UNIT 1. Understanding Our Environment Chapters 1,2,3,7 &8

APES Midterm REVIEW

Content Chatpters 1-10,12, 13, 17 &20

UNIT 1. Understanding Our Environment Chapters 1,2,3,7 &8

1. Chapter 1- Core Case study, exponential growth, China’s consumers, Chattanooga Tenn,Aldo Leopold
   

Environmental History of the World
Introduction to Environmental Problems
*Population Explosion
*Deforestation
*Pollution
*Global Warming
Environmental Decisions
*Environmental Ethics and Philosophy
*Aesthetics vs. Economics
*Cultural Influences and Considerations
**Story of Easter Island
Key Vocabulary
Aesthetics
Antropocentric
Anthropogenic
Appropriate technology
Conservation
Hypothesis
Intrinsic (Inherent) value
Paradigm
Preservation
NIMBY (not in my backyard)
Scientific Method

Essential Questions
What are the main problems facing our environment today?
What are some of the hot local environmental issues today?
What are some of the current national/international environmental issues?
How have anthropogenic actions affected our ecosystems in America?

Tragedy of the commons
Environmental news article summaries

Food Chains
Resources
Home the movie

Hippocampus.org

Habitable Planet online Textbook

Miller Textbook and APES Resource Review

B. Matter, Energy and Life- Ecosystems & How they work

Chapter 1 - 3- know how to carry out a controlled experiment, Easter Island, Hubbard Brook Experimental Forest, Tropical Rainforest and Sustainablility

Energy Flow
*First/Second Law of Thermodynamics
*Photosynthesis
*Trophic Levels
**Food Chain
**Food Web
Nutrient Cycles
*Carbon Cycle
*Nitrogen Cycle
*Phosphorus Cycle

Essential Questions
What physical laws govern ecosystem dynamics?
How do you make a food chain and food web for organisms in the regional ecosystems in our area?
What are the steps to the carbon, nitrogen and phosphorus cycles?

Key Vocabulary
Abiotic
Ammonification
Assimilation
Autotroph
Balanced herbivory
Biomass
Biotic
Carnivore
Conservation of Matter

Know BIOGEOCHEMICAL CYCLES

Pages 66-72
Consumers
Decomposers
Detritus
First& Second law of thermodynamics
Food chain
Food web
Gaia
Herbivore
Heterotroph
Kinetic energy
Legumes
Methane
Microbe
Nitrification
Nitrogen fixation
Nutrient cycle
Omnivore
Organic phosphate
Phosphate
Potential Energy
Primary consumer
Secondary consumer
Trophic level

Range of tolerance

Aerobic, anaerobic

GPP gross primary productivity

NPP, net primary productivity

Limiting factor

B. BIOMES- Climate,Terrestrial & Aquatic Biodiveristy

Chapter 7 & 8 case studies Blowing in the wind & coral reef sustainablity

Ecological and Terrestrial Biomes
weather & climate

Watershed

*Deserts
*Grasslands
*Temperate Deciduous Forest
*Tropical Rain Forest
*Taiga
*Tundra
Aquatic Ecosystems
*Lakes and Ponds
*Streams and Rivers

Surface runoff,

Oligotrophic

Eutrophic, hypertrophic

Mesotrophic

Cultural eutrophication
*Inland Wetlands
Marine Ecosystems (know images)
*Coastal
*Estuaries
*Open Ocean
greenhouse effect

Permafrost

rainshadow

Essential Questions
What are the characteristics of the major biomes of the Earth?

What are two major factors that influence type of vegetation?

Does diversity increase or decrease as you move from the equator?
What are the ways to protect, repair and manage ecological hot spots?

Key Vocabulary

Benthic plant
Biome
Ecosystem
Epiphytes
Estuary
Habitat
Permafrost
Quadrant Sampling method
Mitigate
Remediation
Restoration Ecology
Savanna
Taiga

Unit 2. Biodiversity, Evolution, Species Interactions
A. Chapter 4 & 5- American Alligator, Why Protect Sharks, Sea Otter,

Evolution, speciation
*Tolerance Limits and Species Abundance
*Natural Selection and Adaptations
*Niche Specialization
Species Interactions
*Predation
*Keystone Species
*Competition
*Symbiosis
**Mutualism
**Commensalism
**Parasitism
*Defensive Mechanisms

Population dynamics pg 109 image

Carrying capacity,

Limiting factor

Biotic potential

Intrinsic potential

Boom and bust cycles. 113
Ecological Succession
*Primary Succession
*Secondary Succession
*Aquatic Succession

Geologic Time Scale
Plate Tectonics Pg 345-349

Ppt History of the world
*Volcanism
*Earthquakes

Erosion
Plate tectonics
Subduction
Tectonic plates
Weathering

Succession of the North Woods

Glaciation

Essential Questions
What causes changes in ecosystems?
What are the various stages of ecological succession in our area?
What are the main types of species interactions?
What is the relationship between physiological adaptations and evolutionary success?
What limits species abundance?

