1. APES Unit IV: Evolution and Biodiversity
Chapter 5

2. Evolution: Change in genetic composition of a population over time
population: all individuals of the same species occupying the same area.
gene: unit of heritable information -usually associated (at the molecular level) with a specific region located on the chromosome.
allele: - one of two or more slightly different forms, or "variants" of a given gene.
genotype: a selection of the genes that make up an individual.
phenotype: the consequence(s) of all the allelic interactions that give rise to a visibly   determinable "type".

3. Genetics 101 gene pool: all the genotypes within a population.
Mutation: mistake in copying of genetic code; if mutation in sex cells it is inherited.
Recombination: during cell division part of one chromosome breaks off and attaches to another, which leads to new gene combinations and thus genetic diversity
Evolution by Artificial Selection: Breeding dogs, horses, pea plants
Unintended consequence of agricultural breeding is pesticide/herbicide resistance

4. I.Understanding Biodiversity
HHMI: 2014 Lectures 2 and 3
Biodiversity: variety of earth’s species, or varying life forms, the genes they contain, the ecosystems they live in and the ecosystem processes of energy flow and nutrient cycling that sustain life.
Ecosystem Diversity
Species Diversity
Population Diversity
Genetic Diversity

5. II. Human Impacts on Biodiversity
Human Impact on Biodiversity Underlying Causes: population growth, poverty, undervaluing natural capital Direct Causes: HIPPCO H=Habitat Destruction, degradation and fragmentation I: Invasive Species P=Population growth and increase resource use P=Pollution C: Climate Change O: Overexploitation
Population
Land Transformation
Climate Change
Invasive Species
Diseases
The role of Protected Areas
Synergistic Effects

6. Invasive / Alien/Non-Native Species
Native Species: live in their historic range-where they have lived for thousands-millions of years
Alien: Live outside historic range
Some species moved accidentally , some intentionally
Asian Carp

7. Kudzu

8. Zebra Mussels
feed by drawing water and filtering out most of the suspended microscopic plants, animals and debris for food.
can lead to increased water clarity and a depleted food supply for other aquatic organisms, including fish.
The higher light penetration fosters growth of rooted aquatic plants which, although creating more habitat for small fish, may inhibit the larger, predatory fish from finding their food.
Zebra mussel infestations may also promote the growth of blue- green algae, since they avoid consuming this type of algae but not others.
Zebra mussels attach to the shells of native mussels in great masses, effectively smothering them

11. http://www.nwf.org/What-We-Do/Protect- Wildlife/Invasive-Species/Ballast-Water.aspx

12. Population, Pollution and Climate Change
Pollution: DDT
Population: Bald Eagle: saved eagle but shortage of fish mean they eat baby cormorant chicks
Climate Change: Cannot adapt fast enough; Polar Bearhttps:// om/watch?v=lPgZfhnCAdI

13. Overexploitation: Hunting, Fishing, Illegally killing, capturing and selling wild species

14. III. Measuring Biodiversity
Diversity and Abundance
Species Richness: Number of different species
Species Evenness: abundance / proportion of individuals within the species. Are all species represented by similar numbers of individuals?

15. III. Measuring Biodiversity
Genetic Diversity and adaptation:
Habitat Fragmentation:
Habitat Islands:
Habitat Corridors:
Island Biogeography: a field within biogeography that examines the factors that affect the species richness of isolated natural communities
Population Bottleneck:
Pika Study:

20. Species Richness Influenced by many factors
Latitude: richness declines as we move from equator toward North or South Pole.
Time: Longer a habitat exists, the more colonization and speciation
Theory of Island Biogeography: Influence of SIZE of habitat an d DISTANCE
Conservation: Should we establish several small reserves or a single large reserve?

21. IV. Evolution by Natural Selection
Biological Evolution: the process whereby earth’s life changes over time through changes in genetic characteristics of populations. All species descended from earlier, ancestral species.
Proposed by Charles Darwin-On the Origin of Species by Means of Natural Selection. Change in populations (not individuals) genetic makeup over successive generations. Major driving force of adaptation

22. Darwin’s Theory Individuals produce an excess of offspring
Not all offspring can survive
Individual differ in their traits (Genetic Variability )
Differences in traits can be passed from parent – offspring (differential reproduction)
Natural Selection: environmental conditions favor some individuals over others
Fitness: Ability to survive and reproduce
Adaptation/Adaptive Traits: any heritable trait that improves the ability of an individual organism to survive and to reproduce at a higher rate than other individuals in a population under prevailing environmental conditions.

