Notes from NEET topper
Human Skin Colour
Human skin color is a highly variable trait that is influenced by genetics, environment, and evolutionary factors. It is an excellent example of the complex inheritance patterns and adaptations seen in the Principles of Inheritance and Variation. Here’s an explanation of the principles of inheritance and variation related to human skin color:
1. Polygenic Inheritance: Human skin color is a polygenic trait, meaning it is controlled by multiple genes. Several genes contribute to the production and distribution of melanin, the pigment responsible for skin color. These genes interact in a complex manner to determine an individual’s skin color.
2. Multiple Alleles: Genes involved in skin color often have multiple alleles, or different versions of the gene. Alleles can range from genes that produce a lot of melanin (resulting in darker skin) to those that produce less melanin (resulting in lighter skin). The combination of alleles an individual inherits from their parents influences their skin color.
3. Incomplete Dominance: In some cases, skin color inheritance exhibits incomplete dominance. This means that when individuals with different skin color alleles (e.g., one for dark skin and one for light skin) mate, their offspring may have an intermediate skin color. This is different from complete dominance, where one allele would completely mask the other.
4. Adaptive Evolution: Human skin color variation is also a result of adaptation to different environments and UV radiation levels. People living in regions with high UV radiation, such as near the equator, tend to have darker skin, which provides protection against the harmful effects of excessive UV exposure. Conversely, people in regions with lower UV radiation levels, such as at higher latitudes, tend to have lighter skin, which allows for greater absorption of UV rays to produce essential vitamin D.
5. Geographic Distribution: Skin color varies geographically, with a gradient of darker skin near the equator and lighter skin toward the poles. This distribution reflects the adaptive responses of human populations to their specific environments.
6. Environmental Influence: While genetics plays a significant role in determining baseline skin color, environmental factors like sun exposure can modify skin color throughout an individual’s lifetime. Prolonged sun exposure can lead to tanning, darkening the skin, while lack of sun exposure can lead to lightening of the skin.
7. Phenotypic Plasticity: Phenotypic plasticity refers to an organism’s ability to change its phenotype (observable characteristics) in response to environmental cues. Human skin color demonstrates phenotypic plasticity, as it can change based on UV exposure, dietary factors, and other environmental influences.
8. Human Migration: The genetic diversity of human skin color is also a result of human migration and population mixing. As humans migrated to different parts of the world, they encountered new environments and adapted to them, resulting in the wide range of skin colors seen today.