, Arctic shrub growth trajectories differ across soil moisture 620 levels, Global Change Biology, vol.23, pp.4294-4302, 2017.
, Likelihood of a model and information criteria, Journal of Econometrics, vol.16, pp.3-14, 1981.
, Shrub encroachment in the Alps gives rise to the convergence of sub-624 alpine communities on a regional scale, Journal of Vegetation Science, vol.18, pp.355-362, 2007.
, Direct and indirect control by snow cover over decomposition in alpine 627 tundra along a snowmelt gradient, Plant and Soil, vol.328, pp.397-410, 2010.
, Dendroecology of dwarf shrubs in the high mountains of Norway -A 629 methodological approach, Dendrochronologia, vol.24, pp.17-27, 2006.
, Growth-ring variations of dwarf shrubs reflect regional climate signals 631 in alpine environments rather than topoclimatic differences, Journal of Biogeography, vol.35, pp.625-636, 2008.
, Improved Mapping of Mountain Shrublands Using 634 the Sentinel-2 Red-Edge Band, Remote Sensing, vol.11, 2019.
, The European mountain cryosphere: a review of its current state, trends, and future 636 challenges, The Cryosphere, vol.12, pp.759-794, 2018.
, Comparative fit indexes in structural models, Psychological Bulletin, vol.107, pp.228-246, 1990.
, Plant functional trait change across a warming tundra biome, Nature, issue.2, 2018.
, Status and trends in Arctic vegetation: Evidence from experimental warming and long-642 term monitoring, Ambio, vol.49, pp.678-692, 2020.
, What are the main 644 climate drivers for shrub growth in Northeastern Siberian tundra, Biogeosciences, vol.8, pp.1169-1179, 2011.
, Shrub growth and plant diversity along an 647 elevation gradient: Evidence of indirect effects of climate on alpine ecosystems. Carcaillet C (ed), PLOS ONE, vol.13, 2018.
, Climate-growth analysis for a Mexican 650 dry forest tree shows strong impact of sea surface temperatures and predicts future growth declines: CLIMATE-651 GROWTH ANALYSIS OF A DRY FOREST TREE, Global Change Biology, vol.16, 2001.
, Reduced sensitivity of 654 recent tree-growth to temperature at high northern latitudes, Nature, vol.391, pp.678-682, 1998.
, Variability of Heat Tolerance in Alpine Plant Species Measured at Different 656, 2003.
, Altitudes. Arctic, Antarctic, and Alpine Research, vol.35, p.35, 2003.
, Temperature modulates intra-plant growth of 659, 2013.
, Salix polaris from a high Arctic site (Svalbard), Polar Biology, vol.36, pp.1305-1318
, Testing for tree-ring divergence in the 662, 2008.
, European Alps. Global Change Biology, vol.14, pp.2443-2453
, Summer Temperature Variations in the European Alps, Journal of Climate, vol.664, pp.5606-5623, 2006.
, Unexpected impacts of climate change on alpine vegetation, 2007.
, Frontiers in Ecology and the Environment, vol.5, pp.360-364
, Observed long-term greening of alpine 668 vegetation-a case study in the French Alps, Environmental Research Letters, vol.12, 2017.
, Winter precipitation -not summer temperature 671 -is still the main driver for Alpine shrub growth, Science of The Total Environment, vol.682, pp.171-179, 2019.
, Role of Land-Surface Changes in Arctic Summer Warming, Science, vol.310, pp.657-660, 2005.
, Monitoring 676 of Freezing Dynamics in Trees: A Simple Phase Shift Causes Complexity, Plant Physiology, vol.173, pp.2196-2207, 2017.
, Rapid Range Shifts of Species Associated with 679, 2011.
, High Levels of Climate Warming, Science, vol.333, pp.1024-1026
, Growth response of temperate mountain grasslands to inter-annual variations in snow cover 681 duration, Biogeosciences, vol.12, pp.3885-3897, 2015.
, The decomposition of tree-ring series for environmental studies, Tree Ring Bulletin, vol.47, pp.37-59, 1987.
, Methods of Dendrochronology, vol.684, 1990.
, The smoothing spline: a new approach to standardizing forest interior tree-ring width 685 series for dendroclimatic studies, Tree Ring Bulletin, vol.41, pp.45-53, 1981.
