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Alpine dwarf shrubs show high proportions of nonfunctional xylem: visualization and quantification of species-specific patterns
Ganthaler, A., Bär, A., Dämon, B., Losso, A., Nardini, A., Dullin, C., … Mayr, S. (2022). Alpine dwarf shrubs show high proportions of nonfunctional xylem: visualization and quantification of species-specific patterns. Plant, Cell and Environment, 45(1), 55-68. https://doi.org/10.1111/pce.14226
Species variation in the hydrogen isotope composition of leaf cellulose is mostly driven by isotopic variation in leaf sucrose
Holloway‐Phillips, M., Baan, J., Nelson, D. B., Lehmann, M. M., Tcherkez, G., & Kahmen, A. (2022). Species variation in the hydrogen isotope composition of leaf cellulose is mostly driven by isotopic variation in leaf sucrose. Plant, Cell and Environment, 45(9), 2636-2651. https://doi.org/10.1111/pce.14362
Drought effects on volatile organic compound emissions from Scots pine stems
Rissanen, K., Aalto, J., Gessler, A., Hölttä, T., Rigling, A., Schaub, M., & Bäck, J. (2022). Drought effects on volatile organic compound emissions from Scots pine stems. Plant, Cell and Environment, 45(1), 23-40. https://doi.org/10.1111/pce.14219
A high temperature water vapor equilibration method to determine non‐exchangeable hydrogen isotope ratios of sugar, starch, and cellulose
Schuler, P., Cormier, M. ‐A., Werner, R. A., Buchmann, N., Gessler, A., Vitali, V., … Lehmann, M. M. (2022). A high temperature water vapor equilibration method to determine non‐exchangeable hydrogen isotope ratios of sugar, starch, and cellulose. Plant, Cell and Environment, 45(1), 12-22. https://doi.org/10.1111/pce.14193
Increasing temperature and vapor pressure deficit lead to hydraulic damages in the absence of soil drought
Schönbeck, L. C., Schuler, P., Lehmann, M. M., Mas, E., Mekarni, L., Pivovaroff, A. L., … Grossiord, C. (2022). Increasing temperature and vapor pressure deficit lead to hydraulic damages in the absence of soil drought. Plant, Cell and Environment, 45(11), 3275-3289. https://doi.org/10.1111/pce.14425
Foliar respiration is related to photosynthetic, growth and carbohydrate response to experimental drought and elevated temperature
Collins, A. D., Ryan, M. G., Adams, H. D., Dickman, L. T., Garcia-Forner, N., Grossiord, C., … McDowell, N. G. (2021). Foliar respiration is related to photosynthetic, growth and carbohydrate response to experimental drought and elevated temperature. Plant, Cell and Environment, 44(12), 3623-3635. https://doi.org/10.1111/pce.14183
Drone‐based physiological index reveals long‐term acclimation and drought stress responses in trees
D'Odorico, P., Schönbeck, L., Vitali, V., Meusburger, K., Schaub, M., Ginzler, C., … Ensminger, I. (2021). Drone‐based physiological index reveals long‐term acclimation and drought stress responses in trees. Plant, Cell and Environment, 44(11), 3552-3570. https://doi.org/10.1111/pce.14177
Manipulating phloem transport affects wood formation but not local nonstructural carbon reserves in an evergreen conifer
Rademacher, T., Fonti, P., LeMoine, J. M., Fonti, M. V., Basler, D., Chen, Y., … Richardson, A. D. (2021). Manipulating phloem transport affects wood formation but not local nonstructural carbon reserves in an evergreen conifer. Plant, Cell and Environment, 44(8), 2506-2521. https://doi.org/10.1111/pce.14117
Memory of environmental conditions across generations affects the acclimation potential of scots pine
Bose, A. K., Moser, B., Rigling, A., Lehmann, M. M., Milcu, A., Peter, M., … Gessler, A. (2020). Memory of environmental conditions across generations affects the acclimation potential of scots pine. Plant, Cell and Environment, 43(5), 1288-1299. https://doi.org/10.1111/pce.13729
Day length regulates seasonal patterns of stomatal conductance in <em>Quercus</em> species
Granda, E., Baumgarten, F., Gessler, A., Gil-Pelegrin, E., Peguero-Pina, J. J., Sancho-Knapik, D., … Resco de Dios, V. (2020). Day length regulates seasonal patterns of stomatal conductance in Quercus species. Plant, Cell and Environment, 43(1), 28-39. https://doi.org/10.1111/pce.13665
