Add to ORKGWe present an extremely minimal ecosystem model which takes account of thermodynamic constraints on the organisms metabolism. This suggests a way to test the application of a hypothesised principle of Maximum Entropy Production to ecosystems. It also puts definite physical bounds on the rates at which matter can flow through the system and paves the way for more detailed models that have thermodynamic principles built in from the start. In providing the background for this model we point out some connections between thermodynamic principles and autopoiesis
Determining how microbial communities organize and function at the ecosystem level is essential to u...
Non-equilibrium thermodynamics has had a significant historic influence on the development of theor...
Conventional thermodynamics and statistical mechanics deal with the study of physical systems under ...
Soil-plant systems exchange both energy and matter with their surroundings and are consequently open...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
The coupled biosphere-atmosphere system entails a vast range of processes at different scales, from ...
Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here ...
Because ecosystems fit so nicely the framework of a "dissipative system", a better integration of th...
In this manuscript we investigate the use of the maximum entropy production (MEP) principle for mode...
The Earth system is maintained in a unique state far from thermodynamic equilibrium, as, for instanc...
The Earth system is remarkably different from its planetary neighbours in that it shows pronounced, ...
The Maximum Entropy Theory of Ecology (METE), developed by John Harte, presents an entirely new meth...
Determining how microbial communities organize and function at the ecosystem level is essential to u...
The energy budget of an ecosystem must obey the 2nd law of thermodynamics even if it is an open syst...
Applications of thermodynamic principles to ecology have a relatively long and varied history. These...
Determining how microbial communities organize and function at the ecosystem level is essential to u...
Non-equilibrium thermodynamics has had a significant historic influence on the development of theor...
Conventional thermodynamics and statistical mechanics deal with the study of physical systems under ...
Soil-plant systems exchange both energy and matter with their surroundings and are consequently open...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
The coupled biosphere-atmosphere system entails a vast range of processes at different scales, from ...
Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here ...
Because ecosystems fit so nicely the framework of a "dissipative system", a better integration of th...
In this manuscript we investigate the use of the maximum entropy production (MEP) principle for mode...
The Earth system is maintained in a unique state far from thermodynamic equilibrium, as, for instanc...
The Earth system is remarkably different from its planetary neighbours in that it shows pronounced, ...
The Maximum Entropy Theory of Ecology (METE), developed by John Harte, presents an entirely new meth...
Determining how microbial communities organize and function at the ecosystem level is essential to u...
The energy budget of an ecosystem must obey the 2nd law of thermodynamics even if it is an open syst...
Applications of thermodynamic principles to ecology have a relatively long and varied history. These...
Determining how microbial communities organize and function at the ecosystem level is essential to u...
Non-equilibrium thermodynamics has had a significant historic influence on the development of theor...
Conventional thermodynamics and statistical mechanics deal with the study of physical systems under ...