The Modern Evolutionary Synthesis and the History of It's Development

Modern evolutionary synthesis is a combination of Darwin evolution and Mendelian genetics. It is impossible to understand this theory and its importance to the scientific community unless you understand the history behind this theory. From 1902 to 1953, major publications of system science, developmental biology, botany, population genetics, palaeontology successfully integrated Darwin's four hypotheses and Mendelian genetics into evolutionary reform. The new theory is called modern synthesis, evolutionary synthesis, or modern evolutionary synthesis.

In the following decades, evolutionary biology has incorporated development consistent with modern synthetic principles. One of them is "neutral theory" which emphasizes random events in evolution theory. However, Standard Evolution Theory (SET) holds almost the same assumption as the original modern synthesis that continues to guide people in thinking about evolution theory. The story said by SET is simple: new mutations arise from random genetic mutations; genetics occurs through DNA; natural selection is well-suited for adaptation and the organism is well suited to its environment Process. In this view, the complexity of biological development - the change that occurs as an organism grows and ages - has secondary, and even secondary, importance.

Evolution is a field that focuses on further developing and completing modern evolution and gene synthesis. Notable topics include appropriate selection levels, the relative importance of natural selection and other mechanisms, and the speed of evolution of genotypic and phenotypic levels.

Population genetics was at the center of evolutionary biology, as genetically based natural selection evolution theory has been used for so-called modern synthesis. When an evolutionist theorist observed a particular phenomenon in a natural population, such as a rise in the level of violence between human males and females, they began to ask if this phenomenon resulted from natural selection. Population genetics is a mathematical tool used to study whether hypothetical genes are theoretically possible.

It is increasingly recognized that the pioneering research of Gregor Mendel in genetics first led to the development of population genetics and then the modern evolutionary synthesis that interprets evolution as a mutation and level in the middle of the 20th century ing. As a consequence of events such as gene transfer, these events result in genetic variation, genetic drift, and natural selection to promote this change over time. In the next few years, DNA has been found to work and act on genetic inheritance, which has now brought what is called "core principle" of molecular biology. In the molecular phylogeny of the 1960's, studies on the evolution of 'families' by biochemical techniques, especially when it was suggested that human strains were recently separated rather than the generally believed mites I began to exert it.