Comptes Rendus
Cavitation in trees
[Cavitation chez les arbres]
Comptes Rendus. Physique, Nucleation, Volume 7 (2006) no. 9-10, pp. 1018-1026.

Le transport de l'eau dans les arbres s'effectue sous tension (pression négative) selon la théorie de la tension–cohésion. L'eau étant physiquement instable dans ces conditions, les colonnes de sève sont sujettes à un risque de cavitation. Au cours des deux dernières décennies, des techniques ont été développées pour étudier ce phénomène de cavitation chez les arbres. Bien qu'opérant constamment sous pressions très négatives, les arbres sont remarquablement prémunis du risque de cavitation. Ce n'est que lors de contraintes hydriques exceptionnelles (grandes sécheresses) ou face à des cycles de gel–dégel, que la cavitation se produit. La cavitation à pour origine une nucléation hétérogène, très probablement par l'aspiration d'une bulle d'air à travers les parois des conduits. Les pressions seuils de cavitation sont extrêmement variables entre espèces, caractère que l'on peut mettre en relation avec la grande diversité fonctionnelle et écologique des arbres.

Sap is transported under tension (i.e. negative pressure) in trees, according to the tension-cohesion theory. Since water is physically instable under negative pressure, a risk of cavitation is possible. Techniques have been developed during the past two decennia to study cavitation in trees. Trees appear remarkably immune to cavitation events. Cavities form only when extreme water stresses occur or when sap freezes. Nucleation is heterogeneous in trees, presumably caused by the aspiration of air bubbles through conduit walls. Threshold xylem pressures for cavitation vary greatly between species, in concordance with the great functional and ecological diversity of trees.

Publié le :
DOI : 10.1016/j.crhy.2006.10.012
Keywords: Cavitation, Embolism, Tree, Tension, Drought, Xylem
Mots-clés : Cavitation, Embolie, Arbre, Tension, Sécheresse, Xylème

Hervé Cochard 1

1 UMR-PIAF, INRA, site de Crouelle, 63100 Clermont-Ferrand, France
@article{CRPHYS_2006__7_9-10_1018_0,
     author = {Herv\'e Cochard},
     title = {Cavitation in trees},
     journal = {Comptes Rendus. Physique},
     pages = {1018--1026},
     publisher = {Elsevier},
     volume = {7},
     number = {9-10},
     year = {2006},
     doi = {10.1016/j.crhy.2006.10.012},
     language = {en},
}
TY  - JOUR
AU  - Hervé Cochard
TI  - Cavitation in trees
JO  - Comptes Rendus. Physique
PY  - 2006
SP  - 1018
EP  - 1026
VL  - 7
IS  - 9-10
PB  - Elsevier
DO  - 10.1016/j.crhy.2006.10.012
LA  - en
ID  - CRPHYS_2006__7_9-10_1018_0
ER  - 
%0 Journal Article
%A Hervé Cochard
%T Cavitation in trees
%J Comptes Rendus. Physique
%D 2006
%P 1018-1026
%V 7
%N 9-10
%I Elsevier
%R 10.1016/j.crhy.2006.10.012
%G en
%F CRPHYS_2006__7_9-10_1018_0
Hervé Cochard. Cavitation in trees. Comptes Rendus. Physique, Nucleation, Volume 7 (2006) no. 9-10, pp. 1018-1026. doi : 10.1016/j.crhy.2006.10.012. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/j.crhy.2006.10.012/

[1] E. Steudle; S.D. Tyerman J. Membrane Biol., 75 (1983), pp. 85-96

[2] C. Maurel Annu. Rev. Plant Biol., 48 (1997), pp. 399-429

[3] L. Mercury; Y. Tardy Geochim. Cosmochim. Acta, 65 (2001), pp. 3391-3408

[4] N. Bréda; A. Granier; F. Barataud; C. Moyne Plant Soil, 172 (1995), pp. 17-27

[5] J.S. Sperry; V. Stiller; U.G. Hacke Agron. J., 95 (2003), pp. 1362-1370

[6] H. Cochard, J.S. Venisse, T. Barigah, N. Brunel, S. Herbette, A. Guilliot, M.T. Tyree, S. Sakr, Plant Physiol., in press

[7] T. Böhm J. Ber. Dtsch. Bot. Ges., 11 (1893), pp. 203-212

[8] H.H. Dixon; J. Joly Philos. Trans. R. Soc. London Ser. B, 186 (1894), pp. 563-576

[9] M.J. Canny; M.E. McCully; C.X. Huang Plant Physiol. Biochem., 39 (2001), pp. 555-563

[10] H. Cochard; C. Bodet; T. Ameglio; P. Cruiziat Plant Physiol., 124 (2000), pp. 1191-1202

[11] J.A. Milburn Planta, 69 (1966), pp. 34-42

[12] M.T. Tyree; M. Dixon Plant Physiol., 72 (1983), pp. 1094-1099

[13] H. Cochard; M.T. Tyree Tree Physiol., 6 (1990), pp. 393-407

[14] S.B. Kikuta Phyton Ann. Rei Bot., 43 (2003), pp. 161-178

[15] S. Rosner; A. Klein; R. Wimmer; B. Karlsson New Phytol., 171 (2006), pp. 105-116

[16] J.S. Sperry; J.R. Donnelly; M.T. Tyree Plant Cell Environ., 11 (1988), pp. 35-40

[17] S.D. Davis; J.S. Sperry; U.G. Hacke Am. J. Bot., 86 (1999), pp. 1367-1372

[18] S. Mayr, H. Cochard, T. Améglio, S. Kikuta, Plant Physiol., in press

[19] H. Cochard; G. Damour; C. Bodet; I. Tharwat; M. Poirier; T. Améglio Physiol. Plantarum, 124 (2005), pp. 410-418

[20] N.W. Pammenter; C. Vanderwilligen Tree Physiol., 18 (1998), pp. 589-593

[21] W.F. Pickard Prog. Biophys. Mol. Biol., 37 (1981), pp. 181-229

[22] L.J. Briggs J. Appl. Phys., 21 (1950), pp. 721-722

[23] E. Herbert; F. Caupin J. Phys. Condens. Mater., 17 (2005), pp. 3597-3602

[24] H. Cochard; P. Cruiziat; M.T. Tyree Plant Physiol., 100 (1992), pp. 205-209

[25] A.L. Jacobsen; F.W. Ewers; R.B. Pratt; W.A. Paddock; S.D. Davis Plant Physiol., 139 (2005), pp. 546-556

