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Memory of environmental conditions across generations affects the acclimation potential of scots pine
Bose, A. K., Moser, B., Rigling, A., Lehmann, M. M., Milcu, A., Peter, M., … Gessler, A. (2020). Memory of environmental conditions across generations affects the acclimation potential of scots pine. Plant, Cell and Environment, 43(5), 1288-1299. https://doi.org/10.1111/pce.13729
Microhabitat and ectomycorrhizal effects on the establishment, growth and survival of <em>Quercus ilex</em> L. seedlings under drought
García de Jalón, L., Limousin, J. M., Richard, F., Gessler, A., Peter, M., Hättenschwiler, S., & Milcu, A. (2020). Microhabitat and ectomycorrhizal effects on the establishment, growth and survival of Quercus ilex L. seedlings under drought. PLoS One, 15(6), e0229807 (18 pp.). https://doi.org/10.1371/journal.pone.0229807
No radioactive contamination from the Chernobyl disaster in Hungarian white truffles (<em>Tuber magnatum</em>)
Büntgen, U., Jäggi, M., Egli, S., Heule, M., Peter, M., Zagyva, I., … Bagi, I. (2019). No radioactive contamination from the Chernobyl disaster in Hungarian white truffles (Tuber magnatum). Environmental Pollution, 252, 1643-1647. https://doi.org/10.1016/j.envpol.2019.06.108
Truffles on the move
Büntgen, U., Lendorff, H., Lendorff, A., Leuchtmann, A., Peter, M., Bagi, I., & Egli, S. (2019). Truffles on the move. Frontiers in Ecology and the Environment, 17(4), 200-202. https://doi.org/10.1002/fee.2033
Mushroom productivity trends in relation to tree growth and climate across different European forest biomes
Collado, E., Bonet, J. A., Camarero, J. J., Egli, S., Peter, M., Salo, K., … de-Miguel, S. (2019). Mushroom productivity trends in relation to tree growth and climate across different European forest biomes. Science of the Total Environment, 689, 602-615. https://doi.org/10.1016/j.scitotenv.2019.06.471
Orchard conditions and fruiting body characteristics drive the microbiome of the black truffle <em>Tuber aestivum</em>
Splivallo, R., Vahdatzadeh, M., Maciá-Vicente, J. G., Molinier, V., Peter, M., Egli, S., … Deveau, A. (2019). Orchard conditions and fruiting body characteristics drive the microbiome of the black truffle Tuber aestivum. Frontiers in Microbiology, 10, 1437 (15 pp.). https://doi.org/10.3389/fmicb.2019.01437
Secretome analysis from the ectomycorrhizal ascomycete <i>Cenococcum geophilum</i>
de Freitas Pereira, M., Veneault-Fourrey, C., Vion, P., Guinet, F., Morin, E., Barry, K. W., … Peter, M. (2018). Secretome analysis from the ectomycorrhizal ascomycete Cenococcum geophilum. Frontiers in Microbiology, 9, 141 (17 pp.). https://doi.org/10.3389/fmicb.2018.00141
New Insights into the complex relationship between weight and maturity of Burgundy Truffles (<I>Tuber aestivum</I>)
Büntgen, U., Bagi, I., Fekete, O., Molinier, V., Peter, M., Splivallo, R., … Egli, S. (2017). New Insights into the complex relationship between weight and maturity of Burgundy Truffles (Tuber aestivum). PLoS One, 12(1), e0170375 (15 pp.). https://doi.org/10.1371/journal.pone.0170375
Ecological indicators of <i>Tuber aestivum</i> habitats in temperate European beech forests
Moser, B., Büntgen, U., Molinier, V., Peter, M., Sproll, L., Stobbe, U., … Egli, S. (2017). Ecological indicators of Tuber aestivum habitats in temperate European beech forests. Fungal Ecology, 29, 59-66. https://doi.org/10.1016/j.funeco.2017.06.002
Experimental soil warming shifts the fungal community composition at the alpine treeline
Solly, E. F., Lindahl, B. D., Dawes, M. A., Peter, M., Souza, R., Rixen, C., & Hagedorn, F. (2017). Experimental soil warming shifts the fungal community composition at the alpine treeline. New Phytologist, 215(2), 766-778. https://doi.org/10.1111/nph.14603
Responses of soil extracellular enzyme activities to experimental warming and CO<SUB>2</SUB> enrichment at the alpine treeline
Souza, R. C., Solly, E. F., Dawes, M. A., Graf, F., Hagedorn, F., Egli, S., … Peter, M. (2017). Responses of soil extracellular enzyme activities to experimental warming and CO2 enrichment at the alpine treeline. Plant and Soil, 416(1-2), 527-537. https://doi.org/10.1007/s11104-017-3235-8
Pilzmonitoring in Naturwaldreservaten. Étudier les réserves forestières naturelles grâce aux champignons
Blaser, S., Peter, M., & Senn-Irlet, B. (2016). Pilzmonitoring in Naturwaldreservaten. Étudier les réserves forestières naturelles grâce aux champignons. Nature + Paysage. Natur + Landschaft: Inside, (4), 12.
