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Chilled to be forced: the best dose to wake up buds from winter dormancy
Baumgarten, F., Zohner, C. M., Gessler, A., & Vitasse, Y. (2021). Chilled to be forced: the best dose to wake up buds from winter dormancy. New Phytologist, 230(4), 1366-1377. https://doi.org/10.1111/nph.17270
Ninety-five years of observed disturbance-based tree mortality modeled with climate-sensitive accelerated failure time models
Maringer, J., Stelzer, A. S., Paul, C., & Albrecht, A. T. (2021). Ninety-five years of observed disturbance-based tree mortality modeled with climate-sensitive accelerated failure time models. European Journal of Forest Research, 140, 255-272. https://doi.org/10.1007/s10342-020-01328-x
Ethylene‐regulated leaf lifespan explains divergent responses of plant productivity to warming among three hydrologically different growing seasons
Ren, H., Han, G., Li, M. ‐H., Gao, C., & Jiang, L. (2021). Ethylene‐regulated leaf lifespan explains divergent responses of plant productivity to warming among three hydrologically different growing seasons. Global Change Biology, 27(17), 4169-4180. https://doi.org/10.1111/gcb.15718
Atmospheric brightening counteracts warming-induced delays in autumn phenology of temperate trees in Europe
Wu, Z., Chen, S., De Boeck, H. J., Stenseth, N. C., Tang, J., Vitasse, Y., … Fu, Y. H. (2021). Atmospheric brightening counteracts warming-induced delays in autumn phenology of temperate trees in Europe. Global Ecology and Biogeography, 30(12), 2477-2487. https://doi.org/10.1111/geb.13404
Persistence of remnant boreal plants in the Chiricahua Mountains, southern Arizona
Fescenko, A., Downer, J. A., & Fescenko, I. (2020). Persistence of remnant boreal plants in the Chiricahua Mountains, southern Arizona. Global Ecology and Conservation, 23, e01131 (10 pp.). https://doi.org/10.1016/j.gecco.2020.e01131
Climate change-induced range shift of the endemic epiphytic lichen <i>Lobaria pindarensis</i> in the Hindu Kush Himalayan region
Devkota, S., Dymytrova, L., Chaudhary, R. P., Werth, S., & Scheidegger, C. (2019). Climate change-induced range shift of the endemic epiphytic lichen Lobaria pindarensis in the Hindu Kush Himalayan region. Lichenologist, 51(2), 157-173. https://doi.org/10.1017/S002428291900001X
Short photoperiod reduces the temperature sensitivity of leaf-out in saplings of <i>Fagus sylvatica</i> but not in horse chestnut
Fu, Y. H., Piao, S., Zhou, X., Geng, X., Hao, F., Vitasse, Y., & Janssens, I. A. (2019). Short photoperiod reduces the temperature sensitivity of leaf-out in saplings of Fagus sylvatica but not in horse chestnut. Global Change Biology, 25(5), 1696-1703. https://doi.org/10.1111/gcb.14599
High-alpine permafrost and active-layer soil microbiomes differ in their response to elevated temperatures
Luláková, P., Perez-Mon, C., Šantrůčková, H., Ruethi, J., & Frey, B. (2019). High-alpine permafrost and active-layer soil microbiomes differ in their response to elevated temperatures. Frontiers in Microbiology, 10, 668 (16 pp.). https://doi.org/10.3389/fmicb.2019.00668
Contrasting resistance and resilience to extreme drought and late spring frost in five major European tree species
Vitasse, Y., Bottero, A., Cailleret, M., Bigler, C., Fonti, P., Gessler, A., … Wohlgemuth, T. (2019). Contrasting resistance and resilience to extreme drought and late spring frost in five major European tree species. Global Change Biology, 25(11), 3781-3792. https://doi.org/10.1111/gcb.14803
What is the potential of silver fir to thrive under warmer and drier climate?
