J. Torres-ruiz, A. Kremer, M. R. Carins-murphy, T. J. Brodribb, L. Lamarque et al., 25 overview of drought and heat-induced tree mortality reveals emerging climate change 597 risks for forests, Tree Physiology (Oxford Academic), vol.39, issue.10, pp.660-684, 2019.

A. Tatsuya, S. Richard, J. Sparks-tim, H. , S. William et al., A 250-year 599 index of first flowering dates and its response to temperature changes, Proc R Soc B Biol, vol.600, pp.2451-2457, 2010.

J. T. Anderson, D. W. Inouye, A. M. Mckinney, R. I. Colautti, and T. Mitchell-olds, Phenotypic 602 plasticity and adaptive evolution contribute to advancing flowering phenology in 603 response to climate change, Proc Biol Sci, vol.279, pp.3843-3852, 2012.

R. Arnold, I. G. Johnson, and J. V. Owen, Genetic variation in growth, stem straightness and wood 605 properties in Eucalyptus dunnii trials in northern, New South Wales. For Genet, vol.11, pp.1-12, 2004.

R. I. Bertin, Plant Phenology And Distribution In Relation To Recent Climate Change, J 607 Torrey Bot Soc, vol.135, pp.126-146, 2008.

C. J. Blackman, M. J. Aspinwall, D. T. Tissue, and P. D. Rymer, Genetic adaptation and phenotypic 609 plasticity contribute to greater leaf hydraulic tolerance in response to drought in warmer 610 climates, Tree Physiol, vol.37, pp.583-592, 2017.

C. C. Bresson, Y. Vitasse, A. Kremer, and S. Delzon, To what extent is altitudinal variation of 612 functional traits driven by genetic adaptation in European oak and beech?, Tree Physiol, vol.613, pp.1164-1174, 2011.

R. Brienen, W. Wanek, and P. Hietz, Stable carbon isotopes in tree rings indicate improved 615 water use efficiency and drought responses of a tropical dry forest tree species, Trees, vol.616, pp.103-113, 2011.

T. J. Brodribb and H. Cochard, Hydraulic Failure Defines the Recovery and Point of Death in 618 Water-Stressed Conifers, PLANT Physiol, vol.149, pp.575-584, 2009.

T. J. Brodribb, T. S. Feild, and G. J. Jordan, Leaf Maximum Photosynthetic Rate and Venation Are 620 Linked by Hydraulics, Plant Physiol, vol.144, pp.1890-1898, 2007.

T. J. Brodribb and G. J. Jordan, Water supply and demand remain balanced during leaf acclimation 622 of Nothofagus cunninghamii trees, New Phytol, vol.192, pp.437-448, 2011.

T. J. Brodribb, S. Mcadam, G. J. Jordan, and S. Martins, Conifer species adapt to low-624 rainfall climates by following one of two divergent pathways, Proc Natl Acad Sci, vol.625, pp.14489-14493, 2014.

M. Cailleret, S. Jansen, E. Robert, L. Desoto, T. Aakala et al., , p.627

H. Bugmann, M. Caccianiga, V. ?ada, J. J. Camarero, P. Cherubini et al., , p.628

K. ?ufar, A. J. Das, H. Davi, S. Delzon, M. Dorman et al., , p.629

H. Hartmann, A. Here?, K. R. Hultine, P. Janda, J. M. Kane et al., , p.631

F. Lombardi, L. Rodríguez, R. Mäkinen, H. Mayr, S. Mészáros et al., , p.632

F. Minunno, W. Oberhuber, A. Papadopoulos, M. Peltoniemi, A. M. Petritan et al., , p.633

G. Sangüesa-barreda, D. Sarris, J. M. Smith, A. B. Stan, F. Sterck et al., , p.634

M. Svoboda, R. Tognetti, J. M. Torres-ruiz, V. Trotsiuk, R. Villalba et al., A synthesis of radial growth 636 patterns preceding tree mortality, Glob Change Biol, vol.23, pp.1675-1690, 2017.

