Untangling the Mathematical Relation Between Natural Selection and Adaptive Radiation Using Macromolecules and Microevolutionary Forces

Bharat Kwatra; Maanvi Mudgil

doi:10.32628/IJSRST207260

Authors

Bharat Kwatra State University of New York
Maanvi Mudgil Delhi University, India

DOI:

https://doi.org//10.32628/IJSRST207260

Keywords:

Pill Bugs, Evolution, Adaptive Radiation, DNA Fingerprinting, Natural Selection, Regression Analysis, Gene-environment interaction, Genetic Drift, Macromolecules, Hardy Weinberg Principle, Isopoda

Abstract

Simulating natural selection over subsequent generations of Oniscus asellus, the fittest selected male and female bugs in different diet was used to analyze the concentration of proteins in their body along their frequency in continuous mapped generations over hundred seed values, further DNA Fingerprinting of these selected bugs revealed a relationship with their parents originated from different geographic areas/borders. It was observed that variation in microevolutionary forces caused variation in macromolecules by setting up a gene-environment interaction which deduced natural selection in order to define adaptive radiation and speciation by micro-evolutionary forces.

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