There’s Nothing Random About Natural Selection

"In the struggle for survival, the fittest win out at the expense of their rivals because they succeed in adapting themselves best to their environment." - Charles Darwin

1        1. Explain the concept of natural selection using the snails as an example.

Individuals in a population differ from each other. Some individuals will have characteristics that make them well adapted to their environment whereas others will have characteristics that make them less adapted to their environment. The better adapted individuals are the ones that are more likely to survive and produce offspring while the less adapted ones are more likely to die. This is called natural selection. Natural selection results in the better adapted individuals to pass on their characteristics to more offspring as the lesser adapted ones are more likely to die before they reproduce. Over time, this result accumulates and a new generation is created with the favourable characteristics that make this species better adapted to its environment. Natural selection has lead to the species evolving. The one of land-snails species, Cepaea nemoralis, for instance shows a clear example of a process of natural selection as seen in the casual relationship between their different characteristics within their own population and their overall geological distribution. These land snails vary in shell color and patterns, ranging from brown, pink and yellow where the brown and pink shelled snails are the darker snails and also ranging from unbranded to unbranded patter with the branded pattern with several distinct lines. These different colored and pattern shells may seem trivial but they play a significant role in the chances of survival. Genetics are what determine the color and the patterns of the shells, where the dominant genotype, like its name, is the dominant one and thus represents the organism’s phenotype. Like wise, the dominant characteristics of a snail are supportive of the snail’s survival and thus they were past down. Although some may claim that the causes of evolution may be arbitrary, there is actually nothing random about natural selection. It’s just simple algorithm: the more likely you are to survive, the more likely your genes are advantageous and the more likely your genes will be passed own. In the case of the snails, both the abiotic factors like the environment, climate and temperature affecting the distribution of brown/pink snails and yellow snails and biotic factors such as the snails’ predators are what determined its survival. There are evidence that pointed out that the darker shelled (brown and pink) snails are, the more likely they will survive in Northern Europe rather than in Southern Europe, where climate and temperature are much warmer due to its ability to absorb solar radiation more effectively in comparison to that of the lighter shelled snails. The less absorption of solar radiation propels the snails with yellow shells to thrive better in environments with higher temperature in places such as the Southern Europe because unlike the brown/pink shelled snails, the yellow snails are less likely to be overheated and died off. In colder areas, the brown and pink-shelled snails thrive because of their ability to trap scarce heat to warm them up. In addition, the environment and the other organisms living within the environment in which the snails live also affect the chance of survival. Yellow snails are noticeable in woodlands when compared to brown and pink snails. Thus, they are often fed in this area. However, the brown/pink snails are easily distinguished in grasslands and therefore are frequently predated in those areas. The same characteristic, in this case the shell color, can be a double-edged sword: it can either benefit you or harm you. This is simply natural selection.

2. Research another case of natural selection in action.  Write a summary of this research (1-2 paragraphs).  Site your source(s) at the end of the summary.

The cases of natural selection in action are right in front of us. In reality, these cases are actually us, human beings. Are humans still evolving? The simple answer is yes, even if the changes are not obvious. Experts believe that about 9 percent of our genes are undergoing rapid evolution as we speak. The genes most affected by natural selection are those involving the immune system, sexual reproduction and sensory perception. Lactose intolerance is one example of natural selection. We are the only species that doesn't become lactose intolerant as we grow up. This case of natural selection in action can be supported by a case study by Sabeti in 2006.

The domestication of plants and animals roughly 10,000 years ago profoundly changed human diets, and it gave those individuals who could best digest the new foods a selective advantage. The best understood of these adaptations is lactose tolerance. The ability to digest lactose, a sugar found in milk, usually disappears before adulthood in mammals, and the same is true in most human populations. However, for some people, including a large fraction of individuals of European descent, the ability to break down lactose persists because of a mutation in the lactase gene (LCT). This suggests that the allele became common in Europe because of increased nutrition from cow's milk, which became available after the domestication of cattle. This hypothesis by Sabeti and colleagues was later eventually confirmed by Todd Bersaglieri and his colleagues, who demonstrated that the lactase persistence allele is common in Europeans (nearly 80% of people of European descent carry this allele), and it has evidence of a selective sweep spanning roughly 1 million base pairs (1 megabase). Indeed, lactose tolerance is one of the strongest signals of selection seen anywhere in the genome. Sarah Tishkoff and colleagues subsequently found a distinct LCT mutation also conferring lactose tolerance, in this case in African pastoralist populations, suggesting the action of convergent evolution.

Let me ask you one last question. Are you lactose intolerant? Well, many people are. In fact, the ability to digest lactose may be an example of adaptive evolution in the human lineage.

http://sysbio.harvard.edu/csb/research/sabeti.html

http://discovermagazine.com/topics/human-origins/human-evolution

3. Explain the relationship between evolution, ecology and genetics.

Ecology is the study of the distribution of living organisms and their relationships to each other. Evolution involves the changes that take place as new species come about.  The ecology of an ecosystem changes as the biological diversity changes. For example, during the Jurassic period, the ecosystem involved large reptiles as the dominant animals. However, as the ecology changes overtime, the mammals evolve and the dinosaur eggs are destroyed, altering the population dynamics.  

In order for evolution to work, a mechanism that keeps trait discrete must exist. Genetics describes the pattern of inheritance. In order for evolution to work, a mechanism that keeps trait discrete must exist. Genetics describes the pattern of inheritance. A mutation is a change in DNA, the hereditary material of life. An organism’s DNA affects how it looks, how it behaves, and its physiology. So a change in an organism’s DNA can cause changes in all aspects of its life. Mutations are truly essential to evolution as they are the raw material of genetic variation. If the mutation made is beneficial to the organisms, the mutated genes will be passed on to the next generation. Without mutation, evolution could not occur.