C. Murphy, M. R. Jordan, G. J. Brodribb, and T. J. , Differential leaf expansion can enable 638 hydraulic acclimation to sun and shade, Plant Cell Environ, vol.35, pp.1407-1418, 2012.

, Version preprint Comment citer ce document

J. Torres-ruiz, A. Kremer, M. R. Carins-murphy, T. J. Brodribb, L. Lamarque et al., Genetic differentiation in functional traits among European sessile oak populations, Tree Physiology (Oxford Academic), vol.39, issue.10, pp.1736-1749, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02626083

C. Murphy, M. R. Jordan, G. J. Brodribb, and T. J. , Cell expansion not cell differentiation 640 predominantly co-ordinates veins and stomata within and among herbs and woody 641 angiosperms grown under sun and shade, Ann Bot, vol.118, pp.1127-1138, 2016.

J. E. Carlson, C. A. Adams, and K. E. Holsinger, Intraspecific variation in stomatal traits, leaf traits 643 and physiology reflects adaptation along aridity gradients in a South African shrub, Ann, vol.644, pp.195-207, 2016.

J. Cavender-bares, Diversification, adaptation, and community assembly of the American 646 oaks ( Quercus ), a model clade for integrating ecology and evolution, New Phytol, p.221, 2018.

S. Chamaillard, R. Fichot, C. Vincent-barbaroux, C. Bastien, C. Depierreux et al., , p.648

F. Brignolas, Variations in bulk leaf carbon isotope discrimination, growth and 649 related leaf traits among three Populus nigra L. populations, Tree Physiol, vol.31, pp.1076-1087, 2011.

B. Choat, T. J. Brodribb, C. R. Brodersen, R. A. Duursma, R. López et al., Triggers of tree 651 mortality under drought, Nature, vol.558, pp.531-539, 2018.

B. Choat, S. Jansen, T. J. Brodribb, H. Cochard, S. Delzon et al., , p.654

M. Mencuccini, P. J. Mitchell, A. Nardini, J. Pittermann, R. B. Pratt et al., , p.655

I. J. Wright and A. E. Zanne, Global convergence in the vulnerability of forests to drought, Nature, vol.656, pp.752-755, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00964681

H. Chung, H. Muraoka, M. Nakamura, S. Han, O. Muller et al., Experimental warming 658 studies on tree species and forest ecosystems: a literature review, J Plant Res, vol.126, pp.447-659, 2013.

R. T. Corlett and D. A. Westcott, Will plant movements keep up with climate change?, Trends Ecol 661 Evol, vol.28, pp.482-488, 2013.

H. Craig, Isotopic standards for carbon and oxygen and correction factors for mass-663 spectrometric analysis of carbon dioxide, Geochim Cosmochim Acta, vol.12, pp.133-149, 1957.

B. M. Cregg and J. W. Zhang, Physiology and morphology of Pinus sylvestris seedlings from 665 diverse sources under cyclic drought stress, For Ecol Manag, vol.154, pp.131-139, 2001.

C. F. Dantec, H. Ducasse, X. Capdevielle, O. Fabreguettes, S. Delzon et al., Escape of spring frost and disease through phenological variations in oak populations 668 along elevation gradients Thrall P (ed), J Ecol, vol.103, pp.1044-1056, 2015.

R. David-schwartz, I. Paudel, M. Mizrachi, S. Delzon, H. Cochard et al., , p.670

G. Capdeville, G. Shklar, and S. Cohen, Indirect Evidence for Genetic Differentiation in 671 Vulnerability to Embolism in Pinus halepensis, Front Plant Sci, vol.7, p.768, 2016.

N. J. Deacon and J. Cavender-bares, Limited Pollen Dispersal Contributes to Population Genetic 673 Structure but Not Local Adaptation in Quercus oleoides Forests of Costa Rica, PLOS, vol.674, p.138783, 2015.

