Tag: biosphere

Thermodynamics of the Biosphere: A short series of videos

~ Axel Kleidon ~ Leave a comment

What can we learn from entropy about life on Earth? In this series of videos, I aim to provide the thermodynamic and Earth system background to answer this question.  The videos are based on two lectures that I gave in Padova in July 2025.  I split the lectures up into an introduction, six questions, and a summary, each in a separate video.  This blogpost provides a brief description of the different videos, references for further reading, and the links.

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New Paper: The Second Law of Thermodynamics, Life and Earth‘s Planetary Machinery Revisited

~ Axel Kleidon ~ Leave a comment

About 15 years ago I published a paper on Life, hierarchy, and the thermodynamic machinery of planet Earth”. This paper was quite influential for me as it clarified many things about how the second law of thermodynamics applies to the Earth system.  It led to quite a few applications of thermodynamic limits in climate science and renewable energy that worked really well and that I found insightful because it allows us to do climate science in a simple yet physically-based way.  The follow-up paper just published provides a summary of this approach and explores potential, more concrete applications of how the biosphere optimizes its form and functioning, and on life on Earth and beyond in general.

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New Book Chapter:  Understanding the Earth as a Whole System: From the Gaia Hypothesis to Thermodynamic Optimality and Human Societies

~ Axel Kleidon ~ Leave a comment

“The whole is more than the sum of its parts” – this has been said by smart people throughout human history, from Aristotle to Gibbs.  But how does it apply to the vastly complex Earth system?  In the book chapter just published I describe how this focus on the whole combined with a thermodynamic formulation of the Earth system including life helps us to understand that the whole is more, and simpler, than the sum of its parts.  This is because complex, natural systems appear to work at their thermodynamic limit.  The emergent functioning may then very well share characteristics similar to those postulated by the controversial Gaia hypothesis of James Lovelock, which states that life regulates the Earth for its own benefit.

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