Evolutionary Processes 1
Evolutionary Processes II
Speciation I
Speciation II
Polyploidy I
Polyploidy II
Patterns & Evidence of Evolution I
Patterns & Evidence of Evolution II
100

Alleles

Different versions of the same gene. Created by random mutations. 

100

Natural Selection

Increase in frequency of alleles that code for fitter traits in a population over time AND decrease in frequency of alleles that code for less fit traits. 

100

Species

Organisms that can interbreed together and produce fertile offspring

100

Speciation

The process of a population splitting into two or more sub-populations that become reproductively isolated then accumulate genetic differences that prevent them from interbreeding over time.

100

Diploid

Cells that have two copies of every chromosome (2n). This is the default for most sexually reproducing species somatic cells.

100

Haploid

Cells that contain only one of each chromosome (1n). This is the default for gamete cells in sexually reproducing organisms.

100

Transitional Fossils

A series of fossils that show gradual change in anatomy from an ancestor to modern day (extant) species

100

Divergent Evolution

When a population is split into two sub-populations that experience different selection pressures and evolve into two or more species over time.
EVIDENCE:
- homologous structures
- high % DNA similarity
- close together on phylogenetic tree
- mtDNA clock shows recent shared ancestry
- transitional fossils

200

Gene Flow

Movement of alleles between gene pools, this keeps populations the same and stops them from speciating.

200

Directional Selection

Type of natural selection where one extreme version of a trait gets selected for over time eg. antibiotic resistance in bacteria

200

Pre-zygotic RIM

Reproductive Isolation Mechanisms that occur before fertilization eg. behavioural, ecological, geographical, mechanical, gamete incompatibility.

200

Allopatric Speciation

Speciation that is started when a population is split into two+ geographically isolated sub-populations eg. by a mountain range, glacier forming, river valley, continental drift.

200

Meiosis

The process of making gametes that contain HALF the amount of genetic material as the parent cells they came from eg. 2n --> 1n

200

Autopolyploidy

Polyploids that form within the same species eg. when a plant makes 2n pollen that fertilizes a 1n ovule of the same species, making a 3n triploid.

200

% DNA Similarity

The amount of shared DNA base pairs between two living species. The higher the number the more closely related they are and the more recently they diverged from a common ancestor.

200

Adaptive Radiation

When one ancestral population diverges into many species very quickly. This occurs when there are many empty niches to fill (eg. after a large natural disaster) or when competition is very intense (eg. on a small island).

300

Genetic Drift

Change in allele frequency due to random chance events. This can lead to random fixation or loss of an allele in small gene pools.
300

Stabilising Selection

Type of natural selection where the middle/average version of a trait is selected for over time and the two extremes are selected against eg. human head size

300

Post-zygotic RIM

Reproductive Isolation Mechanisms that occur after fertilization eg. Hybrid inviability, Hybrid infertility, Hybrid breakdown.

300

Sympatric Speciation

Speciation that is started when a population is split into two+ reproductively isolated sub-populations but this is NOT geographical eg. a mutation causes a behavioural change, mechanical change, gamete incompatibility.

300

Gametes

Cells used for sexual reproduction these contain half the amount of genetic material of the parent that produced them eg. 2n --> 1n
eg. sperm, eggs, pollen, ovules

300

Allopolyploidy

Polyploids that form when two species interbreed and form a hybrid. This hybrid is sterile as it doesn't contain homologous pairs of chromosomes even if it's 2n. 

300

Phylogenetic Tree

A tree showing how closely or distantly related two or more species are. Species that cluster together on the tree are closely related.

300

Homologous Features/Traits

Anatomical features that have very different functions but the same underlying structures eg. human arm and whale flipper have the same bone structure. 

This indicates recent shared ancestry and divergent evolution.

400

Bottleneck

A sudden and large decrease in population size that leads to the random loss or fixation of an allele even after the population recovers.

400

Disruptive Selection

Type of natural selection where the middle/average phenotype is selected against and the two extremes are selected for eg. rock pocket mice coat colour (black and tan).

400

Hybrid Inviability

When two species mate and produce an offspring but the offspring dies before reaching maturity.

400

Deme

Two or more sub-populations that are partially reproductively isolated but can still interbreed with each other.

400

Triploid

Cells that contain 3 copies of every chromsome (3n). If this is in somatic cells they will be infertile and unable to make gametes. 

400

Homologous Chromosomes

Pairs of chromosomes that have the same genes in the same locations on them. 

400

mtDNA Clock

Mitochondrial DNA clock; DNA from mitochondria are passed down clonally from mother to offspring so the DNA only changes due to a constant steady muattion rate. This rate can be used to decide how long ago two living species diverged from a common ancestor. 

400

Co-Evolution

When two closely interacting species put reciprocal selective pressure on each other eg. a pollinating bat's tongue length randomly increases, this puts a pressure on flowering plants so their flower tubes increase in length

500

Founders Event

A small non-representative sub-sample of a large gene pool creates a new isolated population with less genetic diversity than the original population it came from.

500

Selection Pressure

Anything in the environment that sorts organsisms into fit versus non fit varieties eg. predators, drought, disease, cold temperatures.

500

Hybrid Breakdown

When two species mate, make an offspring, and that offspring is fertile, but the F2 generation is infertile. 

500

Cline

A gradual change in phenotype over a geographical gradient due to gradually changing selection pressures. Neighbouring sub-populations can still interbreed. 

500

Chromosome Nondisjunction

When spindle fibers fail to separate pairs of chromosomes during meiosis, leading to polyploid gametes. 

500

Chromosome Doubling

When an organism duplicates all of its chromosomes. This makes an allopolyploid fertile since it will now have homologous pairs of chromosomes.
eg. ABCD --> AABBCCDD

500

Analogous Features/Traits

Anatomical features that are used for the same function/purpose but have very different underlying structures eg. insect wings and bird wings. This indicates convergent evolution rather than recent shared common ancestry.

500

Punctuated Equilibrium

Long periods of little to no change in a species followed by large sudden changes in their features. This indicates a very steady unchanging environment followed by a sudden shift in selection pressure eg. some kind of natural disaster. 
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