[26] B. Choat; T.W. Brodie; A.R. Cobb; M.A. Zwieniecki; N.M. Holbrook Am. J. Bot., 93 (2006), pp. 993-1000

[27] U.G. Hacke; J.S. Sperry; J. Pitterman Am. J. Bot., 91 (2004), pp. 386-400

  • Voichita Bucur Acoustics of Trees, Acoustics of Wood (2025), p. 241 | DOI:10.1007/978-3-662-70209-3_11
  • Mahaut Van Rooij; Thierry Améglio; Olivier Baubet; Nathalie Bréda; Guillaume Charrier Potential processes leading to winter reddening of young Douglas-fir Pseudotsuga menziesii Mirb. Franco. in Europe, Annals of Forest Science, Volume 81 (2024) no. 1 | DOI:10.1186/s13595-024-01242-x
  • Dario Zambonini; Tadeja Savi; Sabine Rosner; Giai Petit Consistent decrease in conifer embolism resistance from the stem apex to base resulting from axial trends in tracheid and pit traits, Frontiers in Plant Science, Volume 15 (2024) | DOI:10.3389/fpls.2024.1414448
  • Mara Paneghel; Gil Torné; Xavier Morin; Josu G. Alday; Lluís Coll Increasing temperature threatens post‐fire auto‐successional dynamics of a Mediterranean obligate seeder, Journal of Ecology, Volume 112 (2024) no. 12, p. 2929 | DOI:10.1111/1365-2745.14433
  • Eugénie Mas; Alberto Vilagrosa; Luna Morcillo; Matthias Saurer; Fernando Valladares; Charlotte Grossiord Drought effects in Mediterranean forests are not alleviated by diversity‐driven water source partitioning, Journal of Ecology, Volume 112 (2024) no. 9, p. 2107 | DOI:10.1111/1365-2745.14387
  • Eugénie Mas; Hervé Cochard; Janisse Deluigi; Margaux Didion‐Gency; Nicolas Martin‐StPaul; Luna Morcillo; Fernando Valladares; Alberto Vilagrosa; Charlotte Grossiord Interactions between beech and oak seedlings can modify the effects of hotter droughts and the onset of hydraulic failure, New Phytologist, Volume 241 (2024) no. 3, p. 1021 | DOI:10.1111/nph.19358
  • Olivier Vincent; Théo Tassin; Erik J. Huber; Abraham D. Stroock Tunable transport in bidisperse porous materials with vascular structure, Physical Review Fluids, Volume 9 (2024) no. 6 | DOI:10.1103/physrevfluids.9.064202
  • Ailo Aasen; Morten Hammer; David Reguera; Øivind Wilhelmsen Estimating metastable thermodynamic properties by isochoric extrapolation from stable states, The Journal of Chemical Physics, Volume 161 (2024) no. 4 | DOI:10.1063/5.0220207
  • Andrea Nardini; Hervé Cochard; Stefan Mayr Talk is cheap: rediscovering sounds made by plants, Trends in Plant Science, Volume 29 (2024) no. 6, p. 662 | DOI:10.1016/j.tplants.2023.11.023
  • Chunyang Wang; Ruoqian Lin; Yubin He; Peichao Zou; Kim Kisslinger; Qi He; Ju Li; Huolin L. Xin Tension‐Induced Cavitation in Li‐Metal Stripping, Advanced Materials, Volume 35 (2023) no. 7 | DOI:10.1002/adma.202209091
  • Ying Liu; Peng Li; Yunxia Wang; Xiaoyang Xu Quantification of carbon-water dynamics in soil-perennial grass (Bothriochloa ischaemum) feedbacks under drought stress following a double isotope-labelled pulse experiment, Agricultural and Forest Meteorology, Volume 329 (2023), p. 109270 | DOI:10.1016/j.agrformet.2022.109270
  • Ilaria Battisti; Dario Zambonini; Leonard Barnabas Ebinezer; Anna Rita Trentin; Franco Meggio; Giai Petit; Antonio Masi Perfluoroalkyl substances exposure alters stomatal opening and xylem hydraulics in willow plants, Chemosphere, Volume 344 (2023), p. 140380 | DOI:10.1016/j.chemosphere.2023.140380
  • Frédéric Caupin Fluid inclusions in minerals: from geosciences to the physics of water and back, Comptes Rendus. Physique, Volume 23 (2023) no. S2, p. 71 | DOI:10.5802/crphys.127
  • Safa Balekoglu; Servet Caliskan; Hüseyin Dirik; Sabine Rosner Response to drought stress differs among Pinus pinea provenances, Forest Ecology and Management, Volume 531 (2023), p. 120779 | DOI:10.1016/j.foreco.2023.120779
  • Mingwei Xu; Ke Li; Yanling Xue; Feixiang Wang; Zhixuan Liu; Zenghao Song; Tiqiao Xiao Water refilling along vessels at initial stage of willow cuttage revealed by move contrast CT, Frontiers in Physics, Volume 11 (2023) | DOI:10.3389/fphy.2023.1174387
  • Camille Ziegler; Sébastien Levionnois; Damien Bonal; Patrick Heuret; Clément Stahl; Sabrina Coste Large leaf hydraulic safety margins limit the risk of drought‐induced leaf hydraulic dysfunction in Neotropical rainforest canopy tree species, Functional Ecology, Volume 37 (2023) no. 6, p. 1717 | DOI:10.1111/1365-2435.14325
  • Giambattista Carluccio; Davide Greco; Erika Sabella; Marzia Vergine; Luigi De Bellis; Andrea Luvisi Xylem Embolism and Pathogens: Can the Vessel Anatomy of Woody Plants Contribute to X. fastidiosa Resistance?, Pathogens, Volume 12 (2023) no. 6, p. 825 | DOI:10.3390/pathogens12060825
  • Siyang Li; Panpan Zhu; Yaoting Xue; Lei Wang; Tuck-Whye Wong; Xuxu Yang; Haofei Zhou; Tiefeng Li; Wei Yang Inhibition of Heterogeneous Nucleation in Water by Hydrogel Coating, Research, Volume 6 (2023) | DOI:10.34133/research.0190
  • Peter Hietz; Sabine Rosner; Klaus Scheicher The three-dimensional structure of wood enables horizontal water transport needed to conduct water around lesions, Scientific Reports, Volume 13 (2023) no. 1 | DOI:10.1038/s41598-023-41817-8
