Maximum entropy production principle in forest dynamics modelling
Forest ecosystems are vivid representatives of open non-equilibrium systems. The existence of extreme principles in “ecological thermodynamics” is a subject of discussion in the works of many physicists, ecologists and researchers dealing with non-equilibrium thermodynamics. At the same time, the pr...
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| Published in | BIO web of conferences Vol. 145; p. 3005 |
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| Main Authors | , , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
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Les Ulis
EDP Sciences
01.01.2024
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| ISSN | 2117-4458 2273-1709 2117-4458 |
| DOI | 10.1051/bioconf/202414503005 |
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| Abstract | Forest ecosystems are vivid representatives of open non-equilibrium systems. The existence of extreme principles in “ecological thermodynamics” is a subject of discussion in the works of many physicists, ecologists and researchers dealing with non-equilibrium thermodynamics. At the same time, the problem of the connection between the principles of maximum and minimum entropy production has been studied in detail enough in the works of L. M. Martyushev et al. However, for forest ecosystems, the works that point out the connection of these fundamental principles are clearly insufficient. Usually, these principles are opposed to each other. In the proposed work, within the framework of a unified approach, the dependencies of the entropy production density and the entropy density have modeled using the example of a pine (
Pínus sylvestris
) stand of the 1-grade forest site capacity. It has shown that entropy production and entropy production density take both maximum and minimum values in the process of ecosystem evolution. |
|---|---|
| AbstractList | Forest ecosystems are vivid representatives of open non-equilibrium systems. The existence of extreme principles in “ecological thermodynamics” is a subject of discussion in the works of many physicists, ecologists and researchers dealing with non-equilibrium thermodynamics. At the same time, the problem of the connection between the principles of maximum and minimum entropy production has been studied in detail enough in the works of L. M. Martyushev et al. However, for forest ecosystems, the works that point out the connection of these fundamental principles are clearly insufficient. Usually, these principles are opposed to each other. In the proposed work, within the framework of a unified approach, the dependencies of the entropy production density and the entropy density have modeled using the example of a pine (Pínus sylvestris) stand of the 1-grade forest site capacity. It has shown that entropy production and entropy production density take both maximum and minimum values in the process of ecosystem evolution. Forest ecosystems are vivid representatives of open non-equilibrium systems. The existence of extreme principles in “ecological thermodynamics” is a subject of discussion in the works of many physicists, ecologists and researchers dealing with non-equilibrium thermodynamics. At the same time, the problem of the connection between the principles of maximum and minimum entropy production has been studied in detail enough in the works of L. M. Martyushev et al. However, for forest ecosystems, the works that point out the connection of these fundamental principles are clearly insufficient. Usually, these principles are opposed to each other. In the proposed work, within the framework of a unified approach, the dependencies of the entropy production density and the entropy density have modeled using the example of a pine ( Pínus sylvestris ) stand of the 1-grade forest site capacity. It has shown that entropy production and entropy production density take both maximum and minimum values in the process of ecosystem evolution. |
| Author | Lisitsyn, Viktor Evsikova, Natalya Matveev, Nikolai Kamalova, Nina |
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| Cites_doi | 10.3390/f13111948 10.3390/e25091288 10.1016/j.physrep.2005.12.001 10.34220/issn.2222-7962/2024.2/4 10.1093/forestscience/46.1.116 10.3390/e22080820 10.37482/0536-1036-2022-3-213-225 10.1016/B978-008044166-5/50009-4 10.3390/e16073710 |
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| DOI | 10.1051/bioconf/202414503005 |
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| References | Nielsen (R5) 2020; 22 Stoy (R15) 2014; 16 R4 R8 Lisitsyn (R2) 2024; 54 R9 Nielsen (R6) 2023; 25 Martyushev (R7) 2006; 426 R10 Cieszewski (R3) 2000; 46 R12 R11 R14 R13 Lisitsyn (R1) 2022; 3 |
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| SubjectTerms | Density Ecosystems Entropy Forest ecosystems Forests Maximum entropy Nonequilibrium thermodynamics Principles Terrestrial ecosystems Thermodynamics |
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