23. Differential reproduction: individuals with the trait are able to survive and reproduce at a higher rate than other individuals in the population
Natural Selection at work: Genetic Resistance=ability of one or more organisms in a population to tolerate a chemical designed to kill it. Antibiotic Resistance/Pesticide Resistance
Limitations to adaptation through natural selection
Change in enviro condition can lead to adaptation only for genetic traits already present in a population’s gene pool or for traits resulting from mutations, which occur randomly
Ability to adapt limited by reproductive capacity
Natural Selection acts on individuals but occurs in populations

24. Example of Evolution by Natural Selection Peppered Moth
Coevolution: Populations of two different species interact over a long period of time, change in gene pool of one can lead to change in gene pool of another.
k/newgcse/naturalselectio n.html
The term coevolution is used to describe cases where two (or more) species reciprocally affect each other’s evolution. So for example, an evolutionary change in the morphology of a plant, might affect the morphology of an herbivore that eats the plant, which in turn might affect the evolution of the plant, which might affect the evolution of the herbivore...and so on.
Coevolution is likely to happen when different species have close ecological interactions with one another. These ecological relationships include:
Predator/prey and parasite/host
Competitive species
Mutualistic species
Bats and moths: Bats use echolocation and hunt at night for moths./Some moths have evolved larger ears to avoid predaton/bats can switch frequency.
Plants and insects that pollinate them

25. IV. Evolution by Random Processes
Genetic Drift: Change in allele frequency in a population due to random sampling. Some organisms, by chance, leave behind more offspring
genetic drift with marbles
Population Bottleneck: an evolutionary event in which a significant percentage of a population or species is killed or otherwise prevented from reproducing; some genotypes will be lost and genetic composition of survivors will differ from original group

26. Founder Effect
The founder effect is a special case of a population bottleneck, occurring when a small group in a population splinters off from the original population and forms a new one, taking with it only limited alleles from the original population
Some gene variants disappeare completely and reduce variability. NOT driven by environmental or adaptive pressures and may be beneficial, neutral or detrimental to reproductive success. MUCH GREATER EFFECT ON SMALL POPULATIONS

27. Summary
Earth’s biodiversity is the product of evolution, a change in the genetic composition of a population over time
Evolution below the species level is microevolution-variety of apples or potatoes
Genetic changes that give rise to new genera, families, classes in macroevolution
Extinction and speciation are what leads to biodiversity

28. V. Speciation and Extinction Determine Biodiversity
Process of Speciaition- Two Phases
Geographic Isolation: groups from same population become physically isolated
Reproductive Isolation: When sexually reproductive organisms becomes so genetically different they cannot mate 
Geographic isolation: Separated by river, mountain
Reproductive Isolation: The evolution of different mating location, mating time, or mating rituals
Lack of “fit” between sexual organs,
Offspring inviability or sterility: All that courting and mating is wasted if the offspring of matings between the two groups do not survive or cannot reproduce.

30. Pace of Evolution Hundreds to millions of years
Average global rate 1 species every 3 million years.
If populations cannot adapt quickly enough they go extinct
To survive a rapid environmental change, a population must evolve quickly.

31. Ecological Niche: role of an organism in ecosystem; its way of life
Niche includes adaptations acquired through evolution, range of tolerance, types and amounts of resources the species uses and interactions with other organisms. Competition limits niche
Limits to Adaptation-ability to adapt limited to gene pool and how fast it can reproduce.
B) Fundamental Niche: full potential range of conditions if there were no competition
Realized Niche: the portion of niche fulfilled
C) Bad News is that most individuals would have to die off or become sterile so that individuals with desireable trait could dominate.
Resource Partioning: Some species competing for same resource develop special adaptations: hunt day vs. night
D) Generalists have broad niches-they are more able to survive if environment changes. Broader range of tolerance, less specific eating habits: mice, deer, catfish, humans
Specialists-narrow niches: one type of habitat, limited food source or specific requirement. PANDA-they are prone to extinction or
E) No grand design-all random
Survival of fittest-fitness is a measure of reproductive success, leaving the most descendients-not strength

32. All species has an optimal environment in which it performs particularly well-a range of tolerance or limit to abiotic conditions they can tolerate.
fundamental niche
realized niche.
Combination of abiotic conditions fundamentally determines whether a species can persist there-this set of conditions is the fundamental niche of the species.
Because biotic conditions further limit population, realized niche includes all abiotic and biotic conditions.

33. A generalist species: Broad Niches able to thrive in a wide variety of environmental conditions and can make use of a variety of different resources
A specialist species: Narrow Niches can only thrive in a narrow range of environmental conditions or has a limited diet. Often prone to extinction.
Most organisms do not all fit neatly into either group

34. IX. Environmental Changes-Physical Evolution
Movement of tectonic plates has determined location of continents and ocean basins
Location/latitude of continents determines climate and thus where plants and animals live
Movement of continents has allowed species to move, adapt to new environments and form new species.
Movement of tectonic plates has allowed species to move, adapt to new climates and form new species

36. Volcanic Eruptions: Mt
Volcanic Eruptions: Mt. Saint Helens: Destroy habitat and wipe out populations
Earthquakes: create fissures that separate and isolate populations
Climate Change and Natural Selection: Grizzly and Polar Bear

38. Divergence: One species becomes two
Convergence: The evolution of species from different taxonomic groups toward a similar form.
Extinction: Species ceases to exist. They can be ecologically extinct-number are so small they cannot fulfill their role. Over 99 % of all species that have ever lived are now extinct.

39. Background Extinction Mass Extinction The 6th mass extinction
Endemic Species: found only in one area; are most vulnerable to extinction
Background Extinction
Mass Extinction
The 6th mass extinction
Background Extinction: Extinctions are normally occurring in nature
Mass Extinction: large percent of species across the genera