  • Chris J Blackman; Lise-Marie Billon; Julien Cartailler; José M Torres-Ruiz; Hervé Cochard; Teemu Holtta Key hydraulic traits control the dynamics of plant dehydration in four contrasting tree species during drought, Tree Physiology, Volume 43 (2023) no. 10, p. 1772 | DOI:10.1093/treephys/tpad075
  • Khaled Abdelaal; Moodi Saham Alsubeie; Yaser Hafez; Amero Emeran; Farahat Moghanm; Salah Okasha; Reda Omara; Mohammed A. Basahi; Doaa Bahaa Eldin Darwish; Mohamed F. M. Ibrahim; Ahmed Abou El-Yazied; Emadeldeen Ahmed Rashwan; Amr Elkelish; Mohamed Ahmed Mady; Farag Ibraheem Physiological and Biochemical Changes in Vegetable and Field Crops under Drought, Salinity and Weeds Stresses: Control Strategies and Management, Agriculture, Volume 12 (2022) no. 12, p. 2084 | DOI:10.3390/agriculture12122084
  • Sunxiang Zheng; Meiqi Yang; Xi Chen; Claire E. White; Liangbing Hu; Zhiyong Jason Ren Upscaling 3D Engineered Trees for Off-Grid Desalination, Environmental Science Technology, Volume 56 (2022) no. 2, p. 1289 | DOI:10.1021/acs.est.1c05777
  • Tomasz Jelonek; Joanna Kopaczyk; Mathias Neumann; Arkadiusz Tomczak; Witold Pazdrowski; Witold Grzywiński; Katarzyna Klimek; Bartłomiej Naskrent; Robert Kuźmiński; Tomasz Szwed How Wood Quality Can Be Shaped: Results of 70 Years of Experience, Forests, Volume 13 (2022) no. 12, p. 2103 | DOI:10.3390/f13122103
  • Giai Petit; Dario Zambonini; Benjamin D. Hesse; Karl‐Heinz Häberle No xylem phenotypic plasticity in mature Picea abies and Fagus sylvatica trees after 5 years of throughfall precipitation exclusion, Global Change Biology, Volume 28 (2022) no. 15, p. 4668 | DOI:10.1111/gcb.16232
  • Xinguang Cao; Hongbing Hu; Pei‐ken Kao; Brendan M. Buckley; Zhipeng Dong; Xiuling Chen; Feifei Zhou; Keyan Fang Improved spring temperature reconstruction using earlywood blue intensity in southeastern China, International Journal of Climatology, Volume 42 (2022) no. 12, p. 6204 | DOI:10.1002/joc.7585
  • Yanjun Song; Lourens Poorter; Angelina Horsting; Sylvain Delzon; Frank Sterck; Anja Geitmann Pit and tracheid anatomy explain hydraulic safety but not hydraulic efficiency of 28 conifer species, Journal of Experimental Botany, Volume 73 (2022) no. 3, p. 1033 | DOI:10.1093/jxb/erab449
  • Yannik Müllers; Johannes A Postma; Hendrik Poorter; Dagmar van Dusschoten Stomatal conductance tracks soil-to-leaf hydraulic conductance in faba bean and maize during soil drying, Plant Physiology, Volume 190 (2022) no. 4, p. 2279 | DOI:10.1093/plphys/kiac422
  • Olivier Vincent Negative Pressure and Cavitation Dynamics in Plant-like Structures, Soft Matter in Plants (2022), p. 119 | DOI:10.1039/9781839161162-00119
  • Shan Li; Xin Li; Jie Wang; Zhicheng Chen; Sen Lu; Xianchong Wan; Hongyan Sun; Li Wang; Sylvain Delzon; Herve Cochard; Xiaomei Jiang; Jianhua Shu; Jingming Zheng; Yafang Yin; Jordi Martinez-Vilalta Hydraulic traits are coupled with plant anatomical traits under drought–rewatering cycles in Ginkgo biloba L., Tree Physiology, Volume 42 (2022) no. 6, p. 1216 | DOI:10.1093/treephys/tpab174
  • Yang Shen; Weizhong Chen; Lingling Zhang; Yaorong Wu; Shaoyang Kou; Guoying Zhao The dynamics of cavitation bubbles in a sealed vessel, Ultrasonics Sonochemistry, Volume 82 (2022), p. 105865 | DOI:10.1016/j.ultsonch.2021.105865
  • Xianmei Zhang; Fan Li; Chenghui Wang; Jianzhong Guo; Runyang Mo; Jing Hu; Shi Chen; Jiaxin He; Honghan Liu Radial oscillation and translational motion of a gas bubble in a micro-cavity, Ultrasonics Sonochemistry, Volume 84 (2022), p. 105957 | DOI:10.1016/j.ultsonch.2022.105957
  • Ajaree Thonglim; Sylvain Delzon; Maximilian Larter; Omid Karami; Arezoo Rahimi; Remko Offringa; Joost J B Keurentjes; Salma Balazadeh; Erik Smets; Frederic Lens Intervessel pit membrane thickness best explains variation in embolism resistance amongst stems of Arabidopsis thaliana accessions, Annals of Botany, Volume 128 (2021) no. 2, p. 171 | DOI:10.1093/aob/mcaa196
  • Timo Pampuch; Alba Anadon-Rosell; Mario Trouillier; Jelena Lange; Martin Wilmking Direct and Indirect Effects of Environmental Limitations on White Spruce Xylem Anatomy at Treeline, Frontiers in Plant Science, Volume 12 (2021) | DOI:10.3389/fpls.2021.748055
  • Magdalena Held; Andrea Ganthaler; Anna Lintunen; Walter Oberhuber; Stefan Mayr Tracheid and Pit Dimensions Hardly Vary in the Xylem of Pinus sylvestris Under Contrasting Growing Conditions, Frontiers in Plant Science, Volume 12 (2021) | DOI:10.3389/fpls.2021.786593
  • Benjamin Dollet; Kennedy Nexon Chagua Encarnación; Romain Gautier; Philippe Marmottant Drying by pervaporation in elementary channel networks, Journal of Fluid Mechanics, Volume 906 (2021) | DOI:10.1017/jfm.2020.794
  • Jessica A. Savage; Isabelle Chuine Coordination of spring vascular and organ phenology in deciduous angiosperms growing in seasonally cold climates, New Phytologist, Volume 230 (2021) no. 5, p. 1700 | DOI:10.1111/nph.17289
  • Konstantin Leonov; Iskander Akhatov Dynamics of an externally driven cavitation bubble in an elastic microconfinement, Physical Review E, Volume 104 (2021) no. 1 | DOI:10.1103/physreve.104.015105
