1. Species Interactions Chapter 2 - Section 2 Interaction Definition
Examples
Competition
Two or more organisms of the same or different species attempt to use the same limited resource.
Oak trees and maple trees competing for light.
Fish and Frogs eating bugs in the water.
Predation/
Parasitism
Organisms that live in or on another organism and feed on it without immediately killing it.
(One species benefits, one is harmed.)
Predation: wolf and rabbit Parasitism: flea and wolf
Mutualism
A cooperative partnership between two species in which both species benefit. - (also called symbiotic relationships)
Insect pollination of flowers
Commensalism
A relationship in which one species benefits and the other is neither harmed nor helped.
Birds on the back of a rhinoceros.
Amensalism/
Allelopathy
One species harms another (typically by releasing a chemical or toxic substance), but is not affected itself. affects the development and growth of neighboring plants.
Eucalyptus & Black Walnuts

2. “Survival of the Fittest”
Chapter 2 - Section 3
“Survival of the Fittest”

3. Natural Selection Chapter 2 - Section 3
The unequal survival and reproduction that results from the presence or absence of particular “traits”.
(Starburst Activity?)

4. Selection vs. Selectionr K
Which one has more to do with “Natural” Selection?

5. Artificial Selection
 the intentional breeding of plants or animals (i.e. selective breeding). Selective breeding is a technique used when breeding domesticated animals, such as dogs, horses or cattle. Some of these animals will have traits that a breeder will want to preserve.
Genetically modifying organisms (GMOs) lead to the most rapid rate of evolution.

6. Evolution Chapter 2 - Section 3
A change in the genetic characteristics of populations from one generation to the next. (The genetic change within a population over time)
A population with high genetic variation would result in the highest rate of evolution.

7. Adaptation Chapter 2 - Section 3
An inherited trait that increases an organism’s chance of survival and reproduction in a certain environment.

8. Mutation Chapter 2 - Section 3
the changing of the structure of a gene, resulting in a variant form that may be transmitted to subsequent generations, caused by the alteration of DNA.
Which one is real?

9. Mutation Chapter 2 - Section 3
the changing of the structure of a gene, resulting in a variant form that may be transmitted to subsequent generations.
A mutation is a change in an organism’s DNA.
Mutations are not necessarily good or bad, but they are always random (not based on environment).
Mutations may be caused by environmental factors such as UV radiation.
Many mutations cause the offspring to die before they are born.
Mutations may lead to greater genetic diversity.

10. Threatened  Endangered  Extinct!
Extinction
Chapter 2 - Section 3
When the last individual of a species dies.
Threatened  Endangered  Extinct!
The primary causes for species endangerment are:
Direct Exploitation
Commercial Harvesting
Introduction of exotic species
Pollution
The primary causes for the current increase in extinction rates are:
Habitat Destruction
Overharvesting
Introduction of invasive species
Climate Change
Scientists estimate that about 99% of the original species on Earth (including those before humans) are now extinct.
Project
Make a PowerPoint based on an Endangered Species of animal, insect or plant.
Requirements
Location: include population/habitat maps and migration routes
Quantity: how many are left - in the wild vs. in captivity
Causes: why are they threatened or endangered?
Solution: how are they being protected / reproduced today?
See “assignments” page of website for more information.
Already done

11. Already in notes Biodiversity Chapter 10 - Section 1
Biodiversity: The number and variety of life forms in an environment.
Populations with high genetic diversity are better able to respond to environmental change than with lower genetic diversity.
Scientists have identified and cataloged approximately 2 million species on Earth.  Estimates of the total number of species on Earth range between 5 million and 100 million, with the most common estimate at 10 million.
The average rate at which species go extinct over the long term, referred to as the background extinction rate, is very slow: about one species in a million every year. (With 2 million identified = two species per year).
Under conditions of environmental change or biological stress, species may go extinct faster than new ones evolve. Some scientists estimate that more than 10,000 species are currently going extinct each year—5,000 times the background rate of extinction.
Additional: Scientists estimate that about 99% of the original species on Earth are now extinct.
(Friedland page 5)
Already in notes

12. Biodiversity Hotspots
Chapter 5 – (AP Textbook)
Biodiversity Hotspots
Already in notes
Biodiversity hotspots.  Conservation International has identified 34 biodiversity hotspots that have at least 1,500 endemic plant species and a loss of at least 70 percent of all vegetation.
(Friedland: p.144)