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Drivers of intra‐seasonal δ<sup>13</sup> C signal in tree‐rings of <em>Pinus sylvestris</em> as indicated by compound‐specific and laser ablation isotope analysis
Rinne‐Garmston, K. T., Tang, Y., Sahlstedt, E., Adamczyk, B., Saurer, M., Salmon, Y., … Young, G. H. F. (2023). Drivers of intra‐seasonal δ13 C signal in tree‐rings of Pinus sylvestris as indicated by compound‐specific and laser ablation isotope analysis. Plant, Cell and Environment, 46(9), 2649-2666. https://doi.org/10.1111/pce.14636
Updating the dual C and O isotope - gas‐exchange model: a concept to understand plant responses to the environment and its implications for tree rings
Siegwolf, R. T. W., Lehmann, M. M., Goldsmith, G. R., Churakova (Sidorova), O. V., Mirande‐Ney, C., Timoveeva, G., … Saurer, M. (2023). Updating the dual C and O isotope - gas‐exchange model: a concept to understand plant responses to the environment and its implications for tree rings. Plant, Cell and Environment, 46(9), 2606-2627. https://doi.org/10.1111/pce.14630
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
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
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
The &lt;sup&gt;18&lt;/sup&gt;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
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