  • J. L. Liu; W. Xiao; X. L. Yao; X. H. Huang Dynamics of a bubble in a liquid fully confined by an elastic boundary, Physics of Fluids, Volume 33 (2021) no. 6 | DOI:10.1063/5.0052287
  • Mohammad Mukarram; Sadaf Choudhary; Daniel Kurjak; Anja Petek; M. Masroor A. Khan Drought: Sensing, signalling, effects and tolerance in higher plants, Physiologia Plantarum, Volume 172 (2021) no. 2, p. 1291 | DOI:10.1111/ppl.13423
  • Marielle Gattmann; Benjamin Birami; Daniel Nadal Sala; Nadine Katrin Ruehr Dying by drying: Timing of physiological stress thresholds related to tree death is not significantly altered by highly elevated CO2, Plant, Cell Environment, Volume 44 (2021) no. 2, p. 356 | DOI:10.1111/pce.13937
  • Elisa Driesen; Maurice De Proft; Wouter Saeys Soil Moisture Levels Affect the Anatomy and Mechanical Properties of Basil Stems (Ocimum basilicum L.), Plants, Volume 10 (2021) no. 7, p. 1320 | DOI:10.3390/plants10071320
  • Xianmei Zhang; Fan Li; Chenghui Wang; Jianzhong Guo; Runyang Mo; Jing Hu; Shi Chen; Jiaxin He; Honghan Liu Pulsation and Translational Motion of a Gas Bubble in a Micro-Cavity, SSRN Electronic Journal (2021) | DOI:10.2139/ssrn.3968042
  • Shaobao Liu; Han Liu; Jiaojiao Jiao; Jun Yin; Tian Jian Lu; Feng Xu Biomechanics in plant resistance to drought, Acta Mechanica Sinica, Volume 36 (2020) no. 5, p. 1142 | DOI:10.1007/s10409-020-00980-1
  • Paige E. Panter; Jack R. Panter; Heather Knight Impact of Cell‐wall Structure and Composition on Plant Freezing Tolerance, Annual Plant Reviews online (2020), p. 607 | DOI:10.1002/9781119312994.apr0746
  • Konstantin Leonov; Iskander Akhatov Towards a theory of dynamics of a single cavitation bubble in a rigid micro-confinement, International Journal of Multiphase Flow, Volume 130 (2020), p. 103369 | DOI:10.1016/j.ijmultiphaseflow.2020.103369
  • Sara Adibi; Justin W. Wilkerson Evolving structure–property relationships in metals with nonequilibrium concentrations of vacancies, Journal of Applied Physics, Volume 127 (2020) no. 13 | DOI:10.1063/5.0004014
  • Eunice Romero; Edgar J. González; Jorge A. Meave; Teresa Terrazas Wood anatomy of dominant species with contrasting ecological performance in tropical dry forest succession, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, Volume 154 (2020) no. 4, p. 524 | DOI:10.1080/11263504.2019.1651775
  • Natasa Kiorapostolou; J Julio Camarero; Marco Carrer; Frank Sterck; Brigita Brigita; Gabriel Sangüesa-Barreda; Giai Petit Scots pine trees react to drought by increasing xylem and phloem conductivities, Tree Physiology, Volume 40 (2020) no. 6, p. 774 | DOI:10.1093/treephys/tpaa033
  • Paulo C. C. Virgulino-Júnior; Danilo C. L. Gardunho; Diego N. C. Silva; Marcus E. B. Fernandes Wood density in mangrove forests on the Brazilian Amazon coast, Trees, Volume 34 (2020) no. 1, p. 51 | DOI:10.1007/s00468-019-01896-5
  • M. Jourdan; F. Lebourgeois; X. Morin The effect of tree diversity on the resistance and recovery of forest stands in the French Alps may depend on species differences in hydraulic features, Forest Ecology and Management, Volume 450 (2019), p. 117486 | DOI:10.1016/j.foreco.2019.117486
  • Shi-Ping Wang; Qianxi Wang; A-Man Zhang; Eleanor Stride Experimental observations of the behaviour of a bubble inside a circular rigid tube, International Journal of Multiphase Flow, Volume 121 (2019), p. 103096 | DOI:10.1016/j.ijmultiphaseflow.2019.103096
  • Saverio Perri; Gabriel G. Katul; Annalisa Molini Xylem–phloem hydraulic coupling explains multiple osmoregulatory responses to salt stress, New Phytologist, Volume 224 (2019) no. 2, p. 644 | DOI:10.1111/nph.16072
  • Mingbing Wu; Wei Wei; Xiaowei Liu; Kang Liu; Song Li Structure and dynamic properties of stretched water in graphene nanochannels by molecular dynamics simulation: effects of stretching extent, Physical Chemistry Chemical Physics, Volume 21 (2019) no. 35, p. 19163 | DOI:10.1039/c9cp03981c
  • Alexander A. Doinikov; Diane Bienaimé; S. Roberto Gonzalez-Avila; Claus-Dieter Ohl; Philippe Marmottant Nonlinear dynamics of two coupled bubbles oscillating inside a liquid-filled cavity surrounded by an elastic medium, Physical Review E, Volume 99 (2019) no. 5 | DOI:10.1103/physreve.99.053106
  • Niels J F De Baerdemaeker; Keerthika Nirmani Ranathunga Arachchige; Jana Zinkernagel; Jan Van den Bulcke; Joris Van Acker; H Jochen Schenk; Kathy Steppe; Roberto Tognetti The stability enigma of hydraulic vulnerability curves: addressing the link between hydraulic conductivity and drought-induced embolism, Tree Physiology, Volume 39 (2019) no. 10, p. 1646 | DOI:10.1093/treephys/tpz078
  • Jeffrey D Lauder; Emily V Moran; Stephen C Hart; Andrea Polle Fight or flight? Potential tradeoffs between drought defense and reproduction in conifers, Tree Physiology, Volume 39 (2019) no. 7, p. 1071 | DOI:10.1093/treephys/tpz031
  • Meeli Alber; Giai Petit; Arne Sellin Does elevated air humidity modify hydraulically relevant anatomical traits of wood in Betula pendula?, Trees, Volume 33 (2019) no. 5, p. 1361 | DOI:10.1007/s00468-019-01863-0
