Deck 9: The Mechanisms of Evolution

A)consists of allele frequencies that are constantly changing.
B)is under no selective pressures.
C)consists of genotype frequencies that are constantly changing.
D)is very common in nature.
E)requires a small population size.

A)Fossils found in adjacent rock layers are more similar to each other than those found in distant layers.
B)Many organisms that lived previously were different from today's living organisms.
C)All types of organisms have left a fossil record.
D)Different organisms were present at different times in Earth's history.
E)In general, simpler forms of organisms are found in older rocks; more complex forms in younger rocks.

A)directional
B)stabilizing
C)disruptive
D)natural
E)neutral

A)people of different races often have more genetic similarities than many individuals within a race.
B)humans have a more ancient origin than chimpanzees.
C)there is much genetic diversity among cheetahs.
D)among humans, many genetic variations are restricted to certain racial groups.
E)there is no difference between different races of humans.

A)did not have a function when they first developed, but do so today.
B)are similar in many organisms.
C)must have evolved individually in different organisms.
D)are not found in present-day organisms.
E)include the human appendix and wisdom teeth and a snake's hipbones.

A)The survival of the population is the key to evolution.
B)All living organisms are the descendants of common ancestors.
C)Increased survival and reproduction are the keys to evolution.
D)The better adapted individuals are to an environment, the more likely they are to survive and reproduce.
E)Modification of body plans and behaviors of organisms has led to descent with modification.

A)As scientists explored more of the earth, they found that different groups of organisms were found in the different regions.
B)Even though the limbs of various mammals carry out different functions (swimming, gliding, running, holding, etc.), the bone patterns are very similar.
C)Some fossils of extinct organisms are quite different from living organisms.
D)The limbs of some mammals serve the same purpose but their bone patterns are very different.
E)The platypus is only found in Australia and the dodo was only found on Madagascar.

A)a trait that was beneficial to survival in the past
B)a trait that is currently beneficial to survival
C)a trait that will be beneficial in the future
D)a trait that is of no advantage to survival
E)an environmental change that selects for certain traits

A)adaptive radiation
B)convergent evolution
C)reticulate evolution
D)homology
E)punctuated equilibrium

A)selections.
B)adaptations.
C)selective.
D)divergent.
E)directional.

A)homologous structures
B)adaptations
C)original elements
D)genetic weaknesses
E)vestigial organs

A)adaptive
B)directional shift
C)selective disadvantage
D)environmental susceptibility
E)selective advantage

A)giraffes were created with long necks.
B)giraffes with slightly longer necks would be better able to reproduce.
C)changes in structure size in an individual can be inherited.
D)all members of a species must change identically.
E)giraffes developed longer necks to compensate for shorter legs.

A)are the results of very different genetic blueprints.
B)can have different functions.
C)show structural differences in the embryos but are similar in the adult organisms.
D)are only found within a species.
E)have the same function.

A)Natural selection causes variations to arise within a population.
B)Natural selection leads to increased likelihood of survival for certain individuals based on variation.The variation must come from outside the population.
C)All individuals within a population have an equal likelihood of survival.Survival is based on chance.
D)Natural selection results in those individuals within a population who are best-adapted surviving and producing more offspring.
E)Natural selection leads to extinction.

A)occur within a species.
B)can prevent members of the same species from reproducing.
C)only act after fertilization.
D)can prevent members of different species from interbreeding.
E)only act before fertilization.

A)show no similarities.
B)have the same bases in DNA and RNA, the same amino acids in proteins, but use different genetic codes.
C)use different means of storing genetic information.
D)have the same bases in DNA and RNA, the same amino acids in proteins, and use the same genetic code.
E)have the same bases in DNA and RNA, but different amino acids in proteins.

A)all the types of organisms that have lived on Earth are present today.
B)individuals within a population are all virtually identical to each other.
C)there is usually ample food and water for all populations.
D)when natural resources become scarce, competition occurs between members of the same species.
E)populations will only produce as many offspring as can be accommodated by the environment.

A)sedimentary rock.
B)Antarctica.
C)peat bogs.
D)tar pits.
E)volcanic deposits.

A)genetic drift.
B)convergent evolution.
C)adaptive radiation.
D)sympatric speciation.
E)parapatric speciation.

A)parapatric speciation.
B)sympatric speciation.
C)adaptive radiation.
D)phyletic gradualism.
E)convergent evolution.

A)gene flow
B)bottleneck effect
C)founder effect
D)genetic drift
E)effective population size

A)convergent evolution.
B)gene flow.
C)allopatric speciation.
D)sympatric speciation.
E)parapatric speciation.

A)no mutation
B)no migration
C)small population size
D)random mating
E)no selection

A)gradual
B)punctuated
C)disruptive
D)directional
E)stabilizing

A)It was inspired in part by patterns observed in the fossil record.
B)It proposes that most evolutionary change is concentrated in relatively brief episodes of change.
C)It suggests that subgroups diverge and evolve at about equal and constant rates.
D)It suggests that most species undergo little phenotypic change during most of their evolutionary duration.
E)It appears to be well supported by the fossil record.