, Spatiotemporal Influences of Climate on Altitudinal Treeline in Northern Patagonia, 687 Ecology, vol.85, pp.1284-1296, 2004.
, Thresholds for 689 warming-induced growth decline at elevational tree line in the Yukon Territory, Canada: THRESHOLDS FOR 690 WARMING-INDUCED GROWTH DECLINE, Global Biogeochemical Cycles, vol.18, 2004.
, On the 'Divergence Problem' in Northern Forests: A review 693 of the tree-ring evidence and possible causes, Global and Planetary Change, vol.60, pp.289-305, 2008.
, On the Importance of High-Resolution, vol.696, 2016.
, Time Series of Optical Imagery for Quantifying the Effects of Snow Cover Duration on Alpine Plant Habitat
, Remote Sensing, vol.8, p.481
, Changes of Humus Features along with a Successional 699, 2005.
, Gradient of Rhododendron ferrugineum (L.) Populations (Subalpine Level, Northwestern Alps, France), Arctic, p.700
, , vol.37, pp.454-464
, Vegetation dynamics at the upper elevational limit of vascular plants in Himalaya, 2016.
, , 2018.
, The growth of shrubs on high Arctic tundra at Bylot Island: impact on snow 705 physical properties and permafrost thermal regime, Biogeosciences, vol.13, pp.6471-6486, 2016.
, Sphagnum modifies climate-708 change impacts on subarctic vascular bog plants, Functional Ecology, vol.20, pp.31-41, 2006.
, Divergent tree growth response to recent climatic warming, p.711, 2005.
, Geophysical Research Letters, vol.32, 2018.
, Patterns of Shrub Invasion into High Mountain Grasslands of the 714, 2003.
, Austria. Arctic, Antarctic, and Alpine Research, vol.35, p.35, 2003.
, Reanalysis of 47 Years of Climate 717 in the French Alps (1958-2005): Climatology and Trends for Snow Cover, Journal of Applied Meteorology and 718 Climatology, vol.48, pp.2487-2512, 2009.
, Reanalysis of 44 Yr of Climate in 720 the French Alps, Methodology, Model Validation, Climatology, and Trends for Air Temperature and 721, 1958.
, Precipitation. Journal of Applied Meteorology and Climatology, vol.48, pp.429-449
, Plot-scale evidence of tundra vegetation change and links to recent summer warming, 2012.
, Nature Climate Change, vol.2, pp.453-457
, Experiment, monitoring, and gradient methods used to infer climate change effects on 725 plant communities yield consistent patterns, Proceedings of the National Academy of Sciences, vol.112, 2015.
, Global mountain topography and the fate of montane species under climate change, 2015.
, Nature Climate Change, vol.5, pp.772-776
, , 2014.
, Predicted responses of arctic and alpine ecosystems to altered seasonality under climate change, Global Change, vol.731, pp.3256-3269
, Breeding system in an alpine species: Rhododendron 733 ferrugineum L. (Ericaceae) in the French northern Alps, Canadian Journal of Botany, vol.75, pp.736-743, 1997.
, Clonal diversity in a Rhododendron ferrugineum 736 L.(Ericaceae) population inferred from AFLP markers, Molecular ecology, vol.7, pp.975-982, 1998.
, An assessment of carbon and nutrient limitations in the formation of the southern Andes 738 tree line. McGlone M (ed), Journal of Ecology, vol.105, pp.517-527, 2017.
, Russian Arctic warming and 'greening' are closely tracked by tundra 740 shrub willows, Global Change Biology, vol.16, pp.1542-1554, 2010.
, Warm summers and moderate winter precipitation 742 boost Rhododendron ferrugineum L. growth in the Taillefer massif (French Alps), Science of The Total 743 Environment, vol.586, pp.1020-1031, 2017.
, Growth response of the alpine shrub, Linanthus pungens, to snowpack and temperature at a 745 rock glacier site in the eastern Sierra Nevada of California, USA, Quaternary International, vol.310, pp.20-33, 2013.
, Tree rings and climate, p.748, 1976.
, , 2018.
, Declining growth of deciduous shrubs in the warming climate of continental western Greenland. Cornelissen H 750 (ed), Journal of Ecology, vol.106, pp.640-654
, Advanced snowmelt affects vegetative growth and 752 sexual reproduction of Vaccinium myrtillus in a sub-alpine heath. Collins B (ed), Journal of Vegetation Science, vol.753, pp.569-579, 2013.
