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Insular woody daisies (Argyranthemum, Asteraceae) are more resistant to drought‐induced hydraulic failure than their herbaceous relatives
(Functional Ecology. vol. 32, n° 6, pp. 1467-1478, 2018)Article de revue -
Vulnerability to embolism in herbaceous and secondarily woody species
Communication dans un congrès -
Herbaceous angiosperms are not more vulnerable to drought-induced embolism than angiosperm trees
(Plant Physiology. vol. 172, n° 2, pp. 661-667, 2016)Article de revue -
Sex determines xylem anatomy in a dioecious conifer: hydraulic consequences in a drier world
(Tree Physiology. vol. 37, n° 11, pp. 1493-1502, 2017)Article de revue -
No role for xylem embolism or carbohydrate shortage in temperate trees during the severe 2015 drought
(Journal of Ecology. vol. 107, n° 1, pp. 334-349, 2019)Article de revue -
Xylem embolism threshold for catastrophic hydraulic failure in angiosperm trees
(Tree Physiology. vol. 33, n° 7, pp. 672-683, 2013)Article de revue -
Plasmodesmatal pores in the torus of bordered pit membranes affect cavitation resistance of conifer xylem
(Plant, Cell and Environment. vol. 35, n° 6, pp. 1109-1120, 2012)Article de revue -
Evolutionary dynamics of the leaf phenological cycle in an oak metapopulation along an elevation gradient.
(Journal of Evolutionary Biology. vol. 30, n° 12, pp. 2116-2131, 2017)Article de revue -
How reliable are methods to assess xylem vulnerability to cavitation? The issue of ‘open vessel’ artifact in oaks
(Tree Physiology. vol. 34, n° 8, pp. 894-905, 2014)Article de revue -
Direct observation and modelling of embolism spread between xylem conduits: a case study in Scots pine
(Plant, Cell and Environment. vol. 39, n° 12, pp. 2774-2785, 2016)Article de revue