Recovery of trees from drought depends on belowground sink control
Hagedorn, F., Joseph, J., Peter, M., Luster, J., Pritsch, K., Geppert, U., … Arend, M. (2016). Recovery of trees from drought depends on belowground sink control. Nature Plants, 2(8), 16111 (5 pp.). https://doi.org/10.1038/NPLANTS.2016.111
Intensive study sites
Lefèvre, F., Pichot, C., Beuker, E., Kowalczyk, J., Matras, J., Ziehe, M., … Kremer, A. (2016). Intensive study sites. In A. Kremer, S. Hayes, & S. C. González-Martínez (Eds.), Evolution of trees and forest communities: ten years of the EVOLTREE network (pp. 6-9). PG Edition.
Fine-scale genetic structure of natural <I>Tuber aestivum</I> sites in southern Germany
Molinier, V., Murat, C., Baltensweiler, A., Büntgen, U., Martin, F., Meier, B., … Peter, M. (2016). Fine-scale genetic structure of natural Tuber aestivum sites in southern Germany. Mycorrhiza, 26(8), 895-907. https://doi.org/10.1007/s00572-016-0719-y
SSR-based identification of genetic groups within European populations of <I>Tuber aestivum</I> Vittad
Molinier, V., Murat, C., Peter, M., Gollotte, A., De la Varga, H., Meier, B., … Wipf, D. (2016). SSR-based identification of genetic groups within European populations of Tuber aestivum Vittad. Mycorrhiza, 26(2), 99-110. https://doi.org/10.1007/s00572-015-0649-0
The Burgundy truffle (Tuber aestivum syn. uncinatum): A truffle species with a wide habitat range over Europe
Molinier, V., Peter, M., Stobbe, U., & Egli, S. (2016). The Burgundy truffle (Tuber aestivum syn. uncinatum): A truffle species with a wide habitat range over Europe. In A. Zambonelli, M. Iotti, & C. Murat (Eds.), Soil biology. True truffle (Tuber spp.) in the World. Soil ecology, systematics and biochemistry (pp. 33-47). https://doi.org/10.1007/978-3-319-31436-5_3
Ectomycorrhizal ecology is imprinted in the genome of the dominant symbiotic fungus <I>Cenococcum geophilum</I>
Peter, M., Kohler, A., Ohm, R. A., Kuo, A., Krützmann, J., Morin, E., … Martin, F. M. (2016). Ectomycorrhizal ecology is imprinted in the genome of the dominant symbiotic fungus Cenococcum geophilum. Nature Communications, 7, 12662 (15 pp.). https://doi.org/10.1038/ncomms12662
<I>Sclerotinia cirsii-spinosissimi</I>, a new species from the Alps
Senn-Irlet, B., & Peter, M. (2016). Sclerotinia cirsii-spinosissimi, a new species from the Alps. Ascomycete.org, 8(5), 235-240. https://doi.org/10.25664/art-0191
Convergent losses of decay mechanisms and rapid turnover of symbiosis genes in mycorrhizal mutualists
Kohler, A., Kuo, A., Nagy, L. G., Morin, E., Barry, K. W., Buscot, F., … Martin, F. (2015). Convergent losses of decay mechanisms and rapid turnover of symbiosis genes in mycorrhizal mutualists. Nature Genetics, 47(4), 410-415. https://doi.org/10.1038/ng.3223