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Esca grapevine disease involves leaf hydraulic failure and represents a unique premature senescence process
(Tree Physiology. vol. 43, n° 3, pp. 441-451, 2023-03-09)Article de revue -
Trade-offs and Trait Integration in Tree Phenotypes: Consequences for the Sustainable Use of Genetic Resources
(Current Forestry Reports, 2024-03-20)Article de revue -
Functional xylem characteristics associated with drought‐induced embolism in angiosperms
(New Phytologist. vol. 236, n° 6, pp. 2019-2036, 2022-12)Article de revue -
Vulnerability and hydraulic segmentations at the stem‐leaf transition: Coordination across Neotropical trees
(New Phytologist. vol. 228, n° 2, pp. 512-524, 2020)Article de revue -
On the path from xylem hydraulic failure to downstream cell death
(New Phytologist. vol. 237, n° 3, pp. 793-806, 2023-02)Article de revue -
Unpacking the point of no return under drought in poplar: insight from stem diameter variation
(New Phytologist. vol. 242, n° 2, pp. 466-478, 2024-02-26)Article de revue -
Hurricanes increase tropical forest vulnerability to drought
(New Phytologist. pp. 1-13, 2022-05-24)Article de revue -
Towards a statistically robust determination of minimum water potential and hydraulic risk in plants
(New Phytologist. vol. 232, n° 1, pp. 404 - 417, 2021-07-16)Article de revue -
Adaptive introgression as a driver of local adaptation to climate in European white oaks
(New Phytologist. vol. 226, n° 4, pp. 1171-1182, 2020)Article de revue -
Mechanisms of grapevine resilience to a vascular disease: investigating stem radial growth, xylem development, and physiological acclimation
(Annals of Botany. vol. 133, n° 2, pp. mcad188, 2024)Article de revue