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Academic Journal of Environment & Earth Science, 2021, 3(2); doi: 10.25236/AJEE.2021.030202.

A Fungal Degradation Model Based on Dynamic Simulation


Qunchang Gao1, Ruirui Zhang2, Xiaokang Zhang1, Haoyue Lu3, Yunjing Hu4

Corresponding Author:
Qunchang Gao

1School of Electrical and Control Engineering, North University of China, Taiyuan 030051, China

2School of Mechanical and Electrical Engineering, North University of China, Taiyuan 030051, China

3School of Instrument and Electronics, North University of China, Taiyuan 030051, China

4School of Electric Power and Architecture, Shanxi University, Taiyuan 030051, China


The decomposition between plant material and wood fibers by fungi is a crucial part of the carbon cycle, which is an important part of life on Earth. Therefore, the study of fungi decomposition rate has great practical significance. The decomposition process of single species of fungi is analyzed. We quantify the growth of a single species of fungi based on an improve Logstic model, taking temperature and humidity into account. Then, considering the growth rate and moisture tolerance of fungi, the decomposition dynamics model of single fungi is established. It will lay a foundation for the model analysis of multiple fungi.


Fungi Decomposition Model, Simulates, Climate Influence Factor

Cite This Paper

Qunchang Gao, Ruirui Zhang, Xiaokang Zhang, Haoyue Lu, Yunjing Hu. A Fungal Degradation Model Based on Dynamic Simulation. Academic Journal of Environment & Earth Science (2021) Vol. 3 Issue 2: 9-13. https://doi.org/10.25236/AJEE.2021.030202.


[1] Yuqian Hung.Study on microbial growth model based on metabolites [D]. Zhejiang Normal University, 2019.

[2] Sheng Feng, Ding Wen, Yang qi Ou, Hongwei Mou, Ruichu Wei. Transport and degradation model of soil pollutants under the condition of microbial growth and reproduction [J]. Journal of Changsha University of Science and Technology (Natural Science Edition), 2020, 17(01): 83-91.

[3] Jielin Shang. Dynamics model of finite resource ratio competition between two populations [D]. Shandong University, 2014.

[4] Nicky Lustenhouwer, Daniel S. Maynard, Mark A. Bradford, Daniel L. Lindner, Brad Oberle, Amy E. Zanne, and Thomas W. Crowther, "A trait-based understanding of wood decomposition by fungi," Proceedings of the National Academy of Sciences of the United States, May 13, 2020.