The <sup>18</sup>O‐signal transfer from water vapour to leaf water and assimilates varies among plant species and growth forms
Lehmann, M. M., Goldsmith, G. R., Mirande‐Ney, C., Weigt, R. B., Schönbeck, L., Kahmen, A., … Saurer, M. (2020). The 18O‐signal transfer from water vapour to leaf water and assimilates varies among plant species and growth forms. Plant, Cell and Environment, 43(2), 510-523. https://doi.org/10.1111/pce.13682
Couplings in cell differentiation kinetics mitigate air temperature influence on conifer wood anatomy
Cuny, H. E., Fonti, P., Rathgeber, C. B. K., von Arx, G., Peters, R. L., & Frank, D. C. (2019). Couplings in cell differentiation kinetics mitigate air temperature influence on conifer wood anatomy. Plant, Cell and Environment, 42, 1222-1232. https://doi.org/10.1111/pce.13464
Contrasting stomatal sensitivity to temperature and soil drought in mature alpine conifers
Peters, R. L., Speich, M., Pappas, C., Kahmen, A., von Arx, G., Graf Pannatier, E., … Fonti, P. (2019). Contrasting stomatal sensitivity to temperature and soil drought in mature alpine conifers. Plant, Cell and Environment, 42, 1674-1689. https://doi.org/10.1111/pce.13500
Homoeostatic maintenance of nonstructural carbohydrates during the 2015–2016 El Niño drought across a tropical forest precipitation gradient
Dickman, L. T., McDowell, N. G., Grossiord, C., Collins, A. D., Wolfe, B. T., Detto, M., … Chambers, J. Q. (2018). Homoeostatic maintenance of nonstructural carbohydrates during the 2015–2016 El Niño drought across a tropical forest precipitation gradient. Plant, Cell and Environment, 42, 1705-1714. https://doi.org/10.1111/pce.13501
Reductions in tree performance during hotter droughts are mitigated by shifts in nitrogen cycling
Grossiord, C., Gessler, A., Reed, S. C., Borrego, I., Collins, A. D., Dickman, L. T., … McDowell, N. G. (2018). Reductions in tree performance during hotter droughts are mitigated by shifts in nitrogen cycling. Plant, Cell and Environment, 41(11), 2627-2637. https://doi.org/10.1111/pce.13389
Oxygen isotopes in tree rings are less sensitive to changes in tree size and relative canopy position than carbon isotopes
Klesse, S., Weigt, R., Treydte, F., Saurer, M., Schmid, L., Siegwolf, R. T. W., & Frank, D. C. (2018). Oxygen isotopes in tree rings are less sensitive to changes in tree size and relative canopy position than carbon isotopes. Plant, Cell and Environment, 41(12), 2899-2914. https://doi.org/10.1111/pce.13424
Plasticity in gas-exchange physiology of mature Scots pine and European larch drive short- and long-term adjustments to changes in water availability
Feichtinger, L. M., Siegwolf, R. T. W., Gessler, A., Buchmann, N., Lévesque, M., & Rigling, A. (2017). Plasticity in gas-exchange physiology of mature Scots pine and European larch drive short- and long-term adjustments to changes in water availability. Plant, Cell and Environment, 40(9), 1972-1983. https://doi.org/10.1111/pce.13008
The fate of recently fixed carbon after drought release: towards unravelling C storage regulation in <i>Tilia platyphyllos</i> and <i>Pinus sylvestris</i>
Galiano, L., Timofeeva, G., Saurer, M., Siegwolf, R., Martínez-Vilalta, J., Hommel, R., & Gessler, A. (2017). The fate of recently fixed carbon after drought release: towards unravelling C storage regulation in Tilia platyphyllos and Pinus sylvestris. Plant, Cell and Environment, 40(9), 1711-1724. https://doi.org/10.1111/pce.12972
Endogenous circadian rhythms in pigment composition induce changes in photochemical efficiency in plant canopies
García-Plazaola, J. I., Fernández-Marín, B., Ferrio, J. P., Alday, J. G., Hoch, G., Landais, D., … Resco de Dios, V. (2017). Endogenous circadian rhythms in pigment composition induce changes in photochemical efficiency in plant canopies. Plant, Cell and Environment, 40(7), 1153-1162. https://doi.org/10.1111/pce.12909
Oxygen isotope fractionations across individual leaf carbohydrates in grass and tree species
Lehmann, M. M., Gamarra, B., Kahmen, A., Siegwolf, R. T. W., & Saurer, M. (2017). Oxygen isotope fractionations across individual leaf carbohydrates in grass and tree species. Plant, Cell and Environment, 40(8), 1658-1670. https://doi.org/10.1111/pce.12974