Non‐structural carbon compounds in temperate forest trees G Hoch, A Richter, C Körner Plant, cell & environment 26 (7), 1067-1081, 2003 | 928 | 2003 |
A first assessment of the impact of the extreme 2018 summer drought on Central European forests B Schuldt, A Buras, M Arend, Y Vitasse, C Beierkuhnlein, A Damm, ... Basic and Applied Ecology 45, 86-103, 2020 | 756 | 2020 |
Physiological mechanisms of drought-induced tree mortality are far from being resolved A Sala, F Piper, G Hoch The New Phytologist 186 (2), 274-281, 2010 | 721 | 2010 |
Dynamics of non‐structural carbohydrates in terrestrial plants: a global synthesis J Martínez‐Vilalta, A Sala, D Asensio, L Galiano, G Hoch, S Palacio, ... Ecological monographs 86 (4), 495-516, 2016 | 618 | 2016 |
Altitudinal increase of mobile carbon pools in Pinus cembra suggests sink limitation of growth at the Swiss treeline G Hoch, M Popp, C Körner Oikos 98, 361-374, 2002 | 490 | 2002 |
The carbon charging of pines at the climatic treeline: a global comparison G Hoch, C Körner Oecologia 135, 10-21, 2003 | 383 | 2003 |
Mechanisms of woody-plant mortality under rising drought, CO2 and vapour pressure deficit NG McDowell, G Sapes, A Pivovaroff, HD Adams, CD Allen, ... Nature Reviews Earth & Environment 3 (5), 294-308, 2022 | 322 | 2022 |
Does carbon storage limit tree growth? S Palacio, G Hoch, A Sala, C Körner, P Millard Wiley-Blackwell, 2013 | 278 | 2013 |
Source/sink removal affects mobile carbohydrates in Pinus cembra at the Swiss treeline M Li, G Hoch, C Körner Trees 16, 331-337, 2002 | 275 | 2002 |
Non-structural carbohydrates in woody plants compared among laboratories AG Quentin, EA Pinkard, MG Ryan, DT Tissue, LS Baggett, HD Adams, ... Tree physiology 35 (11), 1146-1165, 2015 | 262 | 2015 |
Standardized protocols and procedures can precisely and accurately quantify non-structural carbohydrates SM Landhäusser, PS Chow, LT Dickman, ME Furze, I Kuhlman, S Schmid, ... Tree Physiology 38 (12), 1764-1778, 2018 | 253 | 2018 |
Global patterns of mobile carbon stores in trees at the high‐elevation tree line G Hoch, C Körner Global Ecology and Biogeography 21 (8), 861-871, 2012 | 252 | 2012 |
Where, why and how? Explaining the low‐temperature range limits of temperate tree species C Körner, D Basler, G Hoch, C Kollas, A Lenz, CF Randin, Y Vitasse, ... Journal of Ecology 104 (4), 1076-1088, 2016 | 239 | 2016 |
Growth, demography and carbon relations of Polylepis trees at the world's highest treeline G Hoch, C Körner Functional Ecology, 941-951, 2005 | 237 | 2005 |
Quantification and monosaccharide composition of hemicelluloses from different plant functional types C Schädel, A Blöchl, A Richter, G Hoch Plant physiology and Biochemistry 48 (1), 1-8, 2010 | 219 | 2010 |
Height‐related growth declines in ponderosa pine are not due to carbon limitation A Sala, G Hoch Plant, cell & environment 32 (1), 22-30, 2008 | 210 | 2008 |
A test of the growth-limitation theory for alpine tree line formation in evergreen and deciduous taxa of the eastern Himalayas P Shi, C Körner, G Hoch Functional Ecology, 213-220, 2008 | 208 | 2008 |
Drought stress, growth and nonstructural carbohydrate dynamics of pine trees in a semi-arid forest T Klein, G Hoch, D Yakir, C Körner Tree physiology 34 (9), 981-992, 2014 | 189 | 2014 |
European deciduous trees exhibit similar safety margins against damage by spring freeze events along elevational gradients A Lenz, G Hoch, Y Vitasse, C Körner New Phytologist 200 (4), 1166-1175, 2013 | 186 | 2013 |
Elevational adaptation and plasticity in seedling phenology of temperate deciduous tree species Y Vitasse, G Hoch, CF Randin, A Lenz, C Kollas, JF Scheepens, C Körner Oecologia 171, 663-678, 2013 | 175 | 2013 |