Assessment of Farmland Ecosystem Transformation and Its Practical Impact
DOI:
https://doi.org/10.54097/gdjt5q51Keywords:
Lotka-Volterra Model; Ecological Stability; Euler Numerical Iteration; Organic Agriculture.Abstract
In the context of the constantly changing global agricultural environment, there is an urgent need to address pest issues, strengthen ecosystem stability, and drive the development of sustainable agriculture. This study emerges as a response to these challenges.Specifically, a comprehensive ecosystem model is developed, taking into account elements such as seasonality and agricultural cycles. The Lotka - Volterra equations are utilized to establish a mathematical model, with numerical methods employed to simulate the dynamic changes within the ecosystem. Additionally, a regional impact index system is constructed. During the research, it is discovered that the introduction of native species can significantly enhance biodiversity and ecosystem stability. For instance, bats have been proven to be highly effective in both pollination and pest control. Moreover, a sustainability index is calculated to quantitatively evaluate the performance of the agricultural ecosystem.In conclusion, this study innovatively integrates multiple factors, providing practical guidance for farmers to achieve a balance between ecological protection and economic benefits. Future research could focus on further refining the model under more complex real - world scenarios and promoting the wide - scale application of these findings in different agricultural regions globally.
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