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Coupled X-ray imaging/diffraction reveals soil mechanics during analogous root growth.

npj Biological Physics and Mechanics Pub Date : 2025-01-01 Epub Date: 2025-07-03 DOI:10.1038/s44341-025-00021-7
James Le Houx, Daniel McKay Fletcher, Alberto Leonardi, Katherine A Williams, Nancy Walker, Fernando Alvarez-Borges, Ebrahim Afsar Dizaj, Madhu Murthy, Ronan Smith, Liam Perera, Navid Aslani, Andrew James, Sharif Ahmed, Tiina Roose, Siul Ruiz
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Abstract

Soil compaction and escalating global drought increase soil strength and stiffness. It remains unclear which plant root biomechanical mechanisms/traits enable growth in these harsh conditions. Here, we combine synchrotron X-ray computed tomography with spatially resolved X-ray diffraction to characterize the biomechanics of a replica root-soil system. We map the strain field around the root tip analog, finding strong agreement with finite element simulations, thereby demonstrating a promising new in vivo measurement protocol.

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耦合x射线成像/衍射揭示了类似根生长过程中的土壤力学。
土壤压实和不断升级的全球干旱增加了土壤的强度和刚度。目前尚不清楚哪些植物根系生物力学机制/特征使其能够在这些恶劣条件下生长。在这里,我们结合同步加速器x射线计算机断层扫描和空间分辨x射线衍射来表征复制根-土壤系统的生物力学。我们绘制了根尖模拟物周围的应变场,发现与有限元模拟有很强的一致性,从而展示了一种有前途的新的体内测量方案。
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npj Biological Physics and Mechanics
npj Biological Physics and Mechanics
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