C. D. Allen, A. K. Macalady, H. Chenchouni, D. Bachelet, N. Mcdowell et al., A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests, For. Ecol. Manag, vol.259, pp.660-684, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00457602

J. Martínez-vilalta, F. Lloret, and D. D. Breshears, Drought-induced forest decline: Causes, scope and implications, Biol. Lett, vol.8, pp.689-691, 2012.

N. Bréda, R. Huc, A. Granier, and E. Dreyer, Temperate forest trees and stands under severe drought: A review of ecophysiological responses, adaptation processes and long-term consequences, Ann. For. Sci, vol.63, pp.625-644, 2006.

P. Waldner, A. Marchetto, A. Thimonier, M. Schmitt, M. Rogora et al., Detection of temporal trends in atmospheric deposition of inorganic nitrogen and sulphate to forests in Europe, Atmos. Environ, vol.95, pp.363-374, 2014.

J. Guillemot, N. Delpierre, P. Vallet, C. François, N. K. Martin-stpaul et al., Assessing the effects of management on forest growth across France: Insights from a new functional-structural model, Ann. Bot, vol.114, pp.779-793, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01268996

R. Trouvé, J. D. Bontemps, C. Collet, I. Seynave, and F. Lebourgeois, Growth partitioning in forest stands is affected by stand density and summer drought in sessile Oak and Douglas-fir, For. Ecol. Manag, vol.334, pp.358-368, 2014.

A. W. D'amato, J. B. Bradford, S. Fraver, and B. J. Palik, Effects of thinning on drought vulnerability and climate response in north temperate forest ecosystems, Ecol. Appl, vol.23, pp.1735-1742, 2013.

F. Lebourgeois, P. Eberlé, P. Mérian, and I. Seynave, Social status-mediated tree-ring responses to climate of Abies alba and Fagus sylvatica shift in importance with increasing stand basal area, For. Ecol. Manag, vol.328, pp.209-218, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01195101

M. Cambi, G. Certini, F. Neri, and E. Marchi, The impact of heavy traffic on forest soils: A review, For. Ecol. Manag, vol.338, pp.124-138, 2015.

J. H. Speer, Fundamentals of Tree-Ring Research, p.368, 2010.

H. C. Fritts, Tree Rings and Climate, p.567, 1976.

H. C. Fritts, T. W. Swetnam, and . Dendroecology, A tool for evaluating variations in past and present forest environments, Adv. Ecol. Res, vol.19, pp.111-188, 1989.

A. R. Weiskittel, D. W. Hann, J. A. Kershaw, and . Vanclay, J.K. Forest Growth and Yield Modeling

. Wiley-blackwell, , p.430, 2011.

D. M. Bowman, R. J. Brienen, E. Gloor, O. L. Phillips, and L. D. Prior, Detecting trends in tree growth: Not so simple, Trends Plant Sci, vol.18, pp.11-17, 2013.

E. R. Cook and L. A. Kairiukstis, Methods of dendrochronology: Applications in the environmental sciences, p.394, 1990.

V. Rozas, L. Desoto, and J. M. Olano, Sex-specific, age-dependent sensitivity of tree-ring growth to climate in the dioecious tree Juniperus thurifera, New Phytol, vol.182, pp.687-697, 2009.

H. Genet, N. Bréda, and E. Dufrêne, Age-related variation in carbon allocation at tree and stand scales in beech (Fagus sylvatica L.) and sessile oak (Quercus petraea (Matt.) Liebl.) using a chronosequence approach, Tree Physiol, vol.30, pp.177-192, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02666584

C. A. Copenheaver, C. J. Crawford, and T. M. Fearer, Age-specific responses to climate identified in the growth of Quercus alba, Trees-Struct. Funct, vol.25, pp.647-653, 2011.

P. Mérian and F. Lebourgeois, Size-mediated climate-growth relationships in temperate forests: A multi-species analysis, For. Ecol. Manag, vol.261, pp.1382-1391, 2011.

V. Rozas, Individual-based approach as a useful tool to disentangle the relative importance of tree age, size and inter-tree competition in dendroclimatic studies, For. Biogeosci. For, vol.8, pp.187-194, 2015.

M. Mencuccini, J. Martínez-vilalta, D. Vanderklein, H. A. Hamid, E. Korakaki et al., Size-mediated ageing reduces vigour in trees, Ecol. Lett, vol.8, pp.1183-1190, 2005.

A. Geßler, C. Keitel, J. Kreuzwieser, R. Matyssek, W. Seiler et al., Potential risks for European beech (Fagus sylvatica L.) in a changing climate, Trees-Struct. Funct, vol.21, pp.1-11, 2007.

J. D. Bontemps, J. C. Hervé, and J. F. Dhôte, Dominant radial and height growth reveal comparable historical variations for common beech in north-eastern France, For. Ecol. Manag, vol.259, pp.1455-1463, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01081192

M. Charru, I. Seynave, F. Morneau, and J. D. Bontemps, Recent changes in forest productivity: An analysis of national forest inventory data for common beech (Fagus sylvatica L.) in north-eastern France, For. Ecol. Manag, vol.260, pp.864-874, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01195028

V. Kint, W. Aertsen, M. Campioli, D. Vansteenkiste, A. Delcloo et al., Radial growth change of temperate tree species in response to altered regional climate and air quality in the period, Clim. Chang, vol.115, pp.343-363, 1901.