, Continent-wide response of mountain vegetation to climate change, Nature Climate 755 Change, vol.2, pp.111-115, 2012.
, Climate effects on mountain plants, Nature, vol.369, pp.448-448, 1994.
, Structural equation modeling and natural systems, 2006.
, Overstory structure and topographic gradients determining diversity 761 and abundance of understory shrub species in temperate forests in central Pyrenees, Forest Ecology 762 and Management, vol.242, pp.391-397, 2007.
, Establishing a missing link: warm summers and winter snow cover 764 promote shrub expansion into alpine tundra in Scandinavia, New Phytologist, vol.186, pp.890-899, 2010.
, Climate sensitivity of snow cover duration in Austria, International 767 Journal of Climatology, vol.20, pp.615-640, 2000.
, The snowline climate of the Alps, Theoretical and Applied, vol.770, pp.517-537, 1961.
, Pathological tree-ring structures in Siberian juniper 772 (juniperus sibirica burgsd.) and their use for reconstructing extreme climatic events, Russian Journal of Ecology, vol.773, pp.167-173, 2000.
, Carbon Reserves as Indicators for Carbon Limitation in Trees, Progress in Botany , Lüttge U 775 and Beyschlag W, pp.321-346, 2015.
, Winter warming 778 as an important co-driver for Betula nana growth in western Greenland during the past century, Global Change, vol.779, pp.2410-2423, 2015.
, Dendrochronology Program Library User's Manual . Laboratory of Tree-Ring Research, 1994.
, The ecological and evolutionary significance of frost in the context of climate change, Ecology, vol.783, pp.457-463, 2000.
, Tree growth responses to changing temperatures across space 785 and time: a fine-scale analysis at the treeline in the Swiss Alps, Trees, vol.32, pp.645-660, 2018.
, How alpine plant growth is linked to snow cover and climate 788 variability, Journal of Geophysical Research, 2008.
, Principles and practice of structural equation modeling, p.791, 2011.
, Dendroclimatological study of prostrate woody plant, Methods of Dendrochronology, p.792, 1990.
, Applications in the Environmental Sciences, pp.51-55
, Alpine plant life: functional plant ecology of high mountain ecosystems, 2003.
, Flowering phenology of alpine plant communities along a gradient of snowmelt timing, 1999.
, Polar Bioscience, vol.12, pp.100-113
, , 2013.
, Towards a new chain of models for avalanche hazard forecasting in French mountain ranges, including low 799 altitude mountains. presented at the International Snow Science Workshop
, Development of acute frost drought in Rhododendron ferrugineum at the alpine 802 timberline, Oecologia, vol.67, pp.298-300, 1985.
, A Significant Upward Shift in Plant Species 804, 2008.
, Optimum Elevation During the 20th Century, Science, vol.320, pp.1768-1771
, Dendrochronological potential of the alpine shrub Rhododendron nivale on the south-806 eastern Tibetan Plateau, Annals of Botany, vol.104, pp.665-670, 2009.
, Annual increments of juniper dwarf shrubs above the tree 808 line on the central Tibetan Plateau: a useful climatic proxy, Annals of Botany, vol.109, pp.721-728, 2012.
, Modelled changes in arctic tundra snow, energy and moisture 811 fluxes due to increased shrubs, Global Change Biology, vol.8, pp.17-32, 2002.
, Recent Variations of Snowpack Depth in the Central Spanish Pyrenees, Arctic, vol.37, pp.253-260, 2005.
, Up to 400-year-old Rhododendron shrubs on the 815 southeastern Tibetan Plateau: prospects for shrub-based dendrochronology, Boreas, vol.44, pp.760-768, 2015.
, Ballesteros-Cánovas, vol.818
, Disentangling the relative role of climate change on tree growth in an extreme Mediterranean environment, J, 2018.
, Science of The Total Environment, vol.642, pp.619-628
, , p.821
, Forest productivity in southwestern, Europe is controlled by coupled North, vol.822, 2017.
, Atlantic and Atlantic Multidecadal Oscillations, Nature Communications, vol.16, p.824, 2019.
