Differential equations play a key role in environmental science, providing mathematical tools for understanding environmental
processes and predicting change. This study explores in depth the application of differential equations to environmental models, especially in
pollutant dispersion, ecosystem dynamics, and climate change prediction. This paper expounds the theoretical basis, modeling method and
solving process of differential equation in detail, highlighting its role in revealing the complexity of environmental system. At the same time,
the importance of model verification and uncertainty analysis is emphasized. This paper also points out the future development potential of
differential equations in interdisciplinary integration and advanced computation, which provides research direction and improvement path for
the field of environmental science.

Environmental science; Differential equation; Model construction

1. [1] Tsokos, C. P., & Xu, Y. (2009). Modeling carbon dioxide emissions with a system of differential equations. Nonlinear Analysis-Theory Methods & Applications, 71(12), E1182-E1197.

2. [2] Lu, Z. L., Zhenwei, & Wang, H. L. (2016). The application of regression analysis and differential equation models in the prediction

3. of indoor PM2.5 concentration. Journal of Residuals Science & Technology, 13(1), 325-328.

4. [3] Tiwari, J. L., & Hobbie, J. E. (1976). Random differential equations as models of ecosystems .2. Initial condition and parameter

5. specifications in terms of maximum entropy distributions. Mathematical Biosciences, 31(1-2), 37-53.

6. [4] Liu, Y. L., Chen, C., Alotaibi, R., & Shorman, S. M. (2022). Study on audio-visual family restoration of children with mental disorders based on the mathematical model of fuzzy comprehensive evaluation of differential equation. Applied Mathematics and Nonlinear

7. Sciences, 7(2), 307-314.

8. [5] Kafle, R. C., Pokhrel, K. P., Khanal, N., & Tsokos, C. P. (2019). Differential equation model of carbon dioxide emission using functional linear regression. Journal of Applied Statistics, 46(7), 1246-1259.

9. [6] Cai, W. G., & Pan, J. F. (2017). Stochastic differential equation models for the price of European CO2 emissions allowances. Sustainability, 9(2), 207.