Introduction to Biology

Now, I'm making this page after a couple of pages even though I probably should've made it first. No hate please guys im sorry ๐Ÿ˜“

But anyway, let's start this lesson.

Biology is the study of life. But what is considered living in the first place? Living things are all so different - so how can we find similarities between every species on Earth? It might seem mindblowing, but all living things have seven shared characteristics:

Life is organized in many ways. Scientists need ways to put living creatures in categories so they can find patterns and links to species. The highest level of this organization is called domains. All life on Earth fits within three domains: bacteria, archaea, and eukaryota.

Bacteria are microorganisms. They are further divided into eubacteria and cyanobacteria.

Archaea are unicellular microorganisms that are commonly extremophiles, meaning they live in extreme conditions.

Both bacteria and archaea are prokaryotic. This means that their cells do not have nuclei inside them. I will explain nuclei in the cell organelles page, so be sure to check that one out.

Eukaryotes can be unicellular or multicellular. They are further divided into four kingdoms: animalia, fungi, protista, and plantae. Animalia consists of multicellular organisms, or well, animals (thats pretty wild). Fungi can either be unicellular or multicellular, but all fungi decompose dead organisms. Plantae consists of organisms that produce energy using photosynthesis. Protista is a kingdom of unicellular and multicellular organisms that don't really fit into any other categories ๐Ÿ’€

Biology is a huge field, and it is super complex at all of its levels. Thus, the hierarchy of organization helps organize life into categories by scale. These categories are the following:

Biology itself is also centered around five themes that are interwoven with each other:

Evolution, the core theme, occurs through the process of natural selection, in which only the successful traits of species are passed down to their offspring. For example, (this is my favorite example, since I grew up hearing it), a long time ago, there was an ecosystem of birch trees and moths. The moths came in two colors - brown and white. However, since the trees were birch trees, most of the moths were white. But a factory was built nearby, and the smoke from its spires stained the birch trees black. Because the white moths were more visible to birds, tthey were all eaten, and only the brown moths could live long enough to reproduce. Soon, the whole species consisted of mostly brown moths - natural selection at its finest.

For a species to survive through natural selection and reproduce, it must have adaptations - or, body parts, abilities, and traits that animals have that give them an advantage to help them better survive in their environment. Adaptations vary slightly from individual to individual, and they can be passed down to offspring. Because of this, the animals with more successful adaptations are the ones that are able to pass them down, which is exactly what natural selection is: survival of the fittest. That implies that you would not survive, unfortunately... you're not Dwayne The Rock Johnson. Humble yourself.

Artificial selection is the manmade version of natural selection. It is a process by which humans control evolution in organisms by selectively choosing which ones to breed. Some examples of this are:

Hey, if you're interested in this stuff, you should study ecology. Ecology is the study of organisms and how they interact with their environments. For example, food chains are interactions between organisms within their environment.ย 

Systems biology is another field one might be interested in. Systems biology is an approach to scientists that helps them model the behavior of biological systems by analyzing the interactions between them. For example, there is a map of the interactions between over 2000 proteins in a fruit fly cell. If you're curious, you might end up making one like it yourself.

Oh well, that's all I have to say in this page. I'm looking forward to working more! Please check out the welcome page to see which pages are complete and which ones are in progress. I hope to see you in the next one!