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Root exudates increase soil respiration and alter microbial community structure in alpine permafrost and active layer soils
Adamczyk, M., Rüthi, J., & Frey, B. (2021). Root exudates increase soil respiration and alter microbial community structure in alpine permafrost and active layer soils. Environmental Microbiology. https://doi.org/10.1111/1462-2920.15383
Habitat specialization controls ectomycorrhizal fungi above the treeline in the European Alps
Arraiano-Castilho, R., Bidartondo, M. I., Niskanen, T., Clarkson, J. J., Brunner, I., Zimmermann, S., … Suz, L. M. (2021). Habitat specialization controls ectomycorrhizal fungi above the treeline in the European Alps. New Phytologist, 229(5), 2901-2916. https://doi.org/10.1111/nph.17033
High temperatures enhance the microbial genetic potential to recycle C and N from necromass in high-mountain soils
Donhauser, J., Qi, W., Bergk-Pinto, B., & Frey, B. (2021). High temperatures enhance the microbial genetic potential to recycle C and N from necromass in high-mountain soils. Global Change Biology, 27(7), 1365-1386. https://doi.org/10.1111/gcb.15492
Deep soil layers of drought-exposed forests harbor poorly known bacterial and fungal communities
Frey, B., Walthert, L., Perez-Mon, C., Stierli, B., Köchli, R., Dharmarajah, A., & Brunner, I. (2021). Deep soil layers of drought-exposed forests harbor poorly known bacterial and fungal communities. Frontiers in Microbiology, 12, 674160 (21 pp.). https://doi.org/10.3389/fmicb.2021.674160
Microbial ecology of mountain permafrost: the Alps
Frey, B. (2021). Microbial ecology of mountain permafrost: the Alps. In S. Liebner & L. Ganzert (Eds.), Life in extreme environments: Vol. 7. Microbial life in the cryosphere and Its feedback on global change (pp. 153-172). https://doi.org/10.1515/9783110497083-007
Effects of thinning intensity and understory removal on soil microbial community in <em>Pinus massoniana</em> plantations of subtropical China
Lei, L., Xiao, W., Zeng, L., Frey, B., Huang, Z., Zhu, J., … Li, M. H. (2021). Effects of thinning intensity and understory removal on soil microbial community in Pinus massoniana plantations of subtropical China. Applied Soil Ecology, 167, 104055 (10 pp.). https://doi.org/10.1016/j.apsoil.2021.104055
Shotgun metagenomics reveals distinct functional diversity and metabolic capabilities between 12 000-year-old permafrost and active layers on Muot da Barba Peider (Swiss Alps)
Perez-Mon, C., Qi, W., Vikram, S., Frossard, A., Makhalanyane, T., Cowan, D., & Frey, B. (2021). Shotgun metagenomics reveals distinct functional diversity and metabolic capabilities between 12 000-year-old permafrost and active layers on Muot da Barba Peider (Swiss Alps). Microbial Genomics, 7(4), 000558 (13 pp.). https://doi.org/10.1099/mgen.0.000558
Evaluating long-term success in grassland restoration: an ecosystem multifunctionality approach
Resch, M. C., Schütz, M., Buchmann, N., Frey, B., Graf, U., van der Putten, W. H., … Risch, A. C. (2021). Evaluating long-term success in grassland restoration: an ecosystem multifunctionality approach. Ecological Applications, 31(3), e02271 (14 pp.). https://doi.org/10.1002/eap.2271
Soil physicochemical properties drive the variation in soil microbial communities along a forest successional series in a degraded wetland in northeastern China
Sui, X., Zhang, R., Frey, B., Yang, L., Liu, Y., Ni, H., & Li, M. ‐H. (2021). Soil physicochemical properties drive the variation in soil microbial communities along a forest successional series in a degraded wetland in northeastern China. Ecology and Evolution, 11(5), 2194-2208. https://doi.org/10.1002/ece3.7184
Strong shifts in microbial community structure are associated with increased litter input rather than temperature in High Arctic soils
Adamczyk, M., Perez-Mon, C., Gunz, S., & Frey, B. (2020). Strong shifts in microbial community structure are associated with increased litter input rather than temperature in High Arctic soils. Soil Biology and Biochemistry, 151, 108054 (14 pp.). https://doi.org/10.1016/j.soilbio.2020.108054
Plant-fungal interactions in hybrid zones: ectomycorrhizal communities of willows (&lt;em&gt;Salix&lt;/em&gt;) in an alpine glacier forefield
Arraiano-Castilho, R., Bidartondo, M. I., Niskanen, T., Zimmermann, S., Frey, B., Brunner, I., … Suz, L. M. (2020). Plant-fungal interactions in hybrid zones: ectomycorrhizal communities of willows (Salix) in an alpine glacier forefield. Fungal Ecology, 45, 100936 (13 pp.). https://doi.org/10.1016/j.funeco.2020.100936
Soil fauna: key to soil organic matter dynamics and modelling. Handbook of methods. Cost action ES1406
Barot, S., Berg, M., Briones, M. J. I., Bueno, G., Curiel Yuste, J., Chertov, O., … Zhang, C. (2020). Soil fauna: key to soil organic matter dynamics and modelling. Handbook of methods. Cost action ES1406. (J. J. Jiménez, J. Filser, & KEYSOM Team, Eds.). Brussels: COST Association.
