1. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

2. Macroevolution and the Diversity of Life
Encompasses the major biological changes evident in the fossil record.
Includes the formation of new species.

3. Speciation Is the focal point of macroevolution.
May occur based on two contrasting patterns.
In non-branching evolution, a population transforms but does not create a new species.
In branching evolution, one or more new species branch from a parent species that may continue to exist.

4. Species is a Latin word meaning “kind” or “appearance.”
The Origin of Species
Species is a Latin word meaning “kind” or “appearance.”
The biological species concept defines a species as
A population or group of populations whose members have the potential to interbreed and produce fertile offspring.
The biological species concept cannot be applied in all situations, for example, with fossils and asexual organisms.

5. Species Similarity and Differences

6. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

7. Reproductive Barriers between Species
Giraffe Courtship Ritual
Albatross Courtship Ritual
Blue-Footed Boobies Courtship Ritual

8. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

9. Mechanisms of Speciation
A key event in the potential origin of a species occurs when a population is somehow severed from other populations of the parent species.
Galápagos Islands Overview
Grand Canyon

10. What Is the Tempo of Speciation?
Traditional evolutionary trees diagram the descent of species as gradual divergence. Stephen Jay Gould and Nils Elridge

11. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

12. The Evolution of Biological Novelty
What accounts for the evolution of biological novelty?
Adaptation of old structures for new functions
Exaptation
Structures that evolve in one context gradually becoming adapted for other functions.
Is a mechanism for novel features to arise gradually through a series of intermediate stages.
Reptilian scales  feathers
Legs  mouthparts

13. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

14. Earth History and Macroevolution
Is closely tied to the history of the Earth.
The fossil record is an archive of macroevolution
Macroevolution

15. Geologic Record or Time Scale
The age of organisms found in fossils can be determined by radiometric (C-14) dating
Table 14.1

16. Plate Tectonics and Macroevolution
The continents are not locked in place.
They drift about Earth’s surface on plates of crust floating on a flexible layer called the mantle.
California’s infamous San Andreas fault
Is at a border where two plates slide past each other.

17. About 250 million years ago
Plate movements formed the supercontinent Pangaea.
Many extinctions occurred, allowing survivors to diversify.
Lava Flow
Volcanic Eruption

18. Mass Extinctions and Explosive Diversifications of Life
The fossil record reveals an episodic history,
With long, relatively stable periods punctuated by briefer intervals when the turnover in species composition was much more extensive.
Extinction is inevitable in a changing world and occurs all the time.
However, extinction rates have not been steady.
Extinctions typically eliminate various species of organisms
And are followed by explosive diversifications of organisms.

19. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages

20. Classifying the Diversity of Life
Systematics
Is the study of the diversity and relationships of organisms, both past and present.
Taxonomy
Is the identification, naming, and classification of species.
Carolus Linnaeus
Developed the formal naming system used today.
Developed the system of binomial nomenclature

21. The Taxonomic Hierarchy
Figure 14.21

22. Classification of the Blackburnian warbler
Domain
Eukarya
(Complex cell organisms) 22

23. Classification and Phylogeny
The goal of classification is to reflect phylogeny, the evolutionary history of a species.

24. Sorting Homology from Analogy
Homologous structures
Are one of the best sources of information about phylogenetic relationships.
Convergent evolution
Involves superficially similar structures in unrelated organisms based on natural selection.
Analogy
Is similarity due to convergence.

25. Molecular Biology as a Tool in Systematics
Molecular systematics
Compares DNA and amino acid sequences between organisms.
Can reveal evolutionary relationships.
Cladistics
Is the scientific search for clades, distinctive branches in the history of life
Uses evolutionary novelties as landmarks for new clades

26. Cladistics
Has changed traditional classification of some organisms.

27. Three Domain System Evolved From Molecular Systematics Discoveries
Figure 14.26

28. How Biological Diversity Evolves CHAPTER 14
Macroevolution and New Species
Species Definition
Reproductive Barriers
Allopatric vs. Sympatric Mechanisms
The Development of Evolutionary Novelties
Macroevolution and Earth History
Taxonomy and Classification
Current System
Evolutionary Relatedness and Distinct Lineages