Thirty years ago, the systems ecologist Howard T. Odum introduced the concept of transformity, which is a thermodynamic measure of quality within the trial and error evolutionary dynamics of ecosystems, namely an indicator of rank in the hierarchical system structure of the biosphere. Based on a global database of individual processes and whole economies, this paper extends, refines and updates Odum’s idea, demonstrating the strength of the postulated relation. In particular, an inverse linear logarithmic relationship is shown to hold between resource quantity (exergy) and quality (emergy), which is the result of an overall energetic efficiency characteristic of energy transformation processes of the biosphere. This relation extends from na...
Appraisal of the concept of energy rate density continues, as both a potential quantitative metric f...
Evolution, broadly construed, has become a powerful unifying concept in much of science – not only i...
Ecosystem properties result in part from the characteristics of individual organisms. How these indi...
Thirty years ago, the systems ecologist Howard T. Odum introduced the concept of transformity, which...
The central role of energy in all life processes has led to the development of numerous hypotheses, ...
The number of energy transformation levels in trophic webs is usually below five, but can be extende...
Human societies are dependent on a large set of ecosystem services (ES) generated by the diversity o...
As humanity struggles to find a path to resilience amidst global change vagaries, understanding orga...
This paper presents the theory behind and the possible uses of the ratio of eco-exergy to empower. T...
The relationship between the energy effi ciency, energy density and complexity level of the system i...
The Earth is a self-organized system. The source of information for self-organization is the degrada...
The relationship between the energy efficiency, energy density and complexity level of the system is...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
After studying ecosystems and biosphere function for decades, Howard T. Odum sketched a methodology ...
Ecosystems can be viewed as thermodynamic systems, open to energy and matter, that self-organize tow...
Appraisal of the concept of energy rate density continues, as both a potential quantitative metric f...
Evolution, broadly construed, has become a powerful unifying concept in much of science – not only i...
Ecosystem properties result in part from the characteristics of individual organisms. How these indi...
Thirty years ago, the systems ecologist Howard T. Odum introduced the concept of transformity, which...
The central role of energy in all life processes has led to the development of numerous hypotheses, ...
The number of energy transformation levels in trophic webs is usually below five, but can be extende...
Human societies are dependent on a large set of ecosystem services (ES) generated by the diversity o...
As humanity struggles to find a path to resilience amidst global change vagaries, understanding orga...
This paper presents the theory behind and the possible uses of the ratio of eco-exergy to empower. T...
The relationship between the energy effi ciency, energy density and complexity level of the system i...
The Earth is a self-organized system. The source of information for self-organization is the degrada...
The relationship between the energy efficiency, energy density and complexity level of the system is...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
After studying ecosystems and biosphere function for decades, Howard T. Odum sketched a methodology ...
Ecosystems can be viewed as thermodynamic systems, open to energy and matter, that self-organize tow...
Appraisal of the concept of energy rate density continues, as both a potential quantitative metric f...
Evolution, broadly construed, has become a powerful unifying concept in much of science – not only i...
Ecosystem properties result in part from the characteristics of individual organisms. How these indi...