NUMERICAL ANALYSIS OF THE IMPACT OF DECREASING THE INTRA-SPECIFIC COMPETITION COEFFICIENT OF THE SECOND PLANT SPECIE ON BIODIVERSITY SCENARIO
Abstract
The intra-specific coefficients are used in a scientific method that goes beyond creating a biodiversity index to provide a numerical evaluation of various biodiversity scenarios. The ODE 45 is an efficient computational method that is used to obtain this quantification. According to our observations, biodiversity typically increases when the intra-specific coefficient is changed by percentages of 40%, 45%, 90%, 99%, and 99.99%. But the biodiversity advantage we saw at first turns into a biodiversity loss as the variances hit 101% and 105%. This shift takes place between the 99.99% and the 101% variation of the same parameter, which is the range of intra-specific coefficient variation. By using the distinct bifurcation intervals we have found in this work, we can more effectively monitor the main worry regarding the loss of biodiversity gain, which can be interpreted as a decline in yields. Researchers studying the effects of climate change on plant species yields and related agricultural crops, such as environmentalists, numerical mathematicians, and numerical simulators, are expected to find significant value in the research findings of this study. This study presents and quantitatively discusses novel results that have not been previously reported elsewhere.
Keywords
Biodiversity, Intra-Specific Coefficients, Numerical, Bifurcation, ODE 45