Adaptation in a population of organisms happens as a result of something called an adaptive trait. This is any inheritable trait that increases an organism's survival rate so that it can longer, reproduce longer, and have more offspring (that also have that trait).
Adaptative traits can improve food collection, making a safer home, escaping predators, tolerating cold or heat or lack of water. Sometimes the trait is obvious, like a skunk spraying, but sometimes it is subtle and interesting to discover.
Animals may develop types of cryptic colors, patterns and behaviors to survive. Some simply have the same colors as the surrounding environment. This is called, blending. Some combine cryptic coloring with the actual details of the leaves, bark or plants they live on, forming a disguise. Some animals develop a color pattern, like spots, zigzags or stripes to hide the outline of their bodies or blend in with dappled light, irregular bark or tall grass. Some animals mimic the body coloring or actions of poisonous or bad tasting prey to benefit from that protection. Some animals enlarge themselves to discourage predators. Others try to startle a predator with a loud hiss, a flash of color or leaping. This is adaptive behavior. Sometimes physical adaptations help animals survive in their habitat. Longer, thicker fur for the cold, larger ears to cool the blood in the heat, webbed feet, these are all traits that increase survival so are considered adaptations.
It takes many, many generations for a new physical adaptation to spread throughout a whole population of animals.
If all the animals in a population are of the same species, how do some develop an adaptive trait that can become a useful adaptation?
In a population of organisms there is always some genetic variability. This means that not all individuals in a population are exactly alike. For instance, not all the caribou in a herd are exactly alike. If a few caribou have a trait -- like wider feet for walking in the snow -- that helps them survive to have more offspring, they have a selective advantage. This is an example of natural selection. Natural selection can lead to the adaptive trait showing up in more and more of a population.
There are 3 things that make natural selection work.
1) Genetic variability in a population, so that a trait appears that can give an advantage.
2) The trait must be inheritable so it can be passed on to the offspring.
3) The trait must lead to more offspring surviving. This is called differential reproduction.
Adaptations that change an organism's physical traits occur mostly in rapidly reproducing species -- like insects. This is not something that happens readily in humans. We do not reproduce fast enough or have enough offspring for this to work. Other things affect human change and even then it can take thousands of years.
This database is a collection of different adaptations and how each helps the animal (or plant) survive.
Armadillo (Nine Banded)
Birdsfoot Trefoil and the Honeybee
Maple (Red) Adaptation
Pine Tree (White)
Praying Mantis (Orchid)
Shrew (Northern Short-tailed)
3. Life Science Standards
Science subject matter focuses on the science facts, concepts, principles, theories, and models that are important for all students to know, understand, and use.
K-4 Characteristics of organisms, life cycles of organisms, organisms and environments
5-8 Structure and function in living systems, reproduction and heredity, regulation and behavior, populations and ecosystems, diversity and adaptations of organisms