, Climate Warming Persistence Triggered Tree Ingression After Shrub Encroachment 825 in a High Alpine Tundra, 2020.
, How much can we save? Impact of different emission scenarios 828 on future snow cover in the Alps, The Cryosphere, vol.11, pp.517-529, 2017.
, Testing Evolutionary and Ecological Hypotheses Using Path Analysis and Structural Equation 830, 1992.
, Modelling. Functional Ecology, vol.6
, Onset of flowering and climate variability in an alpine landscape: a 10-832 year study from Swedish Lapland, American Journal of Botany, vol.92, pp.422-431, 2005.
, DECLINING MOUNTAIN SNOWPACK IN 834 WESTERN NORTH AMERICA*, Bulletin of the American Meteorological Society, vol.86, pp.39-50, 2005.
, Shrub expansion in tundra ecosystems: dynamics, impacts and research priorities, 2011.
, Environmental Research Letters, vol.6
, Climate sensitivity of shrub growth across the tundra biome, Nature Climate Change, vol.839, pp.887-891, 2015.
, Methods for measuring arctic and alpine shrub growth: A review, Earth-Science 841 Reviews, vol.140, pp.1-13, 2015.
, Eighteen years of ecological monitoring reveals multiple lines of evidence for tundra 843 vegetation change, Ecological Monographs, vol.89, 2019.
, Complexity revealed in the greening of the Arctic, Nature Climate Change, vol.10, pp.106-845, 2020.
, Impact of snow cover on photoinhibition and winter desiccation in 847 evergreen Rhododendron ferrugineum leaves during subalpine winter, Tree Physiology, vol.19, pp.725-732, 1999.
, Snow cover is a neglected driver of Arctic biodiversity loss, Climate Change, vol.850, pp.997-1001, 2018.
, La végétation de la chaîne alpine: dans l'espace montagnard européen, 1985.
, A globally coherent fingerprint of climate change impacts across natural systems, Nature, vol.853, pp.37-42, 2003.
, Le bassin de Bourd d'Oisans, carrefour phytogéographique des Alpes, Revue, vol.855, pp.23-43, 1992.
, Shifts in Arctic 857 vegetation and associated feedbacks under climate change, Nature Climate Change, vol.3, pp.673-677, 2013.
, Wood anatomy and carbon-isotope 860 discrimination support long-term hydraulic deterioration as a major cause of drought-induced dieback, Change Biology, vol.861, pp.2125-2137, 2016.
, Winter precipitation effect in a mid-latitude temperature-limited 863 environment: the case of common juniper at high elevation in the Alps, Environmental Research Letters, vol.9, 2014.
, Feedbacks between earlywood anatomy and non-866 structural carbohydrates affect spring phenology and wood production in ring-porous oaks, Biogeosciences, vol.13, pp.867-5499, 2016.
, Arctic browning: extreme events and trends reversing arctic greening, Change Biology, vol.869, pp.2960-2962, 2016.
, Influence des populations de Rhododendron ferrugineum L. sur la végétation subalpine 871 (Alpes du Nord-France), Feddes Repertorium, vol.106, pp.179-191, 1995.
, Age structure and dynamics of Rhododendron ferrugineum L. populations in the 873 northwestern French Alps, Journal of Vegetation Science, vol.7, pp.265-272, 1996.
URL : https://hal.archives-ouvertes.fr/halsde-00300583
, Till-Bottraud I. 1997. Variation of reproductive traits in Rhododendron ferrugineum L. 875 (Ericaceae) populations along a successional gradient, Plant Ecology, pp.1-11
, R: A Language and Environment for Statistical Computing. R Foundation for Statistical, vol.877, 2016.
, Computing . R Foundation for Statistical Computing
, Global impacts of the 1980s regime shift, Global Change Biology, vol.22, pp.682-703, 2016.
, Evidence of enhanced freezing damage in treeline plants during 882 six years of CO2 enrichment and soil warming, Oikos, vol.121, pp.1532-1543, 2012.
, Winter climate change at different temporal scales in Vaccinium myrtillus, p.884, 2010.
, Arctic and alpine dwarf shrub, Polar Research, vol.29, pp.85-94
, How do climate and topography influence the greening of the forest 886 tundra ecotone in northern Québec? A dendrochronological analysis of Betula glandulosa, Journal of Ecology, 2015.
