CGIAR, Russian Science Foundation (RSF) 18-74-10048, Swedish Research Council 2014-04270, ALTER-net multi-site grant, River LIFE project LIFE08 NAT/S/000266, Flexpeil, Ministry of Science and Higher Education, Poland N N305 304840, ETH Zurich FEVER ETH-27 19-1, NSERC Canada Graduate Scholarship (Doctoral) Program, ArcticNet-NCE, Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPQ) 141513/2017-9, Fundacao Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio De Janeiro (FAPERJ) E26/200.84/2019, SRDA APVV-16-0325 APVV-20-0365, ERDF (CE LignoSilva) ITMS 313011S735, ETH Zurich, EU Horizon 2020 641918, German Terrestrial Environmental Observatories (TERENO) research program of the Helmholtz Association, Bavarian Ministry of the Environment and Public Health UGV06080204000 German Research Foundation (DFG) 192626868, Swedish National Space Board (SNSB) 95/16, CASSECS project by the European Union, Natural Environment Research Council (NERC) NE/L002558/1, MEMOIRE project PN-III-P1-1.1-PD2016-0925, Arctic Challenge for Sustainability II (ArCS II) JPMXD1420318865, Consiliul National al Cercetarii Stiintifice (CNCS), Unitatea Executiva pentru Finantarea Invatamantului Superior, a Cercetarii, Dezvoltarii si Inovarii (UEFISCDI) PN-III-P2-2.1-PED-2019-4924 PN2019-2022/19270201, 25N BIODIVERS 3-BIOSERV, Russian Science Foundation (RSF) 21-14-00209., Netherlands Organization for Scientific Research (NWO) 863.14.013, Australian Research Council DE140101611, Portuguese Foundation for Science and Technology CEECIND/02509/2018 CESAM UIDP/50017/2020+UIDB/50017/2020, Portuguese Foundation for Science and Technology European Commission, FEDER, within the PT2020 Partnership Agreement, Compete 2020, Spanish Government FPU17/05869, Swiss Federal Office for the Environment (FOEN), Giacomi foundation, National Natural Science Foundation of China (NSFC) 41861134039 41941015 41877458, French National Research Agency (ANR) ANR-19-CE32-0005-01 Centre National de la Recherche Scientifique (CNRS), Structure Federative de Recherche (SFR) Condorcet (FR CNRS 3417: CREUSE), EU INTERACT program, Inuit of Nunatsiavut, Co-management Board of Torngat Mountains National Park, Saxon Switzerland National Park Administration, Bavarian Forest National Park administration, BECC - Biodiversity and Ecosystem services in a Changing Climate, Research Foundation Flanders (FWO-SBO) S000619N

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2021

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