W. Aertsen, E. Janssen, V. Kint, J. D. Bontemps, J. Van-orshoven et al., Long-term growth changes of common beech (Fagus sylvatica L.) are less pronounced on highly productive sites, For. Ecol. Manag, vol.312, pp.252-259, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01599178

C. Dittmar, W. Zech, and W. Elling, Growth variations of common beech (Fagus sylvatica L.) under different climatic and environmental conditions in Europe-A dendroecological study, For. Ecol. Manag, vol.173, pp.63-78, 2003.

D. A. Friedrichs, V. Trouet, U. Büntgen, D. C. Frank, J. Esper et al., Species-specific climate sensitivity of tree growth in Central-West Germany, Trees-Struct. Funct, vol.23, pp.729-739, 2009.

T. Scharnweber, M. Manthey, C. Criegee, A. Bauwe, C. Schröder et al., Drought matters-Declining precipitation influences growth of Fagus sylvatica L. and Quercus robur L. in north-eastern, Germany. For. Ecol. Manag, vol.262, pp.947-961, 2011.

P. Weber, H. Bugmann, A. R. Pluess, L. Walthert, and A. Rigling, Drought response and changing mean sensitivity of European beech close to the dry distribution limit, Trees-Struct. Funct, vol.27, pp.171-181, 2013.

D. Castagneri, P. Nola, R. Motta, and M. Carrer, Summer climate variability over the last 250 years differently affected tree species radial growth in a mesic Fagus-Abies-Picea old-growth forest, For. Ecol. Manag, vol.320, pp.21-29, 2014.

N. Latte, F. Lebourgeois, and H. Claessens, Increased tree-growth synchronization of beech (Fagus sylvatica L.) in response to climate change in northwestern Europe, vol.33, pp.69-77, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01195102

N. Latte, V. Kint, T. Drouet, V. Penninckx, F. Lebourgeois et al., Dendroécologie du Hêtre en Forêt de Soignes, Les cernes des arbres nous renseignent sur les changements récents et futurs. Forêt Nat, vol.137, pp.24-37, 2015.

A. S. Jump, J. M. Hunt, and J. Penuelas, Rapid climate change-related growth decline at the southern range edge of Fagus sylvatica, Glob. Chang. Biol, vol.12, pp.2163-2174, 2006.

G. Piovesan, F. Biondi, A. Di-filippo, A. Alessandrini, and M. Maugeri, Drought-driven growth reduction in old beech (Fagus sylvatica L.) forests of the central Apennines, Italy. Glob. Chang. Biol, vol.14, pp.1265-1281, 2008.

A. Di-filippo, F. Biondi, M. Maugeri, B. Schirone, and G. Piovesan, Bioclimate and growth history affect beech lifespan in the Italian Alps and Apennines, Glob. Chang. Biol, vol.18, pp.960-972, 2012.

A. Bolte, L. Hilbrig, B. Grundmann, F. Kampf, J. Brunet et al., Climate change impacts on stand structure and competitive interactions in a southern Swedish spruce-beech forest, Eur. J. For. Res, vol.129, pp.261-276, 2010.

F. Lebourgeois, N. Bréda, E. Ulrich, and A. Granier, Climate-tree-growth relationships of European beech (Fagus sylvatica L.) in the French Permanent Plot Network (RENECOFOR), Trees-Struct. Funct, vol.19, pp.385-401, 2005.
URL : https://hal.archives-ouvertes.fr/hal-01831367

G. R. Demarée, P. J. Lachaert, T. Verhoeve, and E. Thoen, The long-term daily central Belgium temperature (CBT) series (1767-1998) and early instrumental meteorological observations in Belgium, vol.53, pp.269-293, 2002.

I. Vigilance-climatique, Institut Royal Météorologique de Belgique, p.15, 2015.

M. Dobbertin, Tree growth as indicator of tree vitality and of tree reaction to environmental stress: A review, Eur. J. For. Res, vol.124, pp.319-333, 2005.

D. L. Greenwood and P. J. Weisberg, Density-dependent tree mortality in pinyon-juniper woodlands, For. Ecol. Manag, vol.255, pp.2129-2137, 2008.

J. C. Linares and J. J. Camarero, From pattern to process: Linking intrinsic water-use efficiency to drought-induced forest decline, Glob. Chang. Biol, vol.18, pp.1000-1015, 2012.

N. Latte, F. Lebourgeois, and H. Claessens, Growth partitioning within beech trees (Fagus sylvatica L.) varies in response to summer heat waves and related droughts, Trees-Struct. Funct, vol.30, pp.189-201, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01531647

M. Campioli, C. Vincke, M. Jonard, V. Kint, G. Demarée et al., Current status and predicted impact of climate change on forest production and biogeochemistry in the temperate oceanic European zone: Review and prospects for Belgium as a case study, J. For. Res, vol.17, pp.1-18, 2012.