  • Audrey Lemay; Cornelia Krause; Alexis Achim Comparison of wood density in roots and stems of black spruce before and after commercial thinning, Forest Ecology and Management, Volume 408 (2018), p. 94 | DOI:10.1016/j.foreco.2017.10.042
  • William Dudefoi; Ana Villares; Stéphane Peyron; Céline Moreau; Marie-Hélène Ropers; Nathalie Gontard; Bernard Cathala Nanoscience and nanotechnologies for biobased materials, packaging and food applications: New opportunities and concerns, Innovative Food Science Emerging Technologies, Volume 46 (2018), p. 107 | DOI:10.1016/j.ifset.2017.09.007
  • Alexander A. Doinikov; Philippe Marmottant Natural oscillations of a gas bubble in a liquid-filled cavity located in a viscoelastic medium, Journal of Sound and Vibration, Volume 420 (2018), p. 61 | DOI:10.1016/j.jsv.2018.01.034
  • Giai Petit; Georg von Arx; Natasa Kiorapostolou; Silvia Lechthaler; Angela Luisa Prendin; Tommaso Anfodillo; Maria C. Caldeira; Hervé Cochard; Paul Copini; Alan Crivellaro; Sylvain Delzon; Roman Gebauer; Jožica Gričar; Leila Grönholm; Teemu Hölttä; Tuula Jyske; Martina Lavrič; Anna Lintunen; Raquel Lobo‐do‐Vale; Mikko Peltoniemi; Richard L. Peters; Elisabeth M. R. Robert; Sílvia Roig Juan; Martin Senfeldr; Kathy Steppe; Josef Urban; Janne Van Camp; Frank Sterck Tree differences in primary and secondary growth drive convergent scaling in leaf area to sapwood area across Europe, New Phytologist, Volume 218 (2018) no. 4, p. 1383 | DOI:10.1111/nph.15118
  • Alexander A. Doinikov; Benjamin Dollet; Philippe Marmottant Model for the growth and the oscillation of a cavitation bubble in a spherical liquid-filled cavity enclosed in an elastic medium, Physical Review E, Volume 97 (2018) no. 1 | DOI:10.1103/physreve.97.013108
  • Alexander A. Doinikov; Benjamin Dollet; Philippe Marmottant Cavitation in a liquid-filled cavity surrounded by an elastic medium: Intercoupling of cavitation events in neighboring cavities, Physical Review E, Volume 98 (2018) no. 1 | DOI:10.1103/physreve.98.013108
  • Sébastien Michelin; Etienne Guérin; Eric Lauga Collective dissolution of microbubbles, Physical Review Fluids, Volume 3 (2018) no. 4 | DOI:10.1103/physrevfluids.3.043601
  • S. P. Wang; Q. X. Wang; D. M. Leppinen; A. M. Zhang; Y. L. Liu Acoustic bubble dynamics in a microvessel surrounded by elastic material, Physics of Fluids, Volume 30 (2018) no. 1 | DOI:10.1063/1.5005534
  • Surface stability of a bubble in a liquid fully confined by an elastic solid, Physics of Fluids, Volume 30 (2018) no. 12, p. 127106 | DOI:10.1063/1.5055744
  • Hafiz B. Ahmad; Frederic Lens; Gaelle Capdeville; Régis Burlett; Laurent J. Lamarque; Sylvain Delzon Intraspecific variation in embolism resistance and stem anatomy across four sunflower (Helianthus annuus L.) accessions, Physiologia Plantarum, Volume 163 (2018) no. 1, p. 59 | DOI:10.1111/ppl.12654
  • Thierry Allario; Aude Tixier; Hosam Awad; Cedric Lemaire; Nicole Brunel; Eric Badel; Têtè S. Barigah; Jean‐Louis Julien; Pierre Peyret; Ewa J. Mellerowicz; Herve Cochard; Stephane Herbette PtxtPME1 and homogalacturonans influence xylem hydraulic properties in poplar, Physiologia Plantarum, Volume 163 (2018) no. 4, p. 502 | DOI:10.1111/ppl.12702
  • Jose Gutierrez Lopez; Julian Licata; Thomas Pypker; Heidi Asbjornsen; Kathy Steppe Effects of heater wattage on sap flux density estimates using an improved tree-cut experiment, Tree Physiology (2018) | DOI:10.1093/treephys/tpy137
  • Héloïse Bastiaanse; Guillaume Théroux-Rancourt; Aude Tixier Abiotic Stress, Comparative and Evolutionary Genomics of Angiosperm Trees, Volume 21 (2017), p. 275 | DOI:10.1007/7397_2016_13
  • Peng Wang; Wei Gao; Justin Wilkerson; Kenneth M. Liechti; Rui Huang Cavitation of water by volume-controlled stretching, Extreme Mechanics Letters, Volume 11 (2017), p. 59 | DOI:10.1016/j.eml.2016.12.004
  • Elisabet Martínez-Sancho; Isabel Dorado-Liñán; Uwe G. Hacke; Hannes Seidel; Annette Menzel Contrasting Hydraulic Architectures of Scots Pine and Sessile Oak at Their Southernmost Distribution Limits, Frontiers in Plant Science, Volume 8 (2017) | DOI:10.3389/fpls.2017.00598
  • Olivier Vincent; Philippe Marmottant On the statics and dynamics of fully confined bubbles, Journal of Fluid Mechanics, Volume 827 (2017), p. 194 | DOI:10.1017/jfm.2017.487
  • Teemu Hölttä; Anna Lintunen; Tommy Chan; Annikki Mäkelä; Eero Nikinmaa A steady-state stomatal model of balanced leaf gas exchange, hydraulics and maximal source–sink flux, Tree Physiology, Volume 37 (2017) no. 7, p. 851 | DOI:10.1093/treephys/tpx011
  • Sharad Kumar Baral; Frank Berninger; Robert Schneider; David Pothier Effects of heartwood formation on sugar maple (Acer saccharum Marshall) discoloured wood proportion, Trees, Volume 31 (2017) no. 1, p. 105 | DOI:10.1007/s00468-016-1459-5
  • David Gonzalez-Rodriguez; Paul-Henry Cournède; Emmanuel de Langre Turgidity-dependent petiole flexibility enables efficient water use by a tree subjected to water stress, Journal of Theoretical Biology, Volume 398 (2016), p. 20 | DOI:10.1016/j.jtbi.2016.03.011