S. Delzon, New insight into leaf drought tolerance, Funct Ecol, vol.29, pp.1247-1249, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02635517

S. Delzon, M. Urli, J. Samalens, J. Lamy, H. Lischke et al., , p.677, 2013.

, at the Northern Margin of Its Distribution 678 Range, during the Anthropocene Period, PLOS ONE, vol.8, p.80443

H. Doi and I. Katano, Phenological timings of leaf budburst with climate change in Japan, Agric 680 For Meteorol, vol.148, pp.512-516, 2008.

A. Ducousso, J. P. Guyon, and A. Krémer, Latitudinal and altitudinal variation of bud burst in 682 western populations of sessile oak (Quercus petraea (Matt) Liebl), Ann Sci For, vol.53, pp.775-683, 1996.

G. D. Farquhar and R. A. Richards, Isotopic Composition of Plant Carbon Correlates With Water-685 Use Efficiency of Wheat Genotypes, Funct Plant Biol, vol.11, pp.539-552, 1984.

C. Firmat, S. Delzon, J. Louvet, J. Parmentier, and A. Kremer, Evolutionary dynamics of the 687 leaf phenological cycle in an oak metapopulation along an elevation gradient, J Evol Biol, vol.688, pp.2116-2131, 2017.

R. J. Francey, C. E. Allison, D. M. Etheridge, C. M. Trudinger, I. G. Enting et al., A 1000-year high precision record of ? 13 C in 691 atmospheric CO 2, Tellus B Chem Phys Meteorol, vol.51, pp.170-193, 1999.

P. J. Franks and D. J. Beerling, Maximum leaf conductance driven by CO2 effects on stomatal 693 size and density over geologic time, Proc Natl Acad Sci, vol.106, pp.10343-10347, 2009.

S. J. Franks, J. J. Weber, and S. N. Aitken, Evolutionary and plastic responses to climate change in 695 terrestrial plant populations, Evol Appl, vol.7, pp.123-139, 2014.

N. González-muñoz, F. Sterck, J. M. Torres-ruiz, G. Petit, H. Cochard et al., , vol.697

M. C. Caldeira, G. Capdeville, P. Copini, R. Gebauer, L. Grönlund et al., , p.698

R. , P. M. Stritih, A. Urban, J. Delzon, and S. , Quantifying in situ phenotypic 699 variability in the hydraulic properties of four tree species across their distribution range 700 in Europe Heinze B (ed), PLOS ONE, vol.13, p.196075, 2018.

O. Gordo and J. J. Sanz, Phenology and climate change: a long-term study in a Mediterranean 702 locality, Oecologia, vol.146, pp.484-495, 2005.

E. Granda, A. Q. Alla, N. A. Laskurain, J. Loidi, A. Sánchez-lorenzo et al., Coexisting 704 oak species, including rear-edge populations, buffer climate stress through xylem 705 adjustments, Tree Physiol, vol.38, pp.159-172, 2018.

R. Guay, R. Gagnon, and H. Morin, A new automatic and interactive tree-ring measurement 707 system based on a line scan camera, p.68, 1992.

J. Guet, F. Fabbrini, R. Fichot, M. Sabatti, C. Bastien et al., Genetic variation for leaf 709 morphology, leaf structure and leaf carbon isotope discrimination in European 710 populations of black poplar (Populus nigra L.), Tree Physiol, vol.35, pp.850-863, 2015.

U. G. Hacke, J. S. Sperry, W. T. Pockman, S. D. Davis, and K. A. Mcculloh, Trends in wood density 712 and structure are linked to prevention of xylem implosion by negative pressure, Oecologia, vol.713, pp.457-461, 2001.

A. Herbig and U. Kull, Leaves and ramification, 1992.

A. A. Hoffmann and C. M. Sgrò, Climate change and evolutionary adaptation, Nature, vol.470, pp.479-717, 2011.

K. L. Kavanagh, B. J. Bond, S. N. Aitken, B. L. Gartner, and S. Knowe, Shoot and root vulnerability 719 to xylem cavitation in four populations of Douglas-fir seedlings, Tree Physiol, vol.19, pp.31-37, 1999.

