The Maximum Entropy Theory of Ecology (METE), developed by John Harte, presents an entirely new method of making inferences in ecology. The method is based on the established mathematical procedure of Maximum Information Entropy (MaxEnt), developed by Edwin T. Jaynes, and is used to derive a range of important relationships in macroecology. The Maximum Entropy Production (MEP) principle is a more recent theory. This principle was used by Paltridge to successfully predict the climate on Earth in 1975. It has been suggested that this principle can be used for predicting the evolution of ecosystems over time in the framework of METE. This idea is at the very frontier of Harte's theory. This thesis investigates the hypothesis that the informat...
The Maximum Entropy Theory of Ecology (METE) predicts the shapes of macroecological metrics in relat...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
There are numerous situations in physics and other disciplines which can be described at different l...
The Maximum Entropy Theory of Ecology (METE), developed by John Harte, presents an entirely new meth...
The current climate crisis requires a comprehensive understanding of biodiversity to acknowledge how...
The coupled biosphere-atmosphere system entails a vast range of processes at different scales, from ...
In the past few decades, ecology has gone through exciting breakthroughs in developing and applying ...
In the first part of the paper we work out the consequences of the fact that Jaynes’ Maximum Entropy...
In the maximum entropy theory of ecology (METE), the form of a function describing the distribution ...
The principle of Maximum Entropy (MaxEnt) promises a novel approach for understanding community asse...
In a paper published in this journal, I addressed the following problem: under which conditions will...
The global climate system, the ecology of the biosphere, biogeochemical cycling, human society and m...
<p>This is a poster I presented at the 2012 Gordon Conference Metabolic Basis of Ecology.</p> <p>Abs...
Recently there has been growing interest in the use of maximum relative entropy (MaxREnt) as a tool ...
The Maximum Entropy Production (MEP) principle has been remarkably successful in producing accurate ...
The Maximum Entropy Theory of Ecology (METE) predicts the shapes of macroecological metrics in relat...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
There are numerous situations in physics and other disciplines which can be described at different l...
The Maximum Entropy Theory of Ecology (METE), developed by John Harte, presents an entirely new meth...
The current climate crisis requires a comprehensive understanding of biodiversity to acknowledge how...
The coupled biosphere-atmosphere system entails a vast range of processes at different scales, from ...
In the past few decades, ecology has gone through exciting breakthroughs in developing and applying ...
In the first part of the paper we work out the consequences of the fact that Jaynes’ Maximum Entropy...
In the maximum entropy theory of ecology (METE), the form of a function describing the distribution ...
The principle of Maximum Entropy (MaxEnt) promises a novel approach for understanding community asse...
In a paper published in this journal, I addressed the following problem: under which conditions will...
The global climate system, the ecology of the biosphere, biogeochemical cycling, human society and m...
<p>This is a poster I presented at the 2012 Gordon Conference Metabolic Basis of Ecology.</p> <p>Abs...
Recently there has been growing interest in the use of maximum relative entropy (MaxREnt) as a tool ...
The Maximum Entropy Production (MEP) principle has been remarkably successful in producing accurate ...
The Maximum Entropy Theory of Ecology (METE) predicts the shapes of macroecological metrics in relat...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
There are numerous situations in physics and other disciplines which can be described at different l...