P. Mérian, D. Bert, and F. Lebourgeois, An approach for quantifying and correcting sample size-related bias in population estimates of climate-tree growth relationships, For. Sci, vol.59, pp.444-452, 2013.

A. G. Bunn, A dendrochronology program library in R (dplR). Dendrochronologia, vol.26, pp.115-124, 2008.

. The-r-core and . Team, R: A language and Environment for Statistical Computing, 2016.

D. Wuertz, Y. Chalabi, M. Miklovic, C. Boudt, P. Chausse et al., Rmetrics-Autoregressive Conditional Heteroskedastic Modelling, 2016.

A. G. Bunn, E. Jansma, M. Korpela, R. D. Westfall, and J. Baldwin, Using simulations and data to evaluate mean sensitivity (?) as a useful statistic in dendrochronology, vol.31, pp.250-254, 2013.

J. Pinheiro and D. Bates, Mixed Effects Models in S and S-PLUS, p.528, 2000.

W. R. Wykoff, A basal area increment model for individual conifers in the northern Rocky Mountains, For. Sci, vol.36, pp.1077-1104, 1990.

J. Pinheiro, D. Bates, S. Debroy, and D. Sarkar, R Core Team. nlme: Linear and Nonlinear Mixed Effects Models, 2016.

F. Magnani, M. Mencuccini, M. Borghetti, P. Berbigier, F. Berninger et al., The human footprint in the carbon cycle of temperate and boreal forests, Nature, vol.447, pp.848-850, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02666103

J. D. Bontemps, J. C. Hervé, J. M. Leban, and J. F. Dhôte, Nitrogen footprint in a long-term observation of forest growth over the twentieth century, Trees-Struct. Funct, vol.25, pp.237-251, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00993969

S. Braun, V. F. Thomas, R. Quiring, and W. Flückiger, Does nitrogen deposition increase forest production? The role of phosphorus, Environ. Pollut, vol.158, pp.2043-2052, 2010.

X. Zhu, W. Zhang, H. Chen, and J. Mo, Impacts of nitrogen deposition on soil nitrogen cycle in forest ecosystems: A review, Acta Ecol. Sin, vol.35, pp.35-43, 2015.

W. De-vries, G. J. Reinds, M. Posch, M. J. Sanz, G. H. Krause et al., Intensive Monitoring of Forest Ecosystems, 2003.

, Air Pollution in Europe, European Environment Agency, issue.2, 1990.

L. Goff, N. Ottorin, and J. M. , Effects of thinning on beech growth. Interaction with climatic factors, Rev. Forest. Fr, vol.51, pp.355-364, 1999.

E. Van-der-maaten, Thinning prolongs growth duration of European beech (Fagus sylvatica L.) across a valley in southwestern, Germany. For. Ecol. Manag, vol.306, pp.135-141, 2013.

D. Diaconu, H. P. Kahle, and H. Spiecker, Tree-and stand-level thinning effects on growth of European Beech (Fagus sylvatica L.) on a Northeast-and a Southwest-facing slope in Southwest Germany, Forests, vol.6, pp.3256-3277, 2015.

V. Penninckx, P. Meerts, J. Herbauts, and W. Gruber, Ring width and element concentrations in beech (Fagus sylvatica L.) from a periurban forest in central Belgium, For. Ecol. Manag, vol.113, pp.23-33, 1999.

M. Lévesque, L. Walthert, and P. Weber, Soil nutrients influence growth response of temperate tree species to drought, J. Ecol, vol.104, pp.377-387, 2016.

S. Gillner, N. Rüger, A. Roloff, and U. Berger, Low relative growth rates predict future mortality of common beech, Fagus sylvatica L.). For. Ecol. Manag, vol.302, pp.372-378, 2013.

J. J. Camarero, A. Gazol, G. Sangüesa-barreda, J. Oliva, and S. M. Vicente-serrano, To die or not to die: Early warnings of tree dieback in response to a severe drought, J. Ecol, vol.103, pp.44-57, 2015.

M. Engardt and J. Langner, Simulations of future sulphur and nitrogen deposition over Europe using meteorological data from three regional climate projections, 2016.

. Ipcc and . Climate, Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, vol.IPPC, 2014.

A. J. Hacket-pain, L. Cavin, A. D. Friend, and A. S. Jump, Consistent limitation of growth by high temperature and low precipitation from range core to southern edge of European beech indicates widespread vulnerability to changing climate, Eur. J. For. Res, vol.2016, pp.1-13

J. Zimmermann, M. Hauck, C. Dulamsuren, and C. Leuschner, Climate warming-related growth decline affects Fagus sylvatica, but not other broad-leaved tree species in central European mixed forests, Ecosystems, vol.18, pp.560-572, 2015.

M. Lindner, M. Maroschek, S. Netherer, A. Kremer, A. Barbati et al., Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems, For. Ecol. Manag, vol.259, pp.698-709, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02669018

J. Metz, P. Annighöfer, P. Schall, J. Zimmermann, T. Kahl et al., Site-adapted admixed tree species reduce drought susceptibility of mature European beech, Glob. Chang. Biol, vol.22, pp.903-920, 2016.