, Version preprint Comment citer ce document

A. Kremer, B. Potts, and S. Delzon, Genetic divergence in forest trees: Understanding the 721 consequences of climate change, Funct Ecol, vol.28, 2013.

T. M. Kuster, M. Dobbertin, M. S. Günthardt-goerg, M. Schaub, and M. Arend, A Phenological 723 Timetable of Oak Growth under Experimental Drought and Air Warming, PLOS ONE, vol.724, issue.9, p.89724, 2014.

J. Lamy, L. Bouffier, R. Burlett, C. Plomion, H. Cochard et al., Uniform Selection as 726 a Primary Force Reducing Population Genetic Differentiation of Cavitation Resistance 727 across a Species Range, PLOS ONE, vol.6, p.23476, 2011.

J. Lamy, S. Delzon, P. S. Bouche, A. R. Vendramin, G. G. Cochard et al., Limited 729 genetic variability and phenotypic plasticity detected for cavitation resistance in a 730 Mediterranean pine, New Phytol, vol.201, pp.874-886, 2014.

M. Larter, S. Pfautsch, J. Domec, S. Trueba, N. Nagalingum et al., Aridity drove the 732 evolution of extreme embolism resistance and the radiation of conifer genus Callitris, New Phytol, vol.733, pp.97-112, 2017.

R. C. Littell, G. Milliken, W. W. Stroup, R. Wolfinger, E. Schabenberger et al., SAS for mixed 735 models, American Statistician -AMER STATIST, 2007.

A. Lobo, J. M. Torres-ruiz, R. Burlett, C. Lemaire, C. Parise et al., , p.737

J. K. Hansen, E. D. Kjaer, A. Kremer, and S. Delzon, Assessing inter-and intraspecific 738 variability of xylem vulnerability to embolism in oaks, For Ecol Manag, vol.424, pp.53-61, 2018.

W. Long, R. Zang, B. S. Schamp, and Y. Ding, Within-and among-species variation in specific 740 leaf area drive community assembly in a tropical cloud forest, Oecologia, vol.167, pp.1103-1113, 2011.

A. R. Martin, C. E. Hale, B. Cerabolini, J. Cornelissen, J. Craine et al., Inter-and intraspecific variation in leaf economic traits in wheat and maize, AoB PLANTS, vol.743, p.6, 2018.

H. I. Martínez-cabrera, C. S. Jones, S. Espino, and H. J. Schenk, Wood anatomy and wood density 745 in shrubs: Responses to varying aridity along transcontinental transects, Am J Bot, vol.746, pp.1388-1398, 2009.

J. Martínez-vilalta, H. Cochard, M. Mencuccini, F. Sterck, A. Herrero et al., , p.748

E. Nikinmaa, A. Nolè, R. Poyatos, F. Ripullone, U. Sass-klaassen et al., Hydraulic adjustment of Scots pine across Europe, New Phytol, vol.184, pp.353-364, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01189367

K. Matsumoto, T. Ohta, M. Irasawa, and T. Nakamura, Climate change and extension of the 751 Ginkgo biloba L. growing season in Japan, Glob Change Biol, vol.9, pp.1634-1642, 2003.

D. Mccarroll and N. J. Loader, Stable isotopes in tree rings, Quat Sci Rev, vol.23, pp.771-801, 2004.

N. G. Mcdowell, M. G. Ryan, M. Zeppel, and D. T. Tissue, Feature: Improving our knowledge of 754 drought-induced forest mortality through experiments, observations, and modeling, New 755 Phytol, vol.200, pp.289-293, 2013.

J. E. Meireles, A. Beulke, D. S. Borkowski, J. Romero-severson, and J. Cavender-bares, Balancing 757 selection maintains diversity in a cold tolerance gene in broadly distributed live oaks, Genome, vol.758, pp.762-769, 2017.

