1. Evolutionary biology studies:
(A) Soil formation only
(B) Daily weather patterns
(C) Changes in species over time
(D) Photosynthesis only
2. The theory of natural selection was proposed by:
(A) Jean-Baptiste Lamarck
(B) Gregor Mendel
(C) Charles Darwin
(D) Alfred Wallace
3. Lamarck’s theory of evolution is based on:
(A) Inheritance of acquired characteristics
(B) Natural selection
(C) Genetic drift
(D) Mutation only
4. Variation in a population is important for:
(A) Evolution by natural selection
(B) Soil fertility only
(C) Photosynthesis only
(D) Water absorption only
5. Mutations contribute to evolution by:
(A) Eliminating all traits
(B) Reducing biodiversity
(C) Introducing new genetic variations
(D) Increasing only population size
6. Genetic drift refers to:
(A) Mutation only
(B) Natural selection only
(C) Random changes in allele frequencies in small populations
(D) Migration only
7. Gene flow occurs when:
(A) Mutation occurs only
(B) Individuals migrate and exchange genes between populations
(C) Natural selection stops
(D) Genetic drift dominates only
8. Speciation is:
(A) Genetic drift only
(B) Extinction of species only
(C) Mutation only
(D) Formation of new species from existing ones
9. Allopatric speciation occurs due to:
(A) Temporal isolation only
(B) Behavioral isolation only
(C) Geographic isolation
(D) Mutation only
10. Sympatric speciation occurs due to:
(A) Reproductive isolation without geographic separation
(B) Habitat destruction only
(C) Mutation only
(D) Migration only
11. Adaptive radiation refers to:
(A) Only extinction events
(B) Rapid diversification of a single ancestor into multiple species
(C) Gene mutation only
(D) Soil adaptation only
12. Convergent evolution results in:
(A) Divergence of species only
(B) Unrelated species developing similar traits
(C) Genetic drift only
(D) Mutation loss only
13. Divergent evolution leads to:
(A) Only genetic drift
(B) Extinction of species only
(C) Related species developing different traits
(D) Mutation loss only
14. Homologous structures indicate:
(A) Convergent evolution only
(B) Similar function only
(C) Common ancestry
(D) Random adaptation only
15. Analogous structures indicate:
(A) Mutation only
(B) Same ancestry only
(C) Genetic drift only
(D) Similar function but different ancestry
16. Vestigial structures are:
(A) Mutations only
(B) Fully functional organs only
(C) Adaptive traits only
(D) Remnants of organs that have lost their function
17. Fossils provide evidence of:
(A) Soil composition only
(B) Past life and evolutionary changes
(C) Photosynthesis only
(D) Atmospheric gases only
18. Molecular biology supports evolution by:
(A) Comparing DNA, RNA, and protein sequences
(B) Soil analysis only
(C) Only fossil records
(D) Atmospheric studies only
19. Hardy-Weinberg equilibrium is used to:
(A) Track soil nutrients only
(B) Measure photosynthesis only
(C) Study allele frequency stability in populations
(D) Study energy flow only
20. Conditions for Hardy-Weinberg equilibrium include:
(A) No mutation, no selection, large population, random mating, no migration
(B) Mutation only
(C) Selection only
(D) Migration only
21. Darwin’s finches are an example of:
(A) Mutation only
(B) Convergent evolution only
(C) Genetic drift only
(D) Adaptive radiation
22. Coevolution occurs when:
(A) Only mutation occurs
(B) Two or more species reciprocally affect each other’s evolution
(C) Genetic drift occurs only
(D) Natural selection stops
23. Punctuated equilibrium suggests:
(A) Mutation loss only
(B) Gradual continuous change only
(C) Genetic drift only
(D) Evolution occurs in rapid bursts followed by long periods of stasis
24. Gradualism suggests:
(A) Slow and steady accumulation of changes over time
(B) Sudden mutation only
(C) Gene flow only
(D) Speciation events only
25. Microevolution refers to:
(A) Continental drift only
(B) Formation of new species only
(C) Mass extinction events
(D) Small changes in allele frequencies within a population
26. Macroevolution refers to:
(A) Large-scale evolutionary changes resulting in new species
(B) Population growth only
