Add to ORKGThe study of plant behaviour and properties have resulted in various innovations in the engineering industry. Much research has been carried out to study the behavioural properties of plants at a cellular level as well as the formation of its structure, leading to the development of many notable inventions. However, few studied the formation of leaf structure and the effects of its mechanical properties on the pattern form, which will be the focus of this report. Leaf patterns are formed when plants undergo morphogenesis, where differential growth occur at the cellular level. To study the effects on mechanical properties and better understand the formation of the wavy edges pattern, simulations were performed on a model of a leaf and mechan...
Leaves of eudicots show tremendous morphological diversity. Remarkably different leaf morphologies m...
<p>A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics...
A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics of...
Plants produce a rich diversity of biological forms, and the diversity of leaves is especially notab...
Morphogenesis is a phenomenon by which a wide variety of functional organs are formed in biological ...
ABSTRACT: Formation of organ shape is an intriguing yet largely unanswered question in developmental...
While the importance of physical mechanisms in animal morphogenesis and developmental regulation is ...
The innumerable shapes of plant leaves present a challenge to the explanatory power of biophysical t...
This paper presents biologically-motivated a procedural method for the simulation of leaf contour gr...
Recent evidence has revealed the role of mechanical cues in the development of shapes in organisms. ...
The leaf is the major organ involved in light perception and conversion of solar energy into organic...
One of the most remarkable sites in nature is the branched structure of plants. The branching enable...
ABSTRACT: Pavement cells form wavy interlocking patterns in the leaf epidermis of many plants. We us...
International audienceThe shape of an organism relies on a complex network of genetic regulations an...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Leaves of eudicots show tremendous morphological diversity. Remarkably different leaf morphologies m...
<p>A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics...
A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics of...
Plants produce a rich diversity of biological forms, and the diversity of leaves is especially notab...
Morphogenesis is a phenomenon by which a wide variety of functional organs are formed in biological ...
ABSTRACT: Formation of organ shape is an intriguing yet largely unanswered question in developmental...
While the importance of physical mechanisms in animal morphogenesis and developmental regulation is ...
The innumerable shapes of plant leaves present a challenge to the explanatory power of biophysical t...
This paper presents biologically-motivated a procedural method for the simulation of leaf contour gr...
Recent evidence has revealed the role of mechanical cues in the development of shapes in organisms. ...
The leaf is the major organ involved in light perception and conversion of solar energy into organic...
One of the most remarkable sites in nature is the branched structure of plants. The branching enable...
ABSTRACT: Pavement cells form wavy interlocking patterns in the leaf epidermis of many plants. We us...
International audienceThe shape of an organism relies on a complex network of genetic regulations an...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Leaves of eudicots show tremendous morphological diversity. Remarkably different leaf morphologies m...
<p>A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics...
A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics of...