Author(s)

Haoze Jiang ¹

Affiliation(s)

¹ Dalian Maritime University, School of Marine Electrical Engineering, Dalian, Liaoning, 116000

Corresponding Author

Haoze Jiang

ABSTRACT

This paper links environmental factors with the activity, growth and reproduction of fungi, and then analyze the changes of envi-ronment and biodiversity in the entire simulated environment. Firstly, the paper simulates the decomposition of woody fiber, getting the inherent growth rate, random diffusion rate, intra-species competition coefficient and inter-species competi-tion coefficient of the three fungi.Through the establishment of different kinds of biological competition model, we simulate the changes in their population density. Secondly, the model is built for evaluating the advantages and disadvantages of species and species combinations, and then obtain the relative dominance of each species, the competitiveness of different groups fluctuates greatly, and the long-term result is that a combination loses competitiveness.

KEYWORDS

Biological competition model, Relative dominance, Decomposer

CITE THIS PAPER

Haoze Jiang. Study of Fungi as Decomposer. Environment, Resource and Ecology Journal (2021) 5: 1-5. DOI: http://dx.doi.org/10.23977/erej.2021.050301

REFERENCES

[1] CJ Alexopoulos, CW Mims, and Yu Yongnian. Introductory Mycology. China Agriculture Press, 1983.
[2]Robert W Hurter. Nonwood plant fiber characteristics. Agricultural Residues, 1: 1–4, 1997.
[3] Wang Zhe. Study on the effects and simulation of environmental factors on tomato growth indicators under different substrates. Master’s thesis, Hebei Agricultural Uni-versity, 2019.
[4] Wang Tingkai. A predictive model for growing process of pleurotus. Journal of Chongqing University (Natural Science Edition), 1987.
[5] Steven A Morris and David Pratt.Analysis of lotka-volterra competition equations as a technological substitution model.Technological Forecasting and Social Change, 70(2): 103-133, 2003.
[6] CHEN Ming-Rong, LIN Yong-Hui, HE Xing-Bing, and HAN Guo-Min. Effects of colonization by endophytic fungi of cunninghamia lanceolata leaves on litter decomposition and associating microbial activities. Microbiology China, 47(5): 1404–1417, 2020.

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