  • Sean M. Gleason; Mark Westoby; Steven Jansen; Brendan Choat; Uwe G. Hacke; Robert B. Pratt; Radika Bhaskar; Tim J. Brodribb; Sandra J. Bucci; Kun‐Fang Cao; Hervé Cochard; Sylvain Delzon; Jean‐Christophe Domec; Ze‐Xin Fan; Taylor S. Feild; Anna L. Jacobsen; Daniel M. Johnson; Frederic Lens; Hafiz Maherali; Jordi Martínez‐Vilalta; Stefan Mayr; Katherine A. McCulloh; Maurizio Mencuccini; Patrick J. Mitchell; Hugh Morris; Andrea Nardini; Jarmila Pittermann; Lenka Plavcová; Stefan G. Schreiber; John S. Sperry; Ian J. Wright; Amy E. Zanne Weak tradeoff between xylem safety and xylem‐specific hydraulic efficiency across the world's woody plant species, New Phytologist, Volume 209 (2016) no. 1, p. 123 | DOI:10.1111/nph.13646
  • Giai Petit; Tadeja Savi; Martina Consolini; Tommaso Anfodillo; Andrea Nardini; Maurizio Mencuccini Interplay of growth rate and xylem plasticity for optimal coordination of carbon and hydraulic economies inFraxinus ornustrees, Tree Physiology (2016) | DOI:10.1093/treephys/tpw069
  • Stéphane Herbette; Brigitte Bouchet; Nicole Brunel; Estelle Bonnin; Hervé Cochard; Fabienne Guillon Immunolabelling of intervessel pits for polysaccharides and lignin helps in understanding their hydraulic properties in Populus tremula × alba, Annals of Botany, Volume 115 (2015) no. 2, p. 187 | DOI:10.1093/aob/mcu232
  • L. T. Berner; B. E. Law Water limitations on forest carbon cycling and conifer traits along a steep climatic gradient in the Cascade Mountains, Oregon, Biogeosciences, Volume 12 (2015) no. 22, p. 6617 | DOI:10.5194/bg-12-6617-2015
  • D Bach; F Schmich; T Masselter; T Speck A review of selected pumping systems in nature and engineering—potential biomimetic concepts for improving displacement pumps and pulsation damping, Bioinspiration Biomimetics, Volume 10 (2015) no. 5, p. 051001 | DOI:10.1088/1748-3190/10/5/051001
  • Mathias Baudis; Thomas Premper; Erik Welk; Helge Bruelheide The response of three Fagus sylvatica L. provenances to water availability at different soil depths, Ecological Research, Volume 30 (2015) no. 5, p. 853 | DOI:10.1007/s11284-015-1287-x
  • Fallon M. Tanentzap; Peter Ryser Decreased resistance to embolism in red maple (Acer rubrum L.) saplings within a heavy metal contaminated region, Environmental and Experimental Botany, Volume 109 (2015), p. 40 | DOI:10.1016/j.envexpbot.2014.07.019
  • J. Urban; J. Čermák; R. Ceulemans Above- and below-ground biomass, surface and volume, and stored water in a mature Scots pine stand, European Journal of Forest Research, Volume 134 (2015) no. 1, p. 61 | DOI:10.1007/s10342-014-0833-3
  • Maurizio Mencuccini; Francesco Minunno; Yann Salmon; Jordi Martínez‐Vilalta; Teemu Hölttä Coordination of physiological traits involved in drought‐induced mortality of woody plants, New Phytologist, Volume 208 (2015) no. 2, p. 396 | DOI:10.1111/nph.13461
  • Samuel L. Zelinka; Keith J. Bourne; John C. Hermanson; Samuel V. Glass; Adriana Costa; Alex C. Wiedenhoeft Force–displacement measurements of earlywood bordered pits using a mesomechanical tester, Plant, Cell Environment, Volume 38 (2015) no. 10, p. 2088 | DOI:10.1111/pce.12532
  • Aude Tixier; Stephane Herbette; Steven Jansen; Marie Capron; Philippe Tordjeman; Hervé Cochard; Eric Badel Modelling the mechanical behaviour of pit membranes in bordered pits with respect to cavitation resistance in angiosperms, Annals of Botany, Volume 114 (2014) no. 2, p. 325 | DOI:10.1093/aob/mcu109
  • Marianne Peiffer; Nathalie Bréda; Vincent Badeau; André Granier Disturbances in European beech water relation during an extreme drought, Annals of Forest Science, Volume 71 (2014) no. 7, p. 821 | DOI:10.1007/s13595-014-0383-3
  • Mathias Baudis; Ruth H. Ellerbrock; Katja Felsmann; Arthur Gessler; Katharina Gimbel; Zachary Kayler; Heike Puhlmann; Andreas Ulrich; Markus Weiler; Erik Welk; Helge Bruelheide Intraspecific differences in responses to rainshelter-induced drought and competition of Fagus sylvatica L. across Germany, Forest Ecology and Management, Volume 330 (2014), p. 283 | DOI:10.1016/j.foreco.2014.07.012
  • Jérôme Chave Floristic shifts versus critical transitions in Amazonian forest systems, Forests and Global Change (2014), p. 131 | DOI:10.1017/cbo9781107323506.009
  • Pauline S. Bouche; Maximilien Larter; Jean-Christophe Domec; Régis Burlett; Peter Gasson; Steven Jansen; Sylvain Delzon A broad survey of hydraulic and mechanical safety in the xylem of conifers, Journal of Experimental Botany, Volume 65 (2014) no. 15, p. 4419 | DOI:10.1093/jxb/eru218
  • Hae Koo Kim; Joonghyuk Park; Ildoo Hwang Investigating water transport through the xylem network in vascular plants, Journal of Experimental Botany, Volume 65 (2014) no. 7, p. 1895 | DOI:10.1093/jxb/eru075
  • A. Ponomarenko; O. Vincent; A. Pietriga; H. Cochard; É. Badel; P. Marmottant Ultrasonic emissions reveal individual cavitation bubbles in water-stressed wood, Journal of The Royal Society Interface, Volume 11 (2014) no. 99, p. 20140480 | DOI:10.1098/rsif.2014.0480
  • Tamir Klein; Dan Yakir; Nina Buchmann; José M. Grünzweig Towards an advanced assessment of the hydrological vulnerability of forests to climate change‐induced drought, New Phytologist, Volume 201 (2014) no. 3, p. 712 | DOI:10.1111/nph.12548
