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Test your basic knowledge |
PCAT Biology Evolution
Start Test
Study First
Subjects
:
pcat
,
biology
Instructions:
Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can
study here
.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Species multiplication is generally accompanied by migration to lessen intraspecific competition
Variations
Gene Frequency
Branching Evolutionary Tree
Geographic Barriers
2. Only changes in the DNA of the sex cells can be inherited -changes acquired during an individual's life are changes in the characteristics and organization of somatic cells
Reproductively Isolated
Convergent Evolution
Modern Genetics
Homologous Structures
3. Impressions left by an organism ex: footprints
Imprints
Vestigial Structures
Overpopulation
Genetic Drift (Microevolution)
4. The sum total of all the alleles for any given trait in the population
Petrification
Saber-Tooth Tigers
Gene Pool
Mutation (Microevolution)
5. Missing link between reptiles (has teeth and scales) and birds (also has feathers)
Imprints
Dinosaurs
Archaepteryx
Convergent Evolution
6. When the gene frequencies of a population are not changing - the gene pool is stable - and population is not evolving
Convergent Evolution
Hardy-Weinberg Principle
Amber
Hardy-Weinberg Equation
7. Primitive crustacean (relative to the lobster) - which was dominant form of the early Paleozoic era
Reproductively Isolated
Coacervate Droplets
Homologous Structures
Trilobite
8. Common ancestor is found at the trunk and the modern species at the tips of the branches
Branching Evolutionary Tree
Saber-Tooth Tigers
Heterotroph Hypothesis
Geographic Barriers
9. Real populations have unstable gene pools and migrating populations -agents of this change are natural selection - mutation - assortive mating -genetic drift - and gene flow
Comparative Biochemistry (Physiology)
Microevolution
Lamarckian Evolution
Coacervate Droplets
10. When groups within the branches develop in similar ways when exposed to similar environments -ex: fish and dolphins
Coacervate Droplets
Convergent Evolution
Evolution of New Species
Development of Autotrophs
11. The process in which minerals replace the cells of an organism
Actual Remains
Gene Pool
Petrification
Eohippus
12. Discredited theory held that new organs or changes in existing ones arose becaUse of the needs of the organism
Natural Selection (Microevolution)
Lamarckian Evolution
Saber-Tooth Tigers
Petrification
13. The closer the organisms in the evolutionary scheme - the greater the similarity of their chemical constituents
Fossils
Genetic Information
Evolutionary History
Gene Frequency
14. More offspring are produced than can survive
Trilobite
Evolutionary History
Overpopulation
Formation of Primitive Cells
15. A cluster of colloidal molecules surrounded by a shell of water -tend to absorb and incorporate substances from the surrounding environment
Molds
Eohippus
Actual Remains
Coacervate Droplets
16. Dissimilar species ahve been found to have evolved from a common ancestor
Evolutionary History
Evidence of Organic Synthesis
Eohippus
Dinosaurs
17. Refers to changes in the composition of the gene pool due to chance -tend to be more pronounced in small populations - where it is sometimes called the founder effect
Genetic Drift (Microevolution)
Modern Genetics
Competition (struggle for survival)
Woolly Mammoth
18. P^2+2pq+q^2=1 -p^2=frequency of TT (dominant homozygotes) -2pq=frequency of Tt (heterozygotes) -q^2=frequency of tt (recessive homozygotes)
Hardy-Weinberg Equation
Casts
Adaptive Radiation
Actual Remains
19. Small local population -closely related genetically since mating between members of the same occurs more frequently =influenced by similar environmental factors and thus are subject to the same selection processes
Deme
Analogous Structures
Eohippus
Coacervate Droplets
20. Results from the geographic isolation of a population
Deme
Trilobite
Population
Isolation
21. Primitive heterotrophs slowly evolved complex biochemical pathways which enabled them to use a wider variety of nutrients -evolved anaerobic respiratory process to convert nutrients into energy -photosynthesis and autotrophic nutrition was developed
Geographic Barriers
Development of Autotrophs
Evidence of Organic Synthesis
Gene Pool
22. Most organisms demonstrate the same basic needs and metabolic processes -require the same nutrients and contain similar cellular organelles and energy storage forms
Gene Pool
Phylogeny
Comparative Biochemistry (Physiology)
Natural Selection
23. Preserved in asphalt tar pits
Saber-Tooth Tigers
Assortive Mating (Microevolution)
Overpopulation
Eohippus
24. Populations will become sufficiently different from each other to be able to reproduce
Development of New Species
Fossils
Reproductively Isolated
Coacervate Droplets
25. Pressures in the environment select for the organism most fit to survive and reproduce -concluded that a member of a particular species that is equipped with beneficial traits - allowing it to cope effectively with the immediate environment - will pr
26. All members of a particular species inhabiting a given locations
Population
Comparative Embryology
Petrification
Reproductively Isolated
27. Stanley L. Miller demonstrated the application of UV rays - heat or a combination of these to a mixture of methane - hydrogen - ammonia - and water could result in the formation of complex molecules -after circulation of the gases for one week - he a
