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Climate–human interactions contributed to historical forest recruitment dynamics in Mediterranean subalpine ecosystems
Sangüesa-Barreda, G., Esper, J., Büntgen, U., Camarero, J. J., Di Filippo, A., Baliva, M., & Piovesan, G. (2020). Climate–human interactions contributed to historical forest recruitment dynamics in Mediterranean subalpine ecosystems. Global Change Biology, 26(9), 4988-4997. https://doi.org/10.1111/gcb.15246
Twelve years of low nutrient input stimulates growth of trees and dwarf shrubs in the treeline ecotone
Möhl, P., Mörsdorf, M. A., Dawes, M. A., Hagedorn, F., Bebi, P., Viglietti, D., … Rixen, C. (2019). Twelve years of low nutrient input stimulates growth of trees and dwarf shrubs in the treeline ecotone. Journal of Ecology, 107, 768-780. https://doi.org/10.1111/1365-2745.13073
A millennium-long perspective on high-elevation pine recruitment in the Spanish central Pyrenees
Sangüesa-Barreda, G., Camarero, J. J., Esper, J., Galván, J. D., & Büntgen, U. (2018). A millennium-long perspective on high-elevation pine recruitment in the Spanish central Pyrenees. Canadian Journal of Forest Research, 48(9), 1108-1113. https://doi.org/10.1139/cjfr-2018-0025
Soil warming opens the nitrogen cycle at the alpine treeline
Dawes, M. A., Schleppi, P., Hättenschwiler, S., Rixen, C., & Hagedorn, F. (2017). Soil warming opens the nitrogen cycle at the alpine treeline. Global Change Biology, 23(1), 421-434. https://doi.org/10.1111/gcb.13365
Aged but withstanding: maintenance of growth rates in old pines is not related to enhanced water-use efficiency
Granda, E., Camarero, J. J., Galván, J. D., Sangüesa-Barreda, G., Alla, A. Q., Gutierrez, E., … Voltas, J. (2017). Aged but withstanding: maintenance of growth rates in old pines is not related to enhanced water-use efficiency. Agricultural and Forest Meteorology, 243, 43-54. https://doi.org/10.1016/j.agrformet.2017.05.005
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
Assessing forest vulnerability to climate warming using a process-based model of tree growth: bad prospects for rear-edges
Sánchez-Salguero, R., Camarero, J. J., Gutiérrez, E., González Rouco, F., Gazol, A., Sangüesa-Barreda, G., … Seftigen, K. (2017). Assessing forest vulnerability to climate warming using a process-based model of tree growth: bad prospects for rear-edges. Global Change Biology, 23(7), 2705-2719. https://doi.org/10.1111/gcb.13541
Visible ozone-like injury, defoliation, and mortality in two <I>Pinus uncinata</I> stands in the Catalan Pyrenees (NE Spain)
Diaz-de-Quijano, M., Kefauver, S., Ogaya, R., Vollenweider, P., Ribas, À., & Peñuelas, J. (2016). Visible ozone-like injury, defoliation, and mortality in two Pinus uncinata stands in the Catalan Pyrenees (NE Spain). European Journal of Forest Research, 135(4), 687-696. https://doi.org/10.1007/s10342-016-0964-9
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
Soil warming and CO<SUB>2</SUB> enrichment induce biomass shifts in alpine tree line vegetation
Dawes, M. A., Philipson, C. D., Fonti, P., Bebi, P., Hättenschwiler, S., Hagedorn, F., & Rixen, C. (2015). Soil warming and CO2 enrichment induce biomass shifts in alpine tree line vegetation. Global Change Biology, 21(5), 2005-2021. https://doi.org/10.1111/gcb.12819
Complex climate constraints of upper treeline formation in the Pyrenees
González de Andrés, E., Camarero, J. J., & Büntgen, U. (2015). Complex climate constraints of upper treeline formation in the Pyrenees. Trees: Structure and Function, 29(3), 941-952. https://doi.org/10.1007/s00468-015-1176-5
Ozone visible symptoms and reduced root biomass in the subalpine species <I>Pinus uncinata</I> after two years of free-air ozone fumigation
Díaz-De-Quijano, M., Schaub, M., Bassin, S., Volk, M., & Peñuelas, J. (2012). Ozone visible symptoms and reduced root biomass in the subalpine species Pinus uncinata after two years of free-air ozone fumigation. Environmental Pollution, 169, 250-257. https://doi.org/10.1016/j.envpol.2012.02.011
Species-specific tree growth responses to 9 years of CO<SUB>2</SUB> enrichment at the alpine treeline
Dawes, M. A., Hättenschwiler, S., Bebi, P., Hagedorn, F., Handa, I. T., Körner, C., & Rixen, C. (2011). Species-specific tree growth responses to 9 years of CO2 enrichment at the alpine treeline. Journal of Ecology, 99(2), 383-394. https://doi.org/10.1111/j.1365-2745.2010.01764.x
No stimulation in root production in response to 4 years of <i>in situ</i> CO<SUB>2</SUB> enrichment at the Swiss treeline
Handa, I. T., Hagedorn, F., & Hättenschwiler, S. (2008). No stimulation in root production in response to 4 years of in situ CO2 enrichment at the Swiss treeline. Functional Ecology, 22(2), 348-358. https://doi.org/10.1111/j.1365-2435.2007.01372.x
Atmospheric CO&lt;sub&gt;2&lt;/sub&gt; enrichment of alpine treeline conifers
Hättenschwiler, S., Handa, I. T., Egli, L., Asshoff, R., Ammann, W., & Körner, C. (2002). Atmospheric CO2 enrichment of alpine treeline conifers. New Phytologist, 156(3), 363-375. https://doi.org/10.1046/j.1469-8137.2002.00537.x