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Journal Abstract Search

340 related items for PubMed ID: 36426513

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  • 3. Identifying drivers of non-stationary climate-growth relationships of European beech.
    Leifsson C, Buras A, Klesse S, Baittinger C, Bat-Enerel B, Battipaglia G, Biondi F, Stajić B, Budeanu M, Čada V, Cavin L, Claessens H, Čufar K, de Luis M, Dorado-Liñán I, Dulamsuren C, Garamszegi B, Grabner M, Hacket-Pain A, Hansen JK, Hartl C, Huang W, Janda P, Jump AS, Kazimirović M, Knutzen F, Kreyling J, Land A, Latte N, Lebourgeois F, Leuschner C, Longares LA, Martinez Del Castillo E, Menzel A, Motta R, Muffler-Weigel L, Nola P, Panayatov M, Petritan AM, Petritan IC, Popa I, Roibu CC, Rubio-Cuadrado Á, Rydval M, Scharnweber T, Camarero JJ, Svoboda M, Toromani E, Trotsiuk V, van der Maaten-Theunissen M, van der Maaten E, Weigel R, Wilmking M, Zlatanov T, Rammig A, Zang CS.
    Sci Total Environ; 2024 Aug 10; 937():173321. PubMed ID: 38782287
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  • 4. Differential radial growth patterns between beech (Fagus sylvatica L.) and oak (Quercus robur L.) on periodically waterlogged soils.
    Scharnweber T, Manthey M, Wilmking M.
    Tree Physiol; 2013 Apr 10; 33(4):425-37. PubMed ID: 23564694
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  • 8. Climate-driven growth dynamics and trend reversal of Fagus sylvatica L. and Quercus cerris L. in a low-elevation beech forest in Central Italy.
    Mazza G, Monteverdi MC, Altieri S, Battipaglia G.
    Sci Total Environ; 2024 Jan 15; 908():168250. PubMed ID: 37926261
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  • 9. A warmer climate impairs the growth performance of Central Europe's major timber species in lowland regions.
    Enderle L, Gribbe S, Muffler L, Weigel R, Hertel D, Leuschner C.
    Sci Total Environ; 2024 Sep 01; 941():173665. PubMed ID: 38823720
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  • 14. Nutrient regime modulates drought response patterns of three temperate tree species.
    Schmied G, Hilmers T, Mellert KH, Uhl E, Buness V, Ambs D, Steckel M, Biber P, Šeho M, Hoffmann YD, Pretzsch H.
    Sci Total Environ; 2023 Apr 10; 868():161601. PubMed ID: 36646222
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  • 16. Patterns of drought tolerance in major European temperate forest trees: climatic drivers and levels of variability.
    Zang C, Hartl-Meier C, Dittmar C, Rothe A, Menzel A.
    Glob Chang Biol; 2014 Dec 10; 20(12):3767-79. PubMed ID: 24838398
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  • 17. Anthropogenic nitrogen deposition alters growth responses of European beech (Fagus sylvativa L.) to climate change.
    Hess C, Niemeyer T, Fichtner A, Jansen K, Kunz M, Maneke M, von Wehrden H, Quante M, Walmsley D, von Oheimb G, Härdtle W.
    Environ Pollut; 2018 Feb 10; 233():92-98. PubMed ID: 29059630
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  • 18. Drought-adaptation potential in Fagus sylvatica: linking moisture availability with genetic diversity and dendrochronology.
    Pluess AR, Weber P.
    PLoS One; 2012 Feb 10; 7(3):e33636. PubMed ID: 22448260
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  • 19. Climate sensitivity and drought seasonality determine post-drought growth recovery of Quercus petraea and Quercus robur in Europe.
    Bose AK, Scherrer D, Camarero JJ, Ziche D, Babst F, Bigler C, Bolte A, Dorado-Liñán I, Etzold S, Fonti P, Forrester DI, Gavinet J, Gazol A, de Andrés EG, Karger DN, Lebourgeois F, Lévesque M, Martínez-Sancho E, Menzel A, Neuwirth B, Nicolas M, Sanders TGM, Scharnweber T, Schröder J, Zweifel R, Gessler A, Rigling A.
    Sci Total Environ; 2021 Aug 25; 784():147222. PubMed ID: 34088042
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  • 20. Quantitative losses vs. qualitative stability of ectomycorrhizal community responses to 3 years of experimental summer drought in a beech-spruce forest.
    Nickel UT, Weikl F, Kerner R, Schäfer C, Kallenbach C, Munch JC, Pritsch K.
    Glob Chang Biol; 2018 Feb 25; 24(2):e560-e576. PubMed ID: 29063659
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