  • Anaïs Dusotoit‐Coucaud; Nicole Brunel; Aude Tixier; Hervé Cochard; Stéphane Herbette Hydrolase treatments help unravel the function of intervessel pits in xylem hydraulics, Physiologia Plantarum, Volume 150 (2014) no. 3, p. 388 | DOI:10.1111/ppl.12092
  • PATRIZIA TRIFILÒ; FABIO RAIMONDO; MARIA A. LO GULLO; PIERA M. BARBERA; SEBASTIANO SALLEO; ANDREA NARDINI Relax and refill: xylem rehydration prior to hydraulic measurements favours embolism repair in stems and generates artificially low PLC values, Plant, Cell Environment, Volume 37 (2014) no. 11, p. 2491 | DOI:10.1111/pce.12313
  • Olivier Vincent; Philippe Marmottant; S. Roberto Gonzalez-Avila; Keita Ando; Claus-Dieter Ohl The fast dynamics of cavitation bubbles within water confined in elastic solids, Soft Matter, Volume 10 (2014) no. 10, p. 1455 | DOI:10.1039/c3sm52697f
  • Liguo Hu; Han Zhou; Hanxing Zhu; Tongxiang Fan; Di Zhang Efficient network-matrix architecture for general flow transport inspired by natural pinnate leaves, Soft Matter, Volume 10 (2014) no. 42, p. 8442 | DOI:10.1039/c4sm01413h
  • Miguel A. González; Georg Menzl; Juan L. Aragones; Philipp Geiger; Frederic Caupin; Jose L. F. Abascal; Christoph Dellago; Chantal Valeriani Detecting vapour bubbles in simulations of metastable water, The Journal of Chemical Physics, Volume 141 (2014) no. 18 | DOI:10.1063/1.4896216
  • Frederic Lens; Aude Tixier; Hervé Cochard; John S Sperry; Steven Jansen; Stephane Herbette Embolism resistance as a key mechanism to understand adaptive plant strategies, Current Opinion in Plant Biology, Volume 16 (2013) no. 3, p. 287 | DOI:10.1016/j.pbi.2013.02.005
  • Tomasz Hueckel; Boleslaw Mielniczuk; Moulay Said El Youssoufi, Geo-Congress 2013 (2013), p. 808 | DOI:10.1061/9780784412787.082
  • Hervé Cochard; Eric Badel; Stéphane Herbette; Sylvain Delzon; Brendan Choat; Steven Jansen Methods for measuring plant vulnerability to cavitation: a critical review, Journal of Experimental Botany, Volume 64 (2013) no. 15, p. 4779 | DOI:10.1093/jxb/ert193
  • Frédéric Caupin; Abraham D. Stroock The Stability Limit and other Open Questions on Water at Negative Pressure, Liquid Polymorphism, Volume 152 (2013), p. 51 | DOI:10.1002/9781118540350.ch3
  • Katline Charra-Vaskou; Guillaume Charrier; Rémi Wortemann; Barbara Beikircher; Hervé Cochard; Thierry Ameglio; Stefan Mayr Drought and frost resistance of trees: a comparison of four species at different sites and altitudes, Annals of Forest Science, Volume 69 (2012) no. 3, p. 325 | DOI:10.1007/s13595-011-0160-5
  • V. Nozahic; S. Amziane Influence of sunflower aggregates surface treatments on physical properties and adhesion with a mineral binder, Composites Part A: Applied Science and Manufacturing, Volume 43 (2012) no. 11, p. 1837 | DOI:10.1016/j.compositesa.2012.07.011
  • Hosam Awad; Stéphane Herbette; Nicole Brunel; Aude Tixier; Gilles Pilate; Hervé Cochard; Eric Badel No trade-off between hydraulic and mechanical properties in several transgenic poplars modified for lignins metabolism, Environmental and Experimental Botany, Volume 77 (2012), p. 185 | DOI:10.1016/j.envexpbot.2011.11.023
  • Frank J. Sterck; Jordi Martínez‐Vilalta; Maurizio Mencuccini; Hervé Cochard; Pieter Gerrits; Roman Zweifel; Asier Herrero; Janne F.J. Korhonen; Pilar Llorens; Eero Nikinmaa; Angelo Nolè; Rafael Poyatos; Francesco Ripullone; Ute Sass‐Klaassen Understanding trait interactions and their impacts on growth in Scots pine branches across Europe, Functional Ecology, Volume 26 (2012) no. 2, p. 541 | DOI:10.1111/j.1365-2435.2012.01963.x
  • Frédéric Caupin; Arnaud Arvengas; Kristina Davitt; Mouna El Mekki Azouzi; Kirill I Shmulovich; Claire Ramboz; David A Sessoms; Abraham D Stroock Exploring water and other liquids at negative pressure, Journal of Physics: Condensed Matter, Volume 24 (2012) no. 28, p. 284110 | DOI:10.1088/0953-8984/24/28/284110
  • Christopher J. Rasmussen; Gennady Yu. Gor; Alexander V. Neimark Monte Carlo Simulation of Cavitation in Pores with Nonwetting Defects, Langmuir, Volume 28 (2012) no. 10, p. 4702 | DOI:10.1021/la300078k
  • Lionel Mercury; Frédéric Jamme; Paul Dumas Infra-red imaging of bulk water and water–solid interfaces under stable and metastable conditions, Physical Chemistry Chemical Physics, Volume 14 (2012) no. 8, p. 2864 | DOI:10.1039/c2cp23221a
  • Olivier Vincent; Philippe Marmottant; Pedro A. Quinto-Su; Claus-Dieter Ohl Birth and Growth of Cavitation Bubbles within Water under Tension Confined in a Simple Synthetic Tree, Physical Review Letters, Volume 108 (2012) no. 18 | DOI:10.1103/physrevlett.108.184502
  • A. Vilagrosa; E. Chirino; J.J. Peguero-Pina; T.S. Barigah; H. Cochard; E. Gil-Pelegrín Xylem Cavitation and Embolism in Plants Living in Water-Limited Ecosystems, Plant Responses to Drought Stress (2012), p. 63 | DOI:10.1007/978-3-642-32653-0_3
  • Majda Bouzid; Lionel Mercury; Arnault Lassin; Jean-Michel Matray Salt precipitation and trapped liquid cavitation in micrometric capillary tubes, Journal of Colloid and Interface Science, Volume 360 (2011) no. 2, p. 768 | DOI:10.1016/j.jcis.2011.04.095
