Many living structured are coated by thin films, which have distinct mechanical properties from the bulk. In particular, these thin layers may grow faster or slower than the inner core. Differential growth creates a balanced interplay between tension and compression and plays a critical role in enhancing structural rigidity. Typical examples with a compressive outer surface and a tensile inner core are the petioles of celery, caladium, or rhubarb. While plant physiologists have studied the impact of tissue tension on plant rigidity for more than a century, the fundamental theory of growing surfaces remains poorly understood. Here, we establish a theoretical and computational framework for continua with growing surfaces and demonstrate its a...
Biological soft tissues develop mechanical stresses when they grow. In close association with biolog...
<div><p>The morphogenesis of organs necessarily involves mechanical interactions and changes in mech...
The link between genetic regulation and the definition of form and size during morphogenesis remains...
Many biological systems are coated by thin films for protection, selective absorption, or transmembr...
Morphogenesis in plants and animals involves large irreversible deformations. In plants, the respons...
Recent evidence has revealed the role of mechanical cues in the development of shapes in organisms. ...
International audienceHow thousands of individual cells control their local growth and collectively ...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
ABSTRACT Surface patterns can emerge during growth of anisotropic tissues because of surface bucklin...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Mechanical factors play an important role in plant tissues growth and development. Plant growth is ...
Differential growth is the driver of tissue morphogenesis in plants, and also plays a fundamental ro...
Differential growth is the driver of tissue morphogenesis in plants, and also plays a fundamental ro...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
Biological soft tissues develop mechanical stresses when they grow. In close association with biolog...
<div><p>The morphogenesis of organs necessarily involves mechanical interactions and changes in mech...
The link between genetic regulation and the definition of form and size during morphogenesis remains...
Many biological systems are coated by thin films for protection, selective absorption, or transmembr...
Morphogenesis in plants and animals involves large irreversible deformations. In plants, the respons...
Recent evidence has revealed the role of mechanical cues in the development of shapes in organisms. ...
International audienceHow thousands of individual cells control their local growth and collectively ...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
ABSTRACT Surface patterns can emerge during growth of anisotropic tissues because of surface bucklin...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Mechanical factors play an important role in plant tissues growth and development. Plant growth is ...
Differential growth is the driver of tissue morphogenesis in plants, and also plays a fundamental ro...
Differential growth is the driver of tissue morphogenesis in plants, and also plays a fundamental ro...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
Biological soft tissues develop mechanical stresses when they grow. In close association with biolog...
<div><p>The morphogenesis of organs necessarily involves mechanical interactions and changes in mech...
The link between genetic regulation and the definition of form and size during morphogenesis remains...