, Comment citer ce document

M. Mencuccini, The ecological significance of long-distance water transport: short-term 760 regulation, long-term acclimation and the hydraulic costs of stature across plant life 761 forms, Plant Cell Environ, vol.26, pp.163-182, 2003.

A. Menzel and P. Fabian, Growing season extended in Europe, Nature, vol.397, p.659, 1999.

R. Milla, P. Reich, Ü. Niinemets, and P. Castro-díez, Environmental and developmental controls 764 on specific leaf area are little modified by leaf allometry, Funct Ecol, vol.22, pp.565-576, 2008.

M. Murphy, G. J. Jordan, and T. J. Brodribb, Acclimation to humidity modifies the link between 766 leaf size and the density of veins and stomata, Plant Cell Environ, vol.37, pp.124-131, 2014.

N. W. Pammenter and C. Van-der-willigen, A mathematical and statistical analysis of the curves 768 illustrating vulnerability of xylem to cavitation, Tree Physiol, vol.18, pp.589-593, 1998.

R. E. Pennington, C. R. Tischler, H. B. Johnson, and H. W. Polley, Genetic variation for carbon isotope 770 composition in honey mesquite (Prosopis glandulosa), Tree Physiol, vol.19, pp.583-589, 1999.

J. Peñuelas, I. Filella, and P. Comas, Changed plant and animal life cycles from 1952 to 2000 in 772 the Mediterranean region, Glob Change Biol, vol.8, pp.531-544, 2002.

H. Polge, Établissement des courbes de variation de la densité du bois par exploration 774 densitométrique de radiographies d'échantillons prélevés à la tarière sur des arbres 775 vivants : applications dans les domaines Technologique et Physiologique, Ann Sci For, vol.776, p.206, 1966.

S. Ponton, J. Dupouey, N. B. Dreyer, and E. , Comparison of water-use efficiency of 778 seedlings from two sympatric oak species: Genotype x environment interactions, Tree 779 Physiol, vol.22, pp.413-435, 2002.

J. A. Ramírez-valiente, A. Center, J. P. Sparks, K. L. Sparks, J. R. Etterson et al., , p.781

J. Cavender-bares, Population-Level Differentiation in Growth Rates and Leaf 782 Traits in Seedlings of the Neotropical Live Oak Quercus oleoides Grown under Natural 783 and Manipulated Precipitation Regimes, Front Plant Sci, vol.8, p.585, 2017.

P. B. Reich, C. Uhl, M. B. Walters, and D. S. Ellsworth, Leaf lifespan as a determinant of leaf 785 structure and function among 23 amazonian tree species, Oecologia, vol.86, pp.16-24, 1991.

C. Sáenz-romero, J. Lamy, A. Ducousso, B. Musch, F. Ehrenmann et al., Adaptive and plastic responses of Quercus 789 petraea populations to climate across Europe, Glob Change Biol, vol.23, pp.2831-2847, 2017.

Y. Salmon, J. M. Torres-ruiz, R. Poyatos, J. Martinez-vilalta, M. P. Cochard et al., Balancing the risks of hydraulic failure and carbon starvation: a twig scale analysis 792 in declining Scots pine: Twig role in Scots pine drought-induced mortality, Plant Cell, vol.791, pp.2575-2588, 2015.

H. Schume, M. Grabner, and O. Eckmüllner, The influence of an altered groundwater regime on 795 vessel properties of hybrid poplar, Trees, vol.18, pp.184-194, 2004.

C. Sotelo-montes and J. C. Weber, Genetic variation in wood density and correlations with tree 797 growth in Prosopis africana from Burkina Faso and Niger, Ann For Sci, vol.66, pp.713-713, 2009.

K. Spitze, Population structure in Daphnia obtusa: quantitative genetic and allozymic Version preprint Comment citer ce document, 1993.

