Add to ORKGThe energy budget of an ecosystem must obey the 2nd law of thermodynamics even if it is an open system. Several studies have sought to use a consideration of entropy budgets to understand ecosystem energy budgets and more specifically evaporation. It has been assumed that ecosystems are far-from-equilibrium systems and as such would always seek to maximise their entropy production. Although the approach has been used to consider the behaviour of environments there are no studies that have tested the approach or its implications: maximum entropy production (MEP) is a prediction of the far-from-equilibrium assumption that could be tested. The simplest way for an ecosystem to maximise entropy production is to maximise water loss through evapo...
The transformations and transitions of organic matter into, through, and out of an ecosystem must ob...
The water balance on land plays a critical role in connecting key hydrological processes with climat...
Soil-plant systems exchange both energy and matter with their surroundings and are consequently open...
The energy budget of an ecosystem must obey the 2nd law of thermodynamics even if it ...
Whilst all ecosystems must obey the second law of thermodynamics, these physical bounds and controls...
As a system is moved away from a state of thermodynamic equilibrium, spatial and temporal heterogene...
Ecosystems are open systems that exchange matter and energy with their environment. They differ in t...
Ecosystem entropy production is predicted to increase along ecological succession and approach a sta...
The hydrologic cycle is a system far from thermodynamic equilibrium that is characterized by its rat...
The transformations and transitions of organic matter into, through, and out of an ecosystem must ob...
In this chapter, the various terms of entropy generation in terrestrial systems and the atmosphere a...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
We would like to thank The Leverhulme Trust (project PLATO, RPG-2014-016) and the European Research ...
Applications of thermodynamic principles to ecology have a relatively long and varied history. These...
This study has estimated the long term evaporation record for a peat covered catchment in northern E...
The transformations and transitions of organic matter into, through, and out of an ecosystem must ob...
The water balance on land plays a critical role in connecting key hydrological processes with climat...
Soil-plant systems exchange both energy and matter with their surroundings and are consequently open...
The energy budget of an ecosystem must obey the 2nd law of thermodynamics even if it ...
Whilst all ecosystems must obey the second law of thermodynamics, these physical bounds and controls...
As a system is moved away from a state of thermodynamic equilibrium, spatial and temporal heterogene...
Ecosystems are open systems that exchange matter and energy with their environment. They differ in t...
Ecosystem entropy production is predicted to increase along ecological succession and approach a sta...
The hydrologic cycle is a system far from thermodynamic equilibrium that is characterized by its rat...
The transformations and transitions of organic matter into, through, and out of an ecosystem must ob...
In this chapter, the various terms of entropy generation in terrestrial systems and the atmosphere a...
We derive an expression for the thermodynamic entropy production (EP) of both phototrophic and chemo...
We would like to thank The Leverhulme Trust (project PLATO, RPG-2014-016) and the European Research ...
Applications of thermodynamic principles to ecology have a relatively long and varied history. These...
This study has estimated the long term evaporation record for a peat covered catchment in northern E...
The transformations and transitions of organic matter into, through, and out of an ecosystem must ob...
The water balance on land plays a critical role in connecting key hydrological processes with climat...
Soil-plant systems exchange both energy and matter with their surroundings and are consequently open...