BACKGROUND AND AIMS: Hydraulic studies are currently biased towards conifers and dicotyledonous angiosperms; responses of arborescent monocots to increasing temperature and drought remain poorly known. This study aims to assess xylem resistance to drought-induced embolism in palms. METHODS: We quantified embolism resistance via P50 (xylem pressure inducing 50 % embolism or loss of hydraulic conductivity) in petioles and leaflets of six palm species differing in habitat and phylogenetic relatedness using three techniques: in vivo X-ray-based microcomputed tomography, the in situ flow centrifuge technique and the optical vulnerability method. KEY RESULTS: Our results show that P50 of petioles varies greatly in the palm family, from -2.2 ± 0.4 MPa in Dypsis baronii to -5.8 ± 0.3 MPa in Rhapis excelsa (mean ± s.e.). No difference or weak differences were found between petioles and leaf blades within species. Surprisingly, where differences occurred, leaflets were less vulnerable to embolism than petioles. Embolism resistance was not correlated with conduit size (r = 0.37, P = 0.11). CONCLUSIONS: This study represents the first estimate of drought-induced xylem embolism in palms across biomes and provides the first step towards understanding hydraulic adaptations in long-lived arborescent monocots. It showed an almost 3-fold range of embolism resistance between palm species, as large as that reported in all angiosperms. We found little evidence for hydraulic segmentation between leaflets and petioles in palms, suggesting that when it happens, hydraulic segregation may lack a clear relationship with organ cost or replaceability.
BACKGROUND AND AIMS: Hydraulic studies are currently biased towards conifers and dicotyledonous angiosperms; responses of arborescent monocots to increasing temperature and drought remain poorly known. This study aims to assess xylem resistance to drought-induced embolism in palms. METHODS: We quantified embolism resistance via P50 (xylem pressure inducing 50 % embolism or loss of hydraulic conductivity) in petioles and leaflets of six palm species differing in habitat and phylogenetic relatedness using three techniques: in vivo X-ray-based microcomputed tomography, the in situ flow centrifuge technique and the optical vulnerability method. KEY RESULTS: Our results show that P50 of petioles varies greatly in the palm family, from -2.2 ± 0.4 MPa in Dypsis baronii to -5.8 ± 0.3 MPa in Rhapis excelsa (mean ± s.e.). No difference or weak differences were found between petioles and leaf blades within species. Surprisingly, where differences occurred, leaflets were less vulnerable to embolism than petioles. Embolism resistance was not correlated with conduit size (r = 0.37, P = 0.11). CONCLUSIONS: This study represents the first estimate of drought-induced xylem embolism in palms across biomes and provides the first step towards understanding hydraulic adaptations in long-lived arborescent monocots. It showed an almost 3-fold range of embolism resistance between palm species, as large as that reported in all angiosperms. We found little evidence for hydraulic segmentation between leaflets and petioles in palms, suggesting that when it happens, hydraulic segregation may lack a clear relationship with organ cost or replaceability.
Authors: José M Torres-Ruiz; Hervé Cochard; Brendan Choat; Steven Jansen; Rosana López; Ivana Tomášková; Carmen M Padilla-Díaz; Eric Badel; Regis Burlett; Andrew King; Nicolas Lenoir; Nicolas K Martin-StPaul; Sylvain Delzon Journal: New Phytol Date: 2017-05-03 Impact factor: 10.151
Authors: Mark E Olson; Tommaso Anfodillo; Julieta A Rosell; Giai Petit; Alan Crivellaro; Sandrine Isnard; Calixto León-Gómez; Leonardo O Alvarado-Cárdenas; Matiss Castorena Journal: Ecol Lett Date: 2014-05-22 Impact factor: 9.492
Authors: Thomas L P Couvreur; W Daniel Kissling; Fabien L Condamine; Jens-Christian Svenning; Nick P Rowe; William J Baker Journal: Front Genet Date: 2015-01-08 Impact factor: 4.599
Authors: Hugh Morris; Lenka Plavcová; Patrick Cvecko; Esther Fichtler; Mark A F Gillingham; Hugo I Martínez-Cabrera; Daniel J McGlinn; Elisabeth Wheeler; Jingming Zheng; Kasia Ziemińska; Steven Jansen Journal: New Phytol Date: 2015-11-09 Impact factor: 10.151
Authors: Adriano Losso; Andreas Bär; Birgit Dämon; Christian Dullin; Andrea Ganthaler; Francesco Petruzzellis; Tadeja Savi; Giuliana Tromba; Andrea Nardini; Stefan Mayr; Barbara Beikircher Journal: New Phytol Date: 2018-11-22 Impact factor: 10.151