Success in the Demographic Expansion of Fraxinus Excelsior L. Marigo, G., Peltier, J., Girel, J., & Pautou, G. 15(1):1–13. ![Success in the Demographic Expansion of Fraxinus Excelsior L. [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex This review examines the ecological traits and ecophysiological characteristics of the common ash (Fraxinus excelsior L.) that help to explain the current spread of ash communities in Europe. As a consequence of anthropogenic disturbance, the common ash has experienced new environmental conditions and the frequency of the species has fluctuated over space and time. Owing to its ubiquity, over the last few decades the common ash has been greatly favoured in areas abandoned by agriculture and also along impounded rivers. F. excelsior is a mesophilic species that usually thrives on alluvial soils and can also survive the strong water deficit on hillslopes. Drought tolerance in ash trees is related to stomatal regulation, a decrease in osmotic potential and also an increase in the elastic modulus ε. Malic acid plays a central role in drought tolerance, first as one of the major solutes involved in osmotic adjustment, and second as an effector for stomatal regulation through a drought-induced increase in its xylem concentration.
@article{marigoSuccessDemographicExpansion2000,
title = {Success in the Demographic Expansion of {{Fraxinus}} Excelsior {{L}}.},
author = {Marigo, Gérard and Peltier, Jean-Paul and Girel, Jacky and Pautou, Guy},
date = {2000},
journaltitle = {Trees},
volume = {15},
pages = {1--13},
issn = {0931-1890},
doi = {10.1007/s004680000061},
url = {https://doi.org/10.1007/s004680000061},
abstract = {This review examines the ecological traits and ecophysiological characteristics of the common ash (Fraxinus excelsior L.) that help to explain the current spread of ash communities in Europe. As a consequence of anthropogenic disturbance, the common ash has experienced new environmental conditions and the frequency of the species has fluctuated over space and time. Owing to its ubiquity, over the last few decades the common ash has been greatly favoured in areas abandoned by agriculture and also along impounded rivers. F. excelsior is a mesophilic species that usually thrives on alluvial soils and can also survive the strong water deficit on hillslopes. Drought tolerance in ash trees is related to stomatal regulation, a decrease in osmotic potential and also an increase in the elastic modulus ε. Malic acid plays a central role in drought tolerance, first as one of the major solutes involved in osmotic adjustment, and second as an effector for stomatal regulation through a drought-induced increase in its xylem concentration.},
keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-12524017,europe,fraxinus-excelsior,habitat-suitability,spatial-spread},
number = {1}
}
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