(C) Soil changes only
(D) Photosynthesis only
27. Fitness in evolutionary terms refers to:
(A) Physical strength only
(B) Reproductive success of an individual
(C) Size of organism only
(D) Survival in soil only
28. Sexual selection is:
(A) Selection based on mate choice
(B) Random mutation only
(C) Genetic drift only
(D) Natural selection only for soil adaptation
29. Survival of the fittest means:
(A) Individuals best adapted to their environment reproduce more successfully
(B) Only strongest survive physically
(C) Only largest species survive
(D) Only fastest species survive
30. Speciation can be accelerated by:
(A) Reproductive isolation and environmental pressures
(B) Random mating only
(C) Soil enrichment only
(D) Photosynthesis only
31. Adaptive traits are:
(A) Traits that increase an organism’s fitness in a specific environment
(B) Traits with no effect
(C) Mutations only
(D) Soil characteristics only
32. Evolutionary convergence occurs when:
(A) Only gene flow occurs
(B) Related species diverge
(C) Only mutation occurs
(D) Unrelated species evolve similar traits due to similar environments
33. Molecular clock uses:
(A) Genetic differences to estimate divergence times
(B) Fossils only
(C) Photosynthesis rate only
(D) Soil layers only
34. Extinction is:
(A) Complete disappearance of a species
(B) Migration only
(C) Evolution only
(D) Mutation loss only
35. Mass extinction events are characterized by:
(A) Only soil loss
(B) Gradual change only
(C) Loss of a large number of species in a short time
(D) Only energy loss
36. Fossil record provides evidence of:
(A) Water cycles only
(B) Only soil composition
(C) Photosynthesis only
(D) Transitional forms and evolutionary history
37. Transitional fossils show:
(A) Only minerals
(B) Only soil layers
(C) Only rocks
(D) Intermediate features between ancestral and derived species
38. Homoplasy refers to:
(A) Mutation only
(B) Common ancestry only
(C) Similar traits in unrelated species due to convergent evolution
(D) Genetic drift only
39. Evolutionary trees (phylogenies) show:
(A) Only soil layers
(B) Relationships among species based on common ancestry
(C) Photosynthesis patterns
(D) Atmospheric changes
40. Cladistics is used to:
(A) Only DNA sequencing
(B) Only fossil age
(C) Classify species based on shared derived traits
(D) Only soil nutrients
41. Molecular evolution studies:
(A) Water cycles only
(B) Only soil chemistry
(C) Photosynthesis only
(D) Changes in DNA and protein sequences over time
42. Evolutionary adaptation occurs through:
(A) Natural selection acting on heritable variation
(B) Random chance only
(C) Mutation only without selection
(D) Soil composition only
43. Population bottleneck leads to:
(A) Reduced genetic diversity due to drastic population reduction
(B) Increased genetic diversity only
(C) Mutation loss only
(D) Gene duplication only
44. Founder effect occurs when:
(A) A small group colonizes a new area causing genetic drift
(B) Only mutation occurs
(C) Gene flow occurs widely
(D) Only soil nutrients change
45. Evolutionary arms race refers to:
(A) Only genetic drift
(B) Only mutation
(C) Reciprocal adaptations between predators and prey or hosts and parasites
(D) Only soil adaptation
46. Evolutionary stasis occurs when:
(A) Mass extinction only
(B) Rapid diversification
(C) Little change occurs in a species over long periods
(D) Soil erosion only
47. Epigenetic changes can influence evolution by:
(A) Only soil enrichment
(B) Only mutation
(C) Only drift
(D) Modifying gene expression without changing DNA sequence
48. Coevolution examples include:
(A) Predators only
(B) Soil microbes only
(C) Flowering plants and their pollinators
(D) Only fossil records
49. Evolutionary novelty refers to:
(A) Only water cycles
(B) Soil characteristics only
(C) Photosynthesis only
(D) New traits that enable organisms to exploit new ecological niches
50. Understanding evolutionary biology is essential for:
(A) Water treatment only
(B) Only soil testing
(C) Only industrial production
(D) Medicine, agriculture, conservation, and understanding life history