Add to ORKGWhile it is clear that thermodynamics plays a nontrivial role in biological processes, exactly how this affects the macroscopic structuring of living systems is not fully understood. Thus, the objective of this dissertation was to investigate how thermodynamic variables such as exergy, entropy, and information are involved in biological processes such as cellular metabolism, ecological succession, and evolution. To this end, I have used a combination of mathematical modelling, in silico simulation, and both laboratory- and field-based experimentation. To begin the dissertation, I review the basic tenets of biological thermodynamics and synthesize them with modern fluctuation theory, information theory, and finite time thermodynamics. In thi...
Applications of entropy principles to evolution and ecology are of tantamount importance given the c...
All organisms depend on a supply of energetic resources to power behavior and the irreversible entro...
Living cells represent open, nonequilibrium, self organizing, and dissipative systems maintained wit...
While it is clear that thermodynamics plays a nontrivial role in biological processes, exactly how t...
An overall synthesis of biology and non-equilibrium thermodynamics remains a challenge at the interf...
Non-equilibrium thermodynamics has had a significant historic influence on the development of theor...
The purpose of this review article is to present some of the recent contributions that show the use ...
Conventional thermodynamics and statistical mechanics deal with the study of physical systems under ...
Because ecosystems fit so nicely the framework of a "dissipative system", a better integration of th...
This paper outlines a thermodynamic theory of biological evolution. Beginning with a brief summary o...
Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here ...
Nonequilibrium irreversible thermodynamics constitute a meaningful point of view suitable to explore...
In this manuscript we investigate the use of the maximum entropy production (MEP) principle for mode...
This work explores the crucial link between biological organization and dynamics in microbes. I have...
Ecological systems are complex assemblies of large numbers of individuals, interacting competitively...
Applications of entropy principles to evolution and ecology are of tantamount importance given the c...
All organisms depend on a supply of energetic resources to power behavior and the irreversible entro...
Living cells represent open, nonequilibrium, self organizing, and dissipative systems maintained wit...
While it is clear that thermodynamics plays a nontrivial role in biological processes, exactly how t...
An overall synthesis of biology and non-equilibrium thermodynamics remains a challenge at the interf...
Non-equilibrium thermodynamics has had a significant historic influence on the development of theor...
The purpose of this review article is to present some of the recent contributions that show the use ...
Conventional thermodynamics and statistical mechanics deal with the study of physical systems under ...
Because ecosystems fit so nicely the framework of a "dissipative system", a better integration of th...
This paper outlines a thermodynamic theory of biological evolution. Beginning with a brief summary o...
Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here ...
Nonequilibrium irreversible thermodynamics constitute a meaningful point of view suitable to explore...
In this manuscript we investigate the use of the maximum entropy production (MEP) principle for mode...
This work explores the crucial link between biological organization and dynamics in microbes. I have...
Ecological systems are complex assemblies of large numbers of individuals, interacting competitively...
Applications of entropy principles to evolution and ecology are of tantamount importance given the c...
All organisms depend on a supply of energetic resources to power behavior and the irreversible entro...
Living cells represent open, nonequilibrium, self organizing, and dissipative systems maintained wit...