disruptive selection favors the extremes of a range of selection
Disruptive selection refers to natural selection that favors phenotypic extremes. Example (off the top of my head, but based loosely on reality): Consider a population of seed-eating birds with beaks that range in size, so that big beaks are best adapted to eating big seeds, small beaks are best adapted to small seeds, and medium beaks are best adapted to medium seeds. Now suppose that the source of medium seeds goes extinct (perhaps because of a fungal pathogen). The bird phenotype with medium beaks looses its food source; selection favors the big and small beaks.
Disruptive selection means that the most common trait is being removed from the population.
In directional selection means that a population is shifting in one direction toward an extreme trait.
Disruptive selection occurs when environmental pressures lead to two extreme genetic variants to be selected for equally. The peppered moth is an example. This moth can have either a light or dark coloration. In England during the Industrial Revolution, increased pollution caused tree bark within cities to turn dark. This favored the dark variation of the moth, since they could more easily blend in with the dark bark to hide from predators. In rural areas away from the pollution of cities, the lighter moth was better able to blend in with trees and escape detection from predators. This led to black moths being more common in cities and light moths being more common in the country.
Disruptive selection, also called diversifying selection, describes changes in population genetics in which extreme values for a trait are favored
stabilizing selection
Stabilizing Selection-- The extremes are selected against.Example: height; mostly beings tend to the average height- not too many really short ones or really tall ones.Directional selection-- One extreme value is selected for.Example: speed; faster is always better so a population will tend to get faster over time.Disruptive selection-- The extremes are both selected for.This type of selection is not as common as the first two. Example: Prey-type animal with distinctive markings which the predators know will over time move away from the norm in both directions.
This type of natural selection is called directional selection and does not display a normal curve of expressed traits, but a heavy set of data to the left of the curve that indicates the direction of selection of the extreme phenotype.Disruptive selection is where two extreme phenotypes are maintained in a population. This curve looks like a two humped camel in it's expression of these extreme traits.
When natural selection favors the intermediate version of a characteristic, it is referred to as stabilizing selection. It is the opposite of disruptive selection.
Answer 1Two broad processes that make evolution possible are 1 : directional forces including mutation , migration and selection and 2: nondirectional forces that include random genetic drift , bottleneck effect , founders effect ,and chance variations .Answer 2Evolution is most commonly described as a combination of reproductive variation and differential reproductive success.Reproductive variation in itself is a "non-directional" phenomenon, that produces mostly random variations. Differential reproductive success (or: natural selection) is a "directional" phenomenon, that basically acts as a mechanism limiting the set of "directions" produced by random variation.
directional selection,stabilizing selection, anddisruptiveselection
That would be disruptive selection.
Tends to result in a population whose individuals have extreme traits is what? ----> it is directional selection
Disruptive selection
There are three types of selections. The three types of selections include: disruptive selection, natural selection, and directional selection.
stabilizing selection
I'm not sure what "stabilizing directional" selection is, but if you get out a bell curve graph... Stabilizing selection tends to select for individuals around the average, or mean, of a population, which technically makes the curve steeper. Directional selection shifts the average in one direction (shifts the whole curve in one direction). Disruptive selection creates two new averages, which means it splits the one curve into two, smaller, separate curves.
Aside from decreasing genetic variation they both are not normal Gaussian curves. Disruptive selection has two normal curves at either end of the distribution. Directed selection has an abnormal curve with most of the data distributed is a skewed manner from the mean of distribution.
Aside from decreasing genetic variation they both are not normal Gaussian curves. Disruptive selection has two normal curves at either end of the distribution. Directed selection has an abnormal curve with most of the data distributed is a skewed manner from the mean of distribution.
disruptive selection
Disruptive selectionNatural selection . Stabilizing selection. Directional selectionthe answer is one of these idk which one
Stabilizing selection.