, lavaan : An R Package for Structural Equation Modeling, Journal of Statistical Software, p.890, 2012.
, Consistent Dendrochronological Response of 891 the Dioecious Salix arctica to Variation in Local Snow Precipitation across Gender and Vegetation Types, Arctic, p.892, 2010.
, , vol.42, pp.471-475
, Atlas of Stem Anatomy in Herbs, Shrubs and Trees, vol.894, 2011.
, Alpine snow cover in a changing climate: a regional climate model 896 perspective, Climate Dynamics, vol.41, pp.735-754, 2013.
, Accelerated increase in plant species richness on mountain summits is linked to 898 warming, Nature, vol.556, pp.231-234, 2018.
, Effects of Snowmelt Timing and Neighbor Density on the Altitudinal Distribution of Potentilla 900 diversifolia in Western Colorado, vol.37, 2005.
, Climate Change 2013: The Physical Science Basis, Contribution of, p.903, 2013.
, Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change
, Snow-Shrub Interactions in Arctic 906, 2001.
, Tundra: A Hypothesis with Climatic Implications, Journal of Climate, vol.14, pp.336-344, 2001.
, The evidence for shrub expansion in Northern Alaska and the Pan-Arctic, 2006.
, Global Change Biology, vol.12, pp.686-702
, Arctic browning: Impacts of extreme 911 climatic events on heathland ecosystem CO 2 fluxes, Global Change Biology, vol.25, pp.489-503, 2019.
, Influence of snowfall and melt 914 timing on tree growth in subarctic Eurasia, Nature, vol.400, pp.149-151, 1999.
, Multi-component ensembles of future 916 meteorological and natural snow conditions for 1500 m altitude in the Chartreuse mountain range, 2018.
, Alps. The Cryosphere, vol.12, pp.1249-1271
, The detailed 919 snowpack scheme Crocus and its implementation in SURFEX v7, 2. Geoscientific Model Development, vol.5, pp.773-920, 2012.
, Bairlein 922 F. 2002. Ecological responses to recent climate change, Nature, vol.416, pp.389-395
, Recent spring warming limits near-treeline deciduous and evergreen alpine 924 dwarf shrub growth, vol.9, 2018.
, Dendrochronology in the High Arctic: July air temperatures 926 reconstructed from annual shoot length growth of the circumarctic dwarf shrub Cassiope tetragona, Quaternary 927 Science Reviews, vol.29, pp.3831-3842, 2010.
, Contrasting shrub species respond to early summer 929 temperatures leading to correspondence of shrub growth patterns, Environmental Research Letters, vol.13, 2018.
, , 2016.
, The snow and the willows: earlier spring snowmelt reduces performance in the low-lying alpine shrub Salix 933 herbacea. Cornelissen H (ed), Journal of Ecology, vol.104
, Increased temperature sensitivity and divergent growth trends in circumpolar boreal forests, 2005.
, Geophysical Research Letters, vol.29, 2018.
, Global assessment of relationships between climate and tree growth, Global Change, 2020.
, Phenology, growth, and fecundity of eight subarctic tundra species in response to snowmelt 940 manipulations, Plant Ecology, vol.207, pp.53-66, 2010.
, A review of snow manipulation experiments in Arctic and alpine tundra ecosystems, Polar 942 Research, vol.29, pp.95-109, 2010.
, Advanced snowmelt causes shift towards positive neighbour interactions in 944 a subarctic tundra community, Global Change Biology, vol.12, pp.1496-1506, 2006.
, Winter climate change in alpine tundra: plant responses to changes in snow 946 depth and snowmelt timing, Climatic Change, vol.94, pp.105-121, 2009.
, Species and site differences influence climate-shrub growth 948 responses in West Greenland, Dendrochronologia, vol.37, pp.69-78, 2016.
, Dendrochronological Potential of Salix alaxensis from the Kuujjua River Area, p.950, 2006.
, Western Canadian Arctic. Tree-Ring Research, vol.62, pp.75-82
, treeclim: an R package for the numerical calibration of proxy-climate relationships, 2015.
, Ecography, vol.38, pp.431-436
, A protocol for data exploration to avoid common statistical problems: Data 954 exploration, Methods in Ecology and Evolution, vol.1, pp.3-14, 2010.