› Fluid-structure interactions in plant vascular flows - Kaare Jensen, Department of Physics, Technical University of Denmark
10:15-10:55 (40min)
› Hydraulic stress at the meristem-organ boundaries - Juan Alonso-Serra, Laboratoire de Reproduction et Développement des Plantes, ENS de Lyon, INRAE, CNRS, Inria, Lyon.
10:55-11:15 (20min)
› Diffusion and flow across shape-perturbed plasmodesmata nanopores in plants - Anneline H. Christensen, Technical University of Denmark
11:35-11:55 (20min)
› Leaf squeeze-flow rheometry: measuring plant water status via static uniaxial compression of the leaf lamina - Tomás Fuenzalida, The Australian National University
11:55-12:15 (20min)
› Regulation of Cell Size of Vessel Elements, and Related Effects on Water Transport and Drought Response in Populus -
14:00-14:40 (40min)
› Biomechanics and functional morphology of the European mistletoe and its connection to the host tree - Max D. Mylo, Cluster of Excellence livMatS @ FIT – Freiburg Center for Interactive Materials and Bioinspired Technologies, Plant Biomechanics Group @ Botanic Garden Freiburg, University of Freiburg, Germany
14:40-15:00 (20min)
› Effect of soil removal on the tree stability in confined space - Luděk Praus, Mendel University in Brno
15:00-15:20 (20min)
› Which compression wood behaviors depend on high MFA or thick S2L? - A new mechanical model to explain origin of longitudinal dimensional changes peculiar to conifer compression wood tracheid - Hiroyuki Yamamoto, Graduate School of Bio-agricultural Sciences
16:10-16:30 (20min)
› Modelling the growth stress distribution during the life of tree branches: impact of different growth strategies -
16:30-16:50 (20min)
› Bark biomechanical function: smart tissue organization enables extreme mechanical performance in the secondary phloem of Malvaceae - Tancrède Alméras, LMGC, CNRS, Univ Montpellier, Montpellier, France
16:50-17:10 (20min)
› Robustness in laminar sepal shape in Arabidopsis requires growth coordination between abaxial and adaxial surfaces - Avilash Singh Yadav, Cornell University
11:15-11:35 (20min)
› Mechanical interactions between tissue layers underlie anther morphogenesis - Sylvia Silveira, IRBV, Department of Biological Sciences, University of Montréal
11:35-11:55 (20min)
› Dynamic of growth and tension in explosive fruits - Gabriella Mosca, Technical University of Munich, Max Planck Institute for Plant Breeding Research
11:55-12:15 (20min)
› Where the only constant is change: balancing biophysical and physiological constraints on wave-swept shores - Emily Carrington, University of Washington
14:00-14:40 (40min)
› Holding on or falling off: the attachment mechanism of epiphytic Anthurium obtusum (Engl.) Grayum changes with substrate roughness - Jessica Tay, University of Oldenburg, Institute for Biology and Environmental Sciences, Functional Ecology of Plants
14:40-15:00 (20min)
› Divergent trade-offs associated to stem posture control in maritime pine - Rosario Sierra-de-Grado, iuFOR, University Institute for Research in Sustainable Forest Management, University of Valladolid
15:00-15:20 (20min)
› Anatomy and biomechanics of peltate Begonia leaves - Annabell Rjosk, Institut für Botanik [Dresden]
16:10-16:30 (20min)
› Comparative biomechanics of energy storage and release across seed-shooting witch hazels -
16:30-16:50 (20min)
› Upward transport in a canopy assisted by raindrop impacts on plant leaves - Tristan Gilet, Microfluidics lab (Université de Liège)
16:50-17:10 (20min)
› How does cell division alter the mechanical properties of growing tissues? - Sarah Robinson, SLCU
08:45-09:25 (40min)
› Rigidity charts of plant axes with various cross-sectional geometry and reinforcement patterns - Olga Speck, Cluster of Excellence livMatS @ FIT – Freiburg Center for Interactive Materials and Bioinspired Technologies, Plant Biomechanics Group @ Botanic Garden Freiburg, University of Freiburg, Germany
09:25-09:45 (20min)
› Formation of gas spaces in pimpernel (Anagallis grandiflora) petal epidermis – interplay between growth, geometry and cell wall mechanics - Dorota Kwiatkowska, University of Silesia
09:45-10:05 (20min)
› Nonlinear mechanics of epidermal cell walls contradicts classical viscoelastic behavior - Jingyi Yu, Pennsylvania State University
10:05-10:25 (20min)
› Parallelized plant morphogenesis in a controllable microfluidic environment. - Valentin LAPLAUD, Laboratoire d\'hydrodynamique
10:25-10:45 (20min)