Evidence of Organic Synthesis
Assortive Mating (Microevolution)
Microevolution
Eohippus
28. Population is very large -no mutations affect the gene pool -mating between individuals in the population is random -there is no net migration of individuals into or out of the populations -genes in the population are all equally successful at reprod
Saber-Tooth Tigers
Hardy-Weinberg conditions
Overpopulation
Development of Autotrophs
29. First forms of life lacked the ability to synthesize their own nutrients; they required performed molecules which made them heterotrophs -energy was present in the form of heat - electricity - solar radiation - including x rays and ultraviolet light
Formation of Primitive Cells
Heterotroph Hypothesis
Archaepteryx
Darwin's Theory of Natural Selection
30. If gene pools within a species become sufficiently different so that two individuals can't mate and produce fertile offspring - two different species have developed
Formation of Primitive Cells
Woolly Mammoth
Evolution
Development of New Species
31. Organisms in a species have variations that give them an advantage over other members of the species -organisms may have adaptations that are advantageous for survival
Analogous Structures
Adaptive Radiation
Amber
Natural Selection
32. The emergence of a number of lineages from a single ancestral species -may diverge into a number of distinct species; the differences between them are those adaptive to a distinct lifestyle - or niche
Fossils
Adaptive Radiation
Formation of Primitive Cells
Phylogeny
33. Fossil resin of trees
Amber
Assortive Mating (Microevolution)
Coacervate Droplets
Actual Remains
34. Ancient animals similar to both reptiles and birds and dominant in the Mesozoic era
Isolation
Comparative Biochemistry (Physiology)
Darwin's Theory of Natural Selection
Dinosaurs
35. Form in hollow spaces of rocks - as the organisms within decay
Molds
Population
Evolution
Speciation
36. Mates are not randoomly chosen but rather selected according to criteria such as phenotype and proximity - the relative genotype ratios will be affected and will depart from the predictions of the Hardy-Weinberg equilibrium
Assortive Mating (Microevolution)
Homologous Structures
Lamarckian Evolution
Genetic Information
37. The decimal fraction representing the presence of an allele for all members of a population that have this particular gene locus
Gene Flow
Genetic Drift (Microevolution)
Phylogeny
Gene Frequency
38. Developing population must compete for the necessities of life. many young must die - and the number of adults in the population generally remains constant from generation to generation
Competition (struggle for survival)
Coacervate Droplets
Genetic Information
Geographic Barriers
39. Genotypes with favorable variations are selected thorugh natural selection - and the frequency of favorable genes increases with the genepool. genotypes with low adaptive values tend to disappear
Hardy-Weinberg Equation
Variations
Natural Selection (Microevolution)
Branching Evolutionary Tree
40. Primitive horse the size of a fox with four toes and short teeth with pointed cusps for feeding on soft leaves
Eohippus
Genetic Drift (Microevolution)
Variations
Population
41. Hairy elephant found in the Siberian ice
Formation of Primitive Cells
Variations
Woolly Mammoth
Gene Frequency
42. The most direct evidence of evolutionary change -represent the remains of an extinct ancestor -generally found in sedimentary rocks
Fossils
Formation of Primitive Cells
Evolution
Competition (struggle for survival)
43. Similar functions but may have different evolutionary origins and entirely different patterns of development
Branching Evolutionary Tree
Analogous Structures
Molds
Genetic Drift (Microevolution)
44. Migration of individuals between populations that will result in a loss or gain of genes - thus changing the composition of a population's gene pool
Gene Flow
Population
Coacervate Droplets
Assortive Mating (Microevolution)
45. Evolutionary history and can be viewed asa branching tree
Imprints
Dinosaurs
Competition (struggle for survival)
Phylogeny
46. Over many generations of natural selection - the favorable changes eventually results in such significant changes of the gene pool that we can say a new species has evolved
Casts
Comparative Embryology
Evolution of New Species
Gene Flow
47. Offspring naturally show differences in their characteristics compared to their parents
Variations
Comparative Embryology
Comparative Biochemistry (Physiology)
Archaepteryx
48. Change in the genetic makeup of a population with time -explained by the constant propagation of new variations in the genes of a species - some of which impart an adaptive advantage
Evolution
Amber
Mutation (Microevolution)
Genetic Drift (Microevolution)
49. Individuals that survive (those with favorable variations) live to adulthood - reproduce their own kind - and thus transmit these favorable variations or adaptations to their offspring
Dinosaurs
Trilobite
Overpopulation
Inheritance of the Variations
50. Change allele frequencies in a population - shifting gene equilibria -can either be favorable or detrimental for the offspring
Mutation (Microevolution)
Vestigial Structures
Overpopulation
Microevolution