SBI3U Biology - Evolution Unit Glossary (2024-2025) PDF

Summary

This document is a glossary of terms related to evolution. It defines key concepts such as microevolution, macroevolution, adaptation, mutation, and variation. The glossary is organized by lesson and provides concise explanations.

Full Transcript

SBI 3U 2024-2025

SBI3U Biology - Evolution Unit Glossary

Terms Definitions & Explanations

Lesson 01 - Introduction to Evolution 23/24

Biological An inherited (heritable) change (variation) that happens within a POPULATION, NOT
Evolution INDIVIDUALS

Microevolution Changes in the allele frequencies within a population over successive generations

Macroevolution The progression of biodiversity over a long period of time; involves speciation and
extinction and often accumulates from microevolution

Mutation a permanent change in the genetic material of an organism; the only source or
starting point of new genetic variation

Variation differences between individuals, which may be structural, functional, or physiological

Adaptation a structure, behaviour, or physiological process that helps an organism survive and
reproduce in a particular environment

Structural An adaptation in a specific part or feature of the organism’s body (i.e. mimicry,
Adaptation camouflage)

Physiological Permits an organism to perform a specific function (i.e. Hibernation)
Adaptation

Behavioural A change in the ways an organism acts (i.e. hunting strategies, migration pattern)
Adaptation

Selective a genetic advantage that improves an organism’s chance of survival, usually in a
Advantage changing environment

Fitness the relative contribution an individual makes to the next generation by producing
offspring that will survive long enough to reproduce (viable)

Mimicry a structural adaptation in which a harmless species resembles a harmful species in
coloration or structure

Camouflage A structural adaptation in which a species blends into the environment

Lesson 02 - Evidence of Evolution

Fossil Record Chronological remains and traces of past life that are found in sedimentary rock; it
reveals the history of life on Earth and kinds of organisms that were alive in the past

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Transitional Fossil a fossil that shows intermediary links between groups of organisms and shares
characteristics common to two now separated groups (both ancestral and
descendant groups)
Ex. Archaeopteryx and Sinusauropteryx

Comparative The study of similarities and differences in anatomy between species, one of the
Anatomy evidence of evolution

Homologous structures that have similar structural elements and origin but may have a different
Structure function = Similar structure, different function
Ex. Vertebrates share similar arrangement of bones

Analogous structures of organisms that do not have a common evolutionary origin (ancestor)
Structure but perform similar functions = Similar function, different structures
Ex. Butterfly and bat wings

Vestigial Structure a structure that is a reduced version of a structure that was functional in the
organism’s ancestors, but not functional in the new species due to evolution

Biomedical The study of how closely related two organisms are by comparing DNA and proteins
Analysis (DNA)

Embryology the study of early, pre-birth stages or an organism’s development (to see similar
stages of development that are no longer visible in late stages)

Biogeography the study of the past and present geographical distribution of species populations

Lesson 03 - Mechanisms of Evolution

Mutation Change that randomly occurs in the DNA of an INDIVIDUAL that is heritable

Neutral Mutation Mutations that occur in non-coding regions of DNA and have no effects
Ex. attached earlobe vs. free earlobe

Beneficial Mutations that nature selects FOR, allele frequency accumulates over time
Mutation Ex. Antibiotic resistance

Harmful Mutation Mutations that nature selects AGAINST, allele frequency are very rare
Ex. Cystic fibrosis, rare genetic diseases

Natural Selection Organisms with advantageous, heritable traits are selected for, survive and
reproduce, passing their traits to their offspring

Directional A natural selection that favours the phenotypes at one extreme over another,
Selection resulting in the distribution curve of phenotypes shifting in the direction of that
extreme

Disruptive A natural selection that favours the extremes of a range of phenotypes rather than
Selection intermediate phenotypes; this type of selection can result in the elimination of

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intermediate phenotypes

Stabilizing A natural selection that favours intermediate phenotypes and acts against extreme
Selection variations (intermediate phenotype keeps high frequency)

Random mating A pattern in which any males and females have equal chances of mating

Non-random The mating among individuals on the basis of mate selection for a particular
mating phenotype or due to inbreeding

Inbreeding When closely related individuals breed together, offspring are more likely to have
deformities

Preferred Selecting a mate based on physical and behavioural traits (phenotypes)
Phenotypes

Assortative When individuals mate with partners that have similar characteristics/ phenotypes
Mating

Disassortative When individuals mate with partners that have dissimilar characteristics/ phenotypes
Mating

Sexual Selection A selection for mating based, in general, on competition between males and choices
made by females
Certain characteristics are actively sought out by one sex (usually female)

Sexual A marked difference between males and females due to sexual selection
dimorphism Ex. male peacocks have more attractive colours and females have normal colour

Genetic Drift The change in frequencies of alleles due to chance events in a usually small breeding
population, some alleles are lost

Bottleneck Effect Changes in gene distribution that result from a rapid decrease in population size
Ex. natural disasters like drought, tsunami, disease, starvation….
→ Decreased genetic diversity

Founder Effect A change in a gene pool that occurs when a few individuals start a new isolated
population (colonization, migration)
→ Decreased genetic diversity

The net movement of alleles from one population to another due to the migration of
Gene Flow
individuals
(Migration)
→ Increased genetic diversity

Artificial Selection The differential reproduction of genotypes caused by HUMAN INTERVENTION (e.g.,
breeding dogs, crops). Done to achieve a desired CHARACTERISTIC in the offspring.

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Lesson 04 - Speciation

Biological Species A species is a population where individuals are able to interbreed and produce viable
Concept offspring (lived long enough to reproduce again)

Speciation The formation of a new species (macroevolution)

Allopatric Speciation in which a population is split into two or more groups by a geographical
Speciation barrier; (geographical speciation)
With geographical (physical) barriers

Sympatric Speciation in which populations within the same geographical areas diverge and
Speciation become reproductively (genetically) isolated
Without geographical (physical) barriers

Lesson 05 - Reproductive Isolating Mechanisms

Prezygotic a barrier that either impedes mating between species or prevents fertilization of the
Isolating eggs if individuals from different species attempt to mate (pre-fertilization barrier)
Mechanism

Postzygotic a barrier that prevents hybrid zygotes from developing into viable, fertile individuals
Isolating (post-fertilization barrier)
Mechanism

Ecological Species that occupy separate habitats or different niches of the same habitat do not
Isolation mate with each other

Temporal Species that have different mating times of day, seasons or different years do not
Isolation mate with each other

Behavioural Distinct courtship or mating cues for attracting a mate made different species unable
Isolation to recognize and mate with each other.

Mechanical Highly specialized structural differences in reproductive organs prevents copulation
Isolation

Gametic Isolation At the molecular level, eggs and sperm can not fertilize, and zygote cannot be formed

Zygotic Mortality The fertilized zygote dies before birth (incompatibility of chromosomes)

Hybrid Inviability The developing embryo dies before birth or is born alive but cannot survive or live
long enough to reproduce again

Hybrid Infertility Hybrids develop normally but are sterile (infertile), unable to produce gametes

Lesson 06 - Patterns and Speed of Evolution

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Lesson 07 - Hardy-Weinberg Equilibrium

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