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Evolutionary Biology

DukeUniversity_IMG252
(Duke University - Cheng-Yu Chen)
 

 

- Overview

Evolutionary biology is a branch of biology that studies the processes that led to the diversity of life on Earth. It also studies the history of life forms on Earth. Evolution is the change in heritable characteristics of biological populations over successive generations. 

Evolutionary biology seeks to explain the diversity of life, including the variety of organisms and their characteristics, and their changes over time. It also seeks to interpret and understand organismal adaptation to environmental conditions. 

Evolutionary biology provides a unifying framework for understanding the similarities and differences among individuals and species. 

Some evolutionary processes include: 

  • Natural selection: A mechanism of evolution where organisms that are more adapted to their environment are more likely to survive and pass on the genes that aided their success.
  • Adaptation: The biological mechanism by which organisms adjust to new environments or to changes in their current environment.

 

- Evolutionary Biology and Genetics

Genetics is the study of genes and heredity, while evolutionary biology is the study of the processes that led to the diversity of life on Earth. Genetics is closely related to evolution because it is the mechanism through which traits are passed down from one generation to the next.

Genetics focuses on two processes that are central to genetic continuity from one generation to the next:

  • Transcription and translation: Genetic information is conveyed from DNA to RNA to proteins.
  • Replication: Genetic information is transferred from DNA to DNA.

Evolutionary biology seeks to explain the diversity of life: the variety of organisms and their characteristics, and their changes over time. Evolutionary biology also seeks to interpret and understand organismal adaptation to environmental conditions.

Evolutionary biology focuses on five key mechanisms that cause a population to exhibit a change in allele frequency from one generation to the next: Mutation, Genetic drift, Gene flow, Non-random mating, Natural selection.

Evolutionary biology is also useful in various fields, from pest management to human genetics and the study of pathogenic microbes.

 

[More to come ...]



 

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