5. MATHEMATICAL MODELING OF THE IMPACT OF CLIMATE CHANGE ON THE GROWTH OF PESTS AND USEFUL INSECTS
Author: GHAFOROV A.B. DOWNLOAD
DOI:
Abstract
The presented article focuses on the mathematical and computational modeling of the impact of climate change on the growth of harmful and
beneficial insect populations. In this research, a differential model for insect population growth has been developed, taking into account key climate parameters
such as temperature, humidity, precipitation, and solar radiation. This model, described through a system of differential equations, allows us to study the
dynamics of harmful and beneficial insect populations under changing climatic conditions. Using simplifiedsystems of equations and analytical methods, the
model has been analyzed in a simplifiedform. To streamline the equations, key climate parameters such as soil moisture, temperature, and solar radiation
were considered constants, facilitating calculations and improving understanding of the general impact of climate on insect population growth. The article
contributes to the development of modern ecosystem models, which can play a crucial role for farmers and ecologists in managing insect populations and
protecting the environment.
Keywords
mathematical modeling, harmful insects, bene�2cial insects, climate, di�1erential equations, ecosystem, agriculture, temperature, humidity, radiation, analytical solution.