S. Stojni?, M. Suchocka, M. Benito-garzón, J. M. Torres-ruiz, and H. Cochard,

B. Cvjetkovi?, M. De-luis, J. Martinez-vilalta, A. Raebild, R. Tognetti et al., , p.802, 2018.

, Variation in xylem vulnerability to embolism in European beech from geographically 803 marginal populations, Tree Physiol, vol.38, pp.173-185

J. M. Torres-ruiz, H. Cochard, B. Choat, S. Jansen, R. López et al., Xylem resistance to 806 embolism: presenting a simple diagnostic test for the open vessel artefact, New Phytol, vol.807, pp.489-499, 2017.

J. M. Torres-ruiz, H. Cochard, E. Fonseca, E. Badel, L. Gazarini et al., Differences in 809 functional and xylem anatomical features allow Cistus species to co-occur and cope 810 differently with drought in the Mediterranean region, Tree Physiol, vol.37, pp.755-766, 2017.

J. M. Torres-ruiz, S. Jansen, B. Choat, A. J. Mcelrone, H. Cochard et al., , p.812

P. S. Bouche, C. R. Brodersen, S. Li, H. Morris, and S. Delzon, , vol.813, 2015.

, Microtomography Observation Confirms the Induction of Embolism upon Xylem Cutting 814 under Tension, Plant Physiol, vol.167, pp.40-43

D. Uhl and V. Mosbrugger, Leaf venation density as a climate and environmental proxy: a 816 critical review and new data, Palaeogeogr Palaeoclimatol Palaeoecol, vol.149, pp.15-26, 1999.

M. Urli, J. Lamy, F. Sin, R. Burlett, S. Delzon et al., The high vulnerability of Quercus 818 robur to drought at its southern margin paves the way for Quercus ilex, Plant Ecol, vol.819, pp.177-187, 2015.

Y. Vitasse, S. Delzon, C. C. Bresson, R. Michalet, and A. Kremer, Altitudinal differentiation in 821 growth and phenology among populations of temperate-zone tree species growing in a 822 common garden, Can J For Res, vol.39, pp.1259-1269, 2009.

M. Weih and S. Karlsson, Growth response of Mountain birch to air and soil temperature: Is 824 increasing leaf-nitrogen content an acclimation to lower air temperature, New Phytol, vol.825, pp.147-155, 2002.

F. I. Woodward and F. A. Bazzaz, The Responses of Stomatal Density to CO2 Partial Pressure, J 827 Exp Bot, vol.39, pp.1771-1781, 1988.

I. J. Wright, N. Dong, M. V. Prentice, I. C. Westoby, M. Díaz et al., , p.829

R. Kooyman, E. A. Law, M. R. Leishman, Ü. Niinemets, P. B. Reich et al., Global climatic drivers of leaf size, Science, vol.357, pp.917-921, 2017.

I. J. Wright, P. B. Reich, M. Westoby, D. D. Ackerly, Z. Baruch et al., , p.833

B. B. Lamont, T. Lee, W. Lee, C. Lusk, J. J. Midgley et al., , p.834

N. Osada, H. Poorter, P. Poot, L. Prior, V. I. Pyankov et al., , p.835

E. J. Veneklaas and R. Villar, The worldwide leaf economics spectrum, Nature, vol.428, pp.821-836, 2004.

Y. Zhu, H. Kang, Q. Xie, Z. Wang, S. Yin et al., Pattern of leaf vein density and climate 838 relationship of Quercus variabilis populations remains unchanged with environmental 839 changes, Trees, vol.26, pp.597-607, 2012.

M. A. Zwieniecki and C. K. Boyce, Evolution of a unique anatomical precision in angiosperm leaf 841 venation lifts constraints on vascular plant ecology, Proc R Soc B Biol Sci, vol.842, pp.20132829-20132829, 2014.

, Comment citer ce document

M. A. Zwieniecki, C. K. Boyce, and N. M. Holbrook, Hydraulic limitations imposed by crown 844 placement determine final size and shape of Quercus rubra L. leaves, Plant Cell Environ, vol.845, pp.357-365, 2004.

, Comment citer ce document