期刊: TREE PHYSIOLOGY, 2022; 42 (2)
Dehesas, human-shaped savannah-like ecosystems, where the overstorey is mainly dominated by the evergreen holm oak (Quercus ilex L. subsp. ballota (De......
期刊: TREE PHYSIOLOGY, 2022; 42 (2)
The iso/anisohydric continuum has been used to classify tree species' drought response strategies. The range over which stomata are regulating leaf wa......
期刊: TREE PHYSIOLOGY, 2022; 42 (4)
Magnesium (Mg) is an essential macronutrient for plant growth and development; however, the adaptive mechanisms of Mg deficiency to underlying changes......
期刊: TREE PHYSIOLOGY, 2022; 42 (4)
The unprecedented heatwave which hit the Pacific northwest of North America in late June-early July 2021 impacted ecosystems and communities, yet evid......
期刊: TREE PHYSIOLOGY, 2022; 42 (5)
A significant amount of the carbon (C) assimilated in photosynthesis by trees is re-emitted to the atmosphere via the respiratory CO2 flux of roots. B......
期刊: TREE PHYSIOLOGY, 2022; 42 (9)
Micropropagation is very important for rapid clonal propagation and scientific research of woody plants. However, the micropropagated materials usuall......
期刊: TREE PHYSIOLOGY, 2022; 42 (11)
Introductory biology lessons around the world typically teach that plants absorb water through their roots, but, unfortunately, absorption of water th......
期刊: TREE PHYSIOLOGY, 2022; 42 (10)
Drought is one of the main environmental factors that limit plant development and growth. Accordingly, plants have evolved strategies to prevent water......
期刊: TREE PHYSIOLOGY, 2022; 42 (11)
Temperature and photoperiod are two major environmental cues shaping the leaf senescence of temperate tree species. However, how the control of leaf s......
期刊: TREE PHYSIOLOGY, 2022; 42 (11)
The consequences of rising temperatures for trees will vary between species based on their abilities to acclimate their leaf thermoregulatory traits a......
期刊: TREE PHYSIOLOGY, 2022; 42 (11)
The Moso bamboo (Phyllostachys edulis) leaf copes well with cold winters in southeastern China. However, until now, there has been almost no research ......
期刊: TREE PHYSIOLOGY, 2022; 42 (11)
Leaf trait variation enables plants to utilize large gradients of light availability that exist across canopies of high leaf area index (LAI), allowin......
期刊: TREE PHYSIOLOGY, 2022; 42 (1)
Current carbon cycle models attribute rising atmospheric CO2 as the major driver of the increased terrestrial carbon sink, but with substantial uncert......
期刊: TREE PHYSIOLOGY, 2022; 42 (8)
Forests are increasingly affected by heatwaves, often co-occurring with drought, with consequences for water and carbon (C) cycling. However, our abil......