  • A. Nardini; S. Salleo; S. Jansen More than just a vulnerable pipeline: xylem physiology in the light of ion-mediated regulation of plant water transport, Journal of Experimental Botany, Volume 62 (2011) no. 14, p. 4701 | DOI:10.1093/jxb/err208
  • TEEMU HÖLTTÄ; MAURIZIO MENCUCCINI; EERO NIKINMAA A carbon cost–gain model explains the observed patterns of xylem safety and efficiency, Plant, Cell Environment, Volume 34 (2011) no. 11, p. 1819 | DOI:10.1111/j.1365-3040.2011.02377.x
  • PIERRE‐ÉRIC LAURI; OLIVIER GORZA; HERVÉ COCHARD; SÉBASTIEN MARTINEZ; JEAN‐MARC CELTON; VÉRONIQUE RIPETTI; MARC LARTAUD; XAVIER BRY; CATHERINE TROTTIER; EVELYNE COSTES Genetic determinism of anatomical and hydraulic traits within an apple progeny, Plant, Cell Environment, Volume 34 (2011) no. 8, p. 1276 | DOI:10.1111/j.1365-3040.2011.02328.x
  • S. Mayr; S. Rosner Cavitation in dehydrating xylem of Picea abies: energy properties of ultrasonic emissions reflect tracheid dimensions, Tree Physiology, Volume 31 (2011) no. 1, p. 59 | DOI:10.1093/treephys/tpq099
  • T. Klein; S. Cohen; D. Yakir Hydraulic adjustments underlying drought resistance of Pinus halepensis, Tree Physiology, Volume 31 (2011) no. 6, p. 637 | DOI:10.1093/treephys/tpr047
  • Kristina Davitt; Arnaud Arvengas; Frédéric Caupin Water at the cavitation limit: Density of the metastable liquid and size of the critical bubble, EPL (Europhysics Letters), Volume 90 (2010) no. 1, p. 16002 | DOI:10.1209/0295-5075/90/16002
  • Hervé Cochard; Stéphane Herbette; Encarni Hernández; Teemu Hölttä; Maurizio Mencuccini The effects of sap ionic composition on xylem vulnerability to cavitation, Journal of Experimental Botany, Volume 61 (2010) no. 1, p. 275 | DOI:10.1093/jxb/erp298
  • B. Beikircher; T. Ameglio; H. Cochard; S. Mayr Limitation of the Cavitron technique by conifer pit aspiration, Journal of Experimental Botany, Volume 61 (2010) no. 12, p. 3385 | DOI:10.1093/jxb/erq159
  • Patrick Fonti; Georg von Arx; Ignacio García‐González; Britta Eilmann; Ute Sass‐Klaassen; Holger Gärtner; Dieter Eckstein Studying global change through investigation of the plastic responses of xylem anatomy in tree rings, New Phytologist, Volume 185 (2010) no. 1, p. 42 | DOI:10.1111/j.1469-8137.2009.03030.x
  • Hosam Awad; Tete Barigah; Eric Badel; Herve Cochard; Stephane Herbette Poplar vulnerability to xylem cavitation acclimates to drier soil conditions, Physiologia Plantarum (2010) | DOI:10.1111/j.1399-3054.2010.01367.x
  • HERVÉ COCHARD; STÉPHANE HERBETTE; TÊTÈ BARIGAH; ERIC BADEL; MUSTAPHA ENNAJEH; ALBERTO VILAGROSA Does sample length influence the shape of xylem embolism vulnerability curves? A test with the Cavitron spinning technique, Plant, Cell Environment (2010), p. no | DOI:10.1111/j.1365-3040.2010.02163.x
  • SYLVAIN DELZON; CYRIL DOUTHE; ANNA SALA; HERVE COCHARD Mechanism of water‐stress induced cavitation in conifers: bordered pit structure and function support the hypothesis of seal capillary‐seeding, Plant, Cell Environment, Volume 33 (2010) no. 12, p. 2101 | DOI:10.1111/j.1365-3040.2010.02208.x
  • S. Herbette; R. Wortemann; H. Awad; R. Huc; H. Cochard; T. S. Barigah Insights into xylem vulnerability to cavitation in Fagus sylvatica L.: phenotypic and environmental sources of variability, Tree Physiology, Volume 30 (2010) no. 11, p. 1448 | DOI:10.1093/treephys/tpq079
  • M. Ogasa; N. Miki; K. Yoshikawa Changes of hydraulic conductivity during dehydration and rehydration in Quercus serrata Thunb. and Betula platyphylla var. japonica Hara: the effect of xylem structures, Tree Physiology, Volume 30 (2010) no. 5, p. 608 | DOI:10.1093/treephys/tpq011
  • E.I. Hernández; A. Vilagrosa; V.C. Luis; M. Llorca; E. Chirino; V.R. Vallejo Root hydraulic conductance, gas exchange and leaf water potential in seedlings of Pistacia lentiscus L. and Quercus suber L. grown under different fertilization and light regimes, Environmental and Experimental Botany, Volume 67 (2009) no. 1, p. 269 | DOI:10.1016/j.envexpbot.2009.07.004
  • Elisabeth M R Robert; Nico Koedam; Hans Beeckman; Nele Schmitz A safe hydraulic architecture as wood anatomical explanation for the difference in distribution of the mangroves Avicennia and Rhizophora, Functional Ecology, Volume 23 (2009) no. 4, p. 649 | DOI:10.1111/j.1365-2435.2009.01551.x
  • Hervé Cochard; Teemu Hölttä; Stéphane Herbette; Sylvain Delzon; Maurizio Mencuccini New Insights into the Mechanisms of Water-Stress-Induced Cavitation in Conifers, Plant Physiology, Volume 151 (2009) no. 2, p. 949 | DOI:10.1104/pp.109.138305
  • TEEMU HÖLTTÄ; HERVE COCHARD; EERO NIKINMAA; MAURIZIO MENCUCCINI Capacitive effect of cavitation in xylem conduits: results from a dynamic model, Plant, Cell Environment, Volume 32 (2009) no. 1, p. 10 | DOI:10.1111/j.1365-3040.2008.01894.x
  • Frédéric Caupin; Milton W. Cole; Sébastien Balibar; Jacques Treiner Absolute limit for the capillary rise of a fluid, EPL (Europhysics Letters), Volume 82 (2008) no. 5, p. 56004 | DOI:10.1209/0295-5075/82/56004

Cité par 132 documents. Sources : Crossref

Commentaires - Politique