› Plant root growth against a mechanical obstacle : the early growth response of a maize root facing an axial resistance agrees with the Lockhart model - Manon Quiros, Physique et mécanique des milieux hétérogènes (PMMH)
11:15-11:35 (20min)
› Expansins control cell wall stiffness and root growth via cell type-specific expression in Arabidopsis - Marketa Samalova, CEITEC-MU
11:35-11:55 (20min)
› Nano-mechanical response in stressed living root tissues - Harinderbir Kaur, IBS
11:55-12:15 (20min)
› Life without support: survival of flax plants with impaired intrusive growth - Anna Petrova, Kazan Institute of Biochemistry and Biophysics
12:15-12:35 (20min)
› A Search for New Water Harvesting Technologies in the Driest Desert on Earth - Jacques Dumais, UAI
08:45-09:25 (40min)
› Soft artillery: biomimetic cannon inspired by infectious spore dispersal - Sif Fink Arnbjerg-Nielsen, Technical University of Denmark
09:25-09:45 (20min)
› Plant structure and motion: Inspiration for novel biomimetic soft machines and architecture - Thomas Speck, University of Freiburg Plant Biomechanics Group @ Botanic Garden, Cluster of Excellence livMatS @ FIT – Freiburg Center for Interactive Materials and Bioinspired Technologies, Freiburg Materials Research Center (FMF)
09:45-10:05 (20min)
› Pressure dependent mechanical properties of pulvinus - Loïc Tadrist, Bio-inspired design team, Institut des Sciences du Mouvement
10:05-10:25 (20min)
› A multi-scale suite of cell wall architectural features powers plant organ actuation - Anja Geitmann, McGill University
10:25-10:45 (20min)
› Using Mechanistic, Multiscale Knowledge of Plant Biomechanics to Improve Genome to Phenome Modeling Efforts - Daniel Robertson, University of Idaho
11:15-11:35 (20min)
› A Parametric Process for Root System Architecture Analysis: Case Study Analyzing Topology and Morphological Traits Across Tree Species Imaged in the Field - Thibaut Houette, Department of Biology, The University of Akron, USA - Elena Stachew, Department of Biology, The University of Akron, USA
11:35-11:55 (20min)
› Coordinated Bacterial Migration During Root Colonisation - Lionel Dupuy, Ikerbasque, Neiker Institute
11:55-12:15 (20min)
› Fluttering leaves to determine water stress in plants - Sunghwan Jung, Cornell University
12:15-12:35 (20min)
› Dandelion ‘decisions': to fly or not to fly – that is the question - Naomi Nakayama, Imperial College London
14:00-14:40 (40min)
› An Automated, Parameterized Model of Maize Stalk Strength via Machine Learning - Douglas Cook, Brigham Young University
14:40-15:00 (20min)
› Mechanics of the 3D puzzle cells in nutshells - Jessica Huss, University of Natural Resources and Life Sciences Vienna
15:00-15:20 (20min)
› The central role of the cell-cell interface during tissue morphogenesis: local integration of wall stress and microtubule-encoded cell wall anisotropy - Daniel Szymanski, Purdue University
15:20-15:40 (20min)
› Edge-based growth control in Arabidopsis involves two cell wall-associated Receptor-Like Proteins - Charlotte Kirchhelle, Reproduction et développement des plantes
16:10-16:30 (20min)
› Self-similar tip growth links exocytosis profile with cell wall shape - Min Wu, Worcester Polytechnic Institute
16:30-16:50 (20min)
› Excess growth combined with reduced cell wall stiffness in Arabidopsis triggers flowering stem breakag - Mariko Asaoka, Laboratoire de Reproduction et Développement des Plantes, Université de Lyon, ENS de Lyon, UCB Lyon 1, CNRS, INRAE, Department of Biology, Tokyo Gakugei University, Faculty of ScienceKanagawa University
16:50-17:10 (20min)
› Mechanics and dynamics of cell-cell adhesion in plants - Stéphane Verger, Swedish University of Agricultural Sciences
17:10-17:30 (20min)
› Integrating Jasmonate-mediated defense with plant osmotic potential - Debora Gasperini, Leibniz Institute of Plant Biochemistry
09:25-09:45 (20min)
› A novel kinematic method for quantifying gravitropic and proprioceptive sensitivities illustrated on Arabidopsis wild type and XI myosin mutants. - Bruno MOULIA, UMR PIAF
09:45-10:05 (20min)
› MCAs are land plant-specific, inherently mechanosensitive Ca2+-permeable channels - Hidetoshi Iida, Tokyo Gakugei University
10:05-10:25 (20min)
› The temporal modification of histone marks plays a significant role in gene regulation in poplar after once or repeated mechanostimulation. - Ritesh Ghosh, Université Clermont Auvergne, INRAE, U.M.R. PIAF, F-63000 Clermont-Ferrand, France
10:25-10:45 (20min)
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