Add to ORKGIn the present paper the statistical data on network geometry of the venation system of Morus alba leaf are presented. The mathematical model of the sap motion in the conducting system of a leaf is proposed. On the base of the solution of an optimization problem the principle of optimal construction of a bifurcation in plant leaf venation that correspond to Murray’s law is obtained
<div><p>Models that predict the form of hierarchical branching networks typically invoke optimizatio...
The vegetative hormone Auxin is involved in vascular tissues formation throughout the plant. Trans-m...
We present a model for biological network formation originally introduced by Cai and Hu [Adaptation ...
The main common principles of the long-range transport systems construction in animal and plant ti...
Long-distance liquid transport in biosystems is provided by special branching systems of tubes (art...
Common principles of design of long-distance liquid transport in the nature are discussed. Some resu...
Structure of the optimal rectangular microcirculatory cell of a leaf is investigated on the model o...
Structure of the optimal rectangular microcirculatory cell of a leaf is investigated on the model o...
While the importance of physical mechanisms in animal morphogenesis and developmental regulation is ...
A brief review of the thermodynamic and fluid dynamic problems related to long-distance liquid flow ...
Long-distance conducting systems in high plants and animals are presented by networks of rigid tubes...
Biological networks, such as vascular networks and neural circuits, are ubiquitous in nature. An und...
Models that predict the form of hierarchical branching networks typically invoke optimization based ...
The branching of fluidic networks becomes a subject of great interest due to its importance in under...
There is a remarkable relationship between an organism's metabolic rate (resting power consumption) ...
<div><p>Models that predict the form of hierarchical branching networks typically invoke optimizatio...
The vegetative hormone Auxin is involved in vascular tissues formation throughout the plant. Trans-m...
We present a model for biological network formation originally introduced by Cai and Hu [Adaptation ...
The main common principles of the long-range transport systems construction in animal and plant ti...
Long-distance liquid transport in biosystems is provided by special branching systems of tubes (art...
Common principles of design of long-distance liquid transport in the nature are discussed. Some resu...
Structure of the optimal rectangular microcirculatory cell of a leaf is investigated on the model o...
Structure of the optimal rectangular microcirculatory cell of a leaf is investigated on the model o...
While the importance of physical mechanisms in animal morphogenesis and developmental regulation is ...
A brief review of the thermodynamic and fluid dynamic problems related to long-distance liquid flow ...
Long-distance conducting systems in high plants and animals are presented by networks of rigid tubes...
Biological networks, such as vascular networks and neural circuits, are ubiquitous in nature. An und...
Models that predict the form of hierarchical branching networks typically invoke optimization based ...
The branching of fluidic networks becomes a subject of great interest due to its importance in under...
There is a remarkable relationship between an organism's metabolic rate (resting power consumption) ...
<div><p>Models that predict the form of hierarchical branching networks typically invoke optimizatio...
The vegetative hormone Auxin is involved in vascular tissues formation throughout the plant. Trans-m...
We present a model for biological network formation originally introduced by Cai and Hu [Adaptation ...