Study on the model of fungi degradation
DOI: 10.23977/erej.2021.050209 | Downloads: 55 | Views: 1818
Guangyao Zhang 1, Yi Wang 2, Fuchang Li 1, Zhonghua Yao 3
1 Department of Mechanical and Electrical Engineering, Qingdao City University, Qingdao 266109, Shandong, China
2 Department of International Trade and Economy, Qingdao City University, Qingdao 266109, Shandong, China
3 Department of Basic Courses, Qingdao City University, Qingdao 266109, Shandong, China
Corresponding AuthorZhonghua Yao
As the crucial participant in the organic matter cycle of evolution, the characteristics of the fungi are always at the top of the researchers’ attention. Many biologists have fully studied their growing habits, including the sensitivity of external environmental factors and the use of nutrients, etc. There are, at the same time, a few variations between different fungi. We study the classification about the most acceptable types of fungi, the features of various fungi and the simple method of their decomposition from a number of articles and publications. Then, on behalf of all the species, we select ten fungi, using data analysis and fitting, we have originally developed the model of fungi growth rate and decomposition rate. On the basis of this, we add the influence of external conditions on the growth rate of fungi, and finally we get a model of the rate of fungal decomposition and external variables.
KEYWORDSFungal degradation model, Optimal model of fungal degradation, Grow-together Model, Biological interaction
CITE THIS PAPER
Guangyao Zhang, Yi Wang, Fuchang Li, Zhonghua Yao. Study on the model of fungi degradation. Environment, Resource and Ecology Journal (2021) 5: 40-44. DOI: http://dx.doi.org/10.23977/erej.2021.050209
 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.
 Daniel S. Maynard, Mark A. Bradford, et al. Consistent trade-offs in fungal trait expres-sion across broad spatial scales [J]. Nature Microbiology, 2019, 4(5).
 Yang kunyi, homing pigeon, yang xingya. improved oral microbial population model and its Lyapunov stability [J]. Mathematics practice and understanding, 2012, 42(23): 157-163.