Vitasse, Y., Bottero, A., Rebetez, M., Conedera, M., Augustin, S., Brang, P., & Tinner, W. (2019). What is the potential of silver fir to thrive under warmer and drier climate? European Journal of Forest Research, 138(4), 547-560. https://doi.org/10.1007/s10342-019-01192-4
Plastic and genetic responses of a common sedge to warming have contrasting effects on carbon cycle processes
Walker, T. W. N., Weckwerth, W., Bragazza, L., Fragner, L., Forde, B. G., Ostle, N. J., … Bardgett, R. D. (2019). Plastic and genetic responses of a common sedge to warming have contrasting effects on carbon cycle processes. Ecology Letters, 22(1), 159-169. https://doi.org/10.1111/ele.13178
Vascular plant-mediated controls on atmospheric carbon assimilation and peat carbon decomposition under climate change
Gavazov, K., Albrecht, R., Buttler, A., Dorrepaal, E., Garnett, M. H., Gogo, S., … Bragazza, L. (2018). Vascular plant-mediated controls on atmospheric carbon assimilation and peat carbon decomposition under climate change. Global Change Biology, 24(9), 3911-3921. https://doi.org/10.1111/gcb.14140
Increase in the risk of exposure of forest and fruit trees to spring frosts at higher elevations in Switzerland over the last four decades
Vitasse, Y., Schneider, L., Rixen, C., Christen, D., & Rebetez, M. (2018). Increase in the risk of exposure of forest and fruit trees to spring frosts at higher elevations in Switzerland over the last four decades. Agricultural and Forest Meteorology, 248, 60-69. https://doi.org/10.1016/j.agrformet.2017.09.005
Shrub growth rate and bark responses to soil warming and nutrient addition - a dendroecological approach in a field experiment
Iturrate-Garcia, M., Heijmans, M. M. P. D., Schweingruber, F. H., Maximov, T. C., Niklaus, P. A., & Schaepman-Strub, G. (2017). Shrub growth rate and bark responses to soil warming and nutrient addition - a dendroecological approach in a field experiment. Dendrochronologia, 45, 12-22. https://doi.org/10.1016/j.dendro.2017.07.001
Warming effects on <I>Pinus sylvestris</I> in the cold-dry Siberian forest-steppe: positive or negative balance of trade?
Shestakova, T. A., Voltas, J., Saurer, M., Siegwolf, R. T. W., & Kirdyanov, A. V. (2017). Warming effects on Pinus sylvestris in the cold-dry Siberian forest-steppe: positive or negative balance of trade? Forests, 8(12), 490 (21 pp.). https://doi.org/10.3390/f8120490
'Hearing' alpine plants growing after snowmelt: ultrasonic snow sensors provide long-term series of alpine plant phenology
Vitasse, Y., Rebetez, M., Filippa, G., Cremonese, E., Klein, G., & Rixen, C. (2017). 'Hearing' alpine plants growing after snowmelt: ultrasonic snow sensors provide long-term series of alpine plant phenology. International Journal of Biometeorology, 61(2), 349-361. https://doi.org/10.1007/s00484-016-1216-x
Disparate effects of global-change drivers on mountain conifer forests: Warming-induced growth enhancement in young trees vs. CO<SUB>2</SUB> fertilization in old trees from wet sites
Camarero, J. J., Gazol, A., Galván, J. D., Sangüesa-Barreda, G., & Gutiérrez, E. (2015). Disparate effects of global-change drivers on mountain conifer forests: Warming-induced growth enhancement in young trees vs. CO2 fertilization in old trees from wet sites. Global Change Biology, 21(2), 738-749. https://doi.org/10.1111/gcb.12787
Diminished soil functions occur under simulated climate change in a sup-alpine pasture, but heterotrophic temperature sensitivity indicates microbial resilience
Mills, R. T. E., Gavazov, K. S., Spiegelberger, T., Johnson, D., & Buttler, A. (2014). Diminished soil functions occur under simulated climate change in a sup-alpine pasture, but heterotrophic temperature sensitivity indicates microbial resilience. Science of the Total Environment, 473-474, 465-472. https://doi.org/10.1016/j.scitotenv.2013.12.071
Past and future landscape dynamics in pasture-woodlands of the Swiss Jura Mountains under climate change
Peringer, A., Siehoff, S., Chételat, J., Spiegelberger, T., Buttler, A., & Gillet, F. (2013). Past and future landscape dynamics in pasture-woodlands of the Swiss Jura Mountains under climate change. Ecology and Society, 18(3), 11 (32 pp.). https://doi.org/10.5751/ES-05600-180311
Contrasting vulnerability and resilience to drought-induced decline of densely planted vs. natural rear-edge <i>Pinus nigra</i> forests
Sánchez-Salguero, R., Camarero, J. J., Dobbertin, M., Fernández-Cancio, Á., Vilà-Cabrera, A., Manzanedo, R. D., … Navarro-Cerrillo, R. M. (2013). Contrasting vulnerability and resilience to drought-induced decline of densely planted vs. natural rear-edge Pinus nigra forests. Forest Ecology and Management, 310, 956-967. https://doi.org/10.1016/j.foreco.2013.09.050