KEYLINK: towards a more integrative soil representation for inclusion in ecosystem scale models. I. review and model concept
Deckmyn, G., Flores, O., Mayer, M., Domene, X., Schnepf, A., Kuka, K., … Curiel Yuste, J. (2020). KEYLINK: towards a more integrative soil representation for inclusion in ecosystem scale models. I. review and model concept. PeerJ, 8, e9750 (69 pp.). https://doi.org/10.7717/peerj.9750
Temperatures beyond the community optimum promote the dominance of heat-adapted, fast growing and stress resistant bacteria in alpine soils
Donhauser, J., Niklaus, P. A., Rousk, J., Larose, C., & Frey, B. (2020). Temperatures beyond the community optimum promote the dominance of heat-adapted, fast growing and stress resistant bacteria in alpine soils. Soil Biology and Biochemistry, 148, 107873 (16 pp.). https://doi.org/10.1016/j.soilbio.2020.107873
Higher spatial than seasonal variation in floodplain soil eukaryotic microbial communities
Fournier, B., Samaritani, E., Frey, B., Seppey, C. V. W., Lara, E., Heger, T. J., & Mitchell, E. A. D. (2020). Higher spatial than seasonal variation in floodplain soil eukaryotic microbial communities. Soil Biology and Biochemistry, 147, 107842 (9 pp.). https://doi.org/10.1016/j.soilbio.2020.107842
Only minor changes in the soil microbiome of a sub-alpine forest after 20 years of moderately increased nitrogen loads
Frey, B., Carnol, M., Dharmarajah, A., Brunner, I., & Schleppi, P. (2020). Only minor changes in the soil microbiome of a sub-alpine forest after 20 years of moderately increased nitrogen loads. Frontiers in Forests and Global Change, 3, 77 (18 pp.). https://doi.org/10.3389/ffgc.2020.00077
Functional and structural responses of Arctic and alpine soil prokaryotic and fungal communities under freeze-thaw cycles of different frequencies
Perez-Mon, C., Frey, B., & Frossard, A. (2020). Functional and structural responses of Arctic and alpine soil prokaryotic and fungal communities under freeze-thaw cycles of different frequencies. Frontiers in Microbiology, 11, 982 (14 pp.). https://doi.org/10.3389/fmicb.2020.00982
&lt;em&gt;Cryolevonia&lt;/em&gt; gen. nov. and &lt;em&gt;Cryolevonia&lt;/em&gt; &lt;em&gt;schafbergensis&lt;/em&gt; sp. nov., a cryophilic yeast from ancient permafrost and melted sea ice
Pontes, A., Ruethi, J., Frey, B., Aires, A., Thomas, A., Overy, D., … Sampaio, J. P. (2020). Cryolevonia gen. nov. and Cryolevonia schafbergensis sp. nov., a cryophilic yeast from ancient permafrost and melted sea ice. International Journal of Systematic and Evolutionary Microbiology, 70(4), 2334-2338. https://doi.org/10.1099/ijsem.0.004040
Chemical composition of soil organic matter and potential enzyme activity in the topsoil along a moisture gradient in the High Arctic (Svalbard)
Pushkareva, E., Eckhardt, K. U., Hotter, V., Frossard, A., Leinweber, P., Frey, B., & Karsten, U. (2020). Chemical composition of soil organic matter and potential enzyme activity in the topsoil along a moisture gradient in the High Arctic (Svalbard). Geoderma, 368, 114304 (9 pp.). https://doi.org/10.1016/j.geoderma.2020.114304
Experimental assembly reveals ecological drift as a major driver of root nodule bacterial diversity in a woody legume crop
Ramoneda, J., Le Roux, J. J., Frossard, E., Frey, B., & Gamper, H. A. (2020). Experimental assembly reveals ecological drift as a major driver of root nodule bacterial diversity in a woody legume crop. FEMS Microbiology Ecology, 96(6), fiaa083 (14 pp.). https://doi.org/10.1093/femsec/fiaa083
 

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