10.3.4
Rate of Speciation
Rate of Speciation
Rate of Speciation
Speciation can both occur gradually over time in small steps or in bursts of change known as punctuated equilibrium.
Varying rates of speciation
Varying rates of speciation
- In the gradual speciation model, species diverge gradually over time in small steps.
- In the punctuated equilibrium model, a new species undergoes changes quickly from the parent species, and then remains largely unchanged for long periods of time.
- This early change model is called punctuated equilibrium, because it begins with a punctuated change and then remains in balance afterwards.
- While punctuated equilibrium suggests a faster tempo, it does not necessarily exclude gradualism.
Factors affecting speciation
Factors affecting speciation
- The primary influencing factor on changes in speciation rate is environmental conditions.
- Under some conditions, selection occurs quickly or radically.
- Consider a species of snails that had been living with the same basic form for many thousands of years.
- Layers of their fossils would appear similar for a long time, until there was a change in the environment.
Factors affecting speciation - 2
Factors affecting speciation - 2
- When a change in the environment takes place—such as a drop in the water level—a small number of organisms are separated from the rest in a brief period of time.
- This essentially forms one large and one tiny population.
- The tiny population faces new environmental conditions.
- Because its gene pool quickly became so small, any variation that surfaces and that aids in surviving the new conditions becomes the predominant form.
Adaptive radiation
Adaptive radiation
- In some cases, a population of one species disperses throughout an area, and each population finds a distinct niche.
- Over time, the varied demands of their new lifestyles lead to multiple speciation events originating from a single species.
- This is a form of divergent evolution called adaptive radiation as many adaptations evolve from a single point of origin; thus, causing the species to radiate into several new ones.
- This can occur rapidly when there are many habitats available.
Adaptive radiation - example
Adaptive radiation - example
- The Hawaiian honeycreeper illustrates one example of adaptive radiation. From a single species, called the founder species, numerous species have evolved.
- Evolution in response to natural selection based on specific food sources in each new habitat led to evolution of a different beak suited to the specific food source.
- The seed-eating bird has a thicker, stronger beak which is suited to break hard nuts.
- The nectar-eating birds have long beaks to dip into flowers to reach the nectar.
1Cell Biology
1.1Introduction to Cells
1.2Ultrastructure of Cells
1.3Membrane Structure
1.4Membrane Transport
1.5The Origin of Cells
2Molecular Biology
2.1Water
2.2Carbohydrates & Lipids
2.3Proteins
2.4Enzymes
2.5Structure of DNA & RNA
2.6DNA Replication, Transcription & Translation
2.7Cell Respiration
2.8Photosynthesis
3Genetics
3.1Genes
3.2Chromosomes
3.3Meiosis
3.4Inheritance
3.5Genetic Modification & Biotechnology
4Ecology
4.1Species, Communities & Ecosytems
4.3Carbon Cycle
5Evolution & Biodiversity
5.1Evidence for Evolution
5.2Natural Selection
5.3Classification of Biodiversity
6Human Physiology
6.1Digestion & Absorption
6.2The Blood System
6.3Defence Against Infectious Disease
6.5Neurons & Synapses
7AHL: Nucleic Acids
7.1DNA Structure & Replication
7.2Transcription & Gene Expression
8AHL: Metabolism, Cell Respiration & Photosynthesis
8.1Metabolism
8.2Cell Respiration
9AHL: Plant Biology
9.1Transport in the Xylem of Plants
9.2Transport in the Phloem of Plants
9.3Growth in Plants
10AHL: Genetics & Evolution
10.1Meiosis
10.2Inheritance
10.2.1Linked Genes
10.2.2Sex-Linked Genes
10.2.3Non-Nuclear Inheritance
10.2.4Chi-Squared Test
10.2.5End of Topic Quiz - Inheritance
10.2.6IB Multiple Choice - Non-Mendelian Genetics
10.2.7Introduction to Non-Mendelian Inheritance
10.2.8Extended Response - Inheritance
10.2.9Grade 4-5 (Scientific Practices) - Inheritance
11AHL: Animal Physiology
11.1Antibody Production & Vaccination
11.3The Kidney & Osmoregulation
Jump to other topics
1Cell Biology
1.1Introduction to Cells
1.2Ultrastructure of Cells
1.3Membrane Structure
1.4Membrane Transport
1.5The Origin of Cells
2Molecular Biology
2.1Water
2.2Carbohydrates & Lipids
2.3Proteins
2.4Enzymes
2.5Structure of DNA & RNA
2.6DNA Replication, Transcription & Translation
2.7Cell Respiration
2.8Photosynthesis
3Genetics
3.1Genes
3.2Chromosomes
3.3Meiosis
3.4Inheritance
3.5Genetic Modification & Biotechnology
4Ecology
4.1Species, Communities & Ecosytems
4.3Carbon Cycle
5Evolution & Biodiversity
5.1Evidence for Evolution
5.2Natural Selection
5.3Classification of Biodiversity
6Human Physiology
6.1Digestion & Absorption
6.2The Blood System
6.3Defence Against Infectious Disease
6.5Neurons & Synapses
7AHL: Nucleic Acids
7.1DNA Structure & Replication
7.2Transcription & Gene Expression
8AHL: Metabolism, Cell Respiration & Photosynthesis
8.1Metabolism
8.2Cell Respiration
9AHL: Plant Biology
9.1Transport in the Xylem of Plants
9.2Transport in the Phloem of Plants
9.3Growth in Plants
10AHL: Genetics & Evolution
10.1Meiosis
10.2Inheritance
10.2.1Linked Genes
10.2.2Sex-Linked Genes
10.2.3Non-Nuclear Inheritance
10.2.4Chi-Squared Test
10.2.5End of Topic Quiz - Inheritance
10.2.6IB Multiple Choice - Non-Mendelian Genetics
10.2.7Introduction to Non-Mendelian Inheritance
10.2.8Extended Response - Inheritance
10.2.9Grade 4-5 (Scientific Practices) - Inheritance
11AHL: Animal Physiology
11.1Antibody Production & Vaccination
11.3The Kidney & Osmoregulation
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