KNOW the case studies of the hare & lynx, Exploding white-tailed deer (114)

Skills
Constructing and analyzing graphs.
Be able to utilize the transect sampling method.
Identify the ecological succession occurring in fields and woods.
Be able to set up an experimental ecosystem and understand what abiotic or biotic conditions affect organisms. EcoColumn

Quadrat sampling
Calculate a diversity index (Coral Reef lab)

Key Vocabulary

Abundance
Adaptation
Climax community
Commensalism
Competitive exclusion principle
Diversity
Control
Ecological succession
Evolution
Gross Primary Production
Habitat
Keystone species
Law of limiting factors
Limiting factor
Mutualism
Natural selection
Niche
Net primary production
Optimal Range
Plant community
Predator-prey relationship
Producers
Primary productivity
Primary succession
Range of Tolerance
Resilience
Resource partitioning
Secondary succession
Tolerance limits
Transect sampling method
Variable

Statistics and Hypothesis Testing
Modeling with M&M's

B. Biodiversity, and Nature Preservation-Sustaining biodiversity

Chapters 9& 10 case studies Chapter 9 Know each and every one

Polar bear, bees, kudzu vine, california condor....EXP pg 202 DDT

Ch10 case of reintroducing gray wolf into yellowstone

Genetic Diversity
*Hot Spots of the World
*Endangered and Extinct Species
Loss of Biodiversity
*Habitat Destruction
*Habitat Fragmentation
*Exotic Species
*Successful Comebacks
*Wetlands
**Development Pressures
**Flood Control
Biotic potential
Carrying capacity
Density-dependent factor
Density-independent factor
Exponential increase
Environmental resistance
K strategist
Population
Population density
R strategist

Key Vocabulary

HIPPCO

Biodiversity
Clearcutting
Common pool resources
Corridors
Deforestation
Ecotourism
Endangered species
Exotic species
mass & background Extinction
Fragmentation
Island Biogeography
Overgrazing
Threatened species
Wetlands

Intrinsic value

Ch10

Old growth forest

Tree plantation

Deforestation

Fires

Rangelands

Over grazing

Biological hotspot, reconciliation ecology

Essential Questions
How do the mass extinctions in the pass differ from the rate of biodiversity loss experienced today?
What are the major challenges to preserving the biodiversity on the planet?
How has land use changed throughout human history?
What are some threats to our national parks?
What are some of the negative results of deforestation?
Why are wetlands so valuable as a resource?

UNIT 3. Water Resources and Pollution- October

1. Chapters 8,13 & 20Chapter 8 was learning all about watershed, and water resources

Chapter 13 Water Use and Conflicts

Content Water loss drop by drop

Water Resources
*Water Cycle
*Water Storage
Water Availability and Use
*Fresh Water Quantities
*Distribution of Water Resources
*Utilization Patterns
Water Shortages
*Groundwater Depletion
*River Water Legal Battles
Methods of Increasing/Preserving Water Supply
*Desalination
*Recycling
*Conservation

Key Vocabulary

Aquifer
Cone of depression
Desalinization
Gray water
Groundwater remediation
Hard water
Nonconsumptive water use
Potable water

Ground water

Zone of saturation

Runoff, surface water

Drought

Dams & reservoirs

Flood plain
Seep
Soft water
Storm water
Surface water
Turbidity
Water table
Watershed

Chapter 20 Water Pollution-

B. Case study, lake Washington and treating sewage by working with nature.

Types and Effects of Water Pollution
*Inorganic Chemical
*Agricultural Waste and Human Sewage
**Cultural Eutrophication
**Red Tide
**Pathogenic Organisms and Human Health
*Oil Spills
*Thermal
Monitoring Water Quality
*Chemical Tests
*Aquatic Species Monitoring
Water Pollution Control
*Sewage Treatment
*Water Remediation
*Water Legislation

Essential Questions
What are the ways that water pollution affects organisms?
What is the relationship between BOD and DO?
How do the EPA water quality standards compare with water quality of New Paltz streams?
What are the ways we can reduce water pollution?
What is the flow chart and operations of a sewage treatment plant?
What is the comparison of nitrogen, phosphorus, dissolved suspended solids, BOD and toxic substances before and after sewage treatment?

Key Vocabulary

Activated sludge
Algae
Algae bloom
Biological nutrient removal
Biosolids
BOD (Biological Oxygen Demand)
Chlorination
Coliform bacteria
Cooling tower
Cultural eutrophication
DO (Dissolved oxygen)
Eutrophic
Eutrophication
Fecal coliform test
Grit chamber
Heavy metal
Hypoxia
Indicator organisms
Indicator species
Natural biological control
Non-point source
Oligotrophic
PCB (polycholorinated biphenyls)
Point source
Primary treatment
Saltwater intrusion
Secondary treatment
Septic System
Thermal pollution
Treated sludge
Trickling filter system

Labs
Water Quality Testing for Monitoring Stream Health- Field Site Studies( Ecocolumn)
Biotic- aquatic larvae
Abiotic- Dissolved Oxygen, pH, Nitrates, Alkalinity, hardness, CO2 Thermal Pollution on Yeast populations
Water loss Drop by Drop
Why is the Water Green- experimental eutrophication
Field Trip Sewage Treatment plant
BOD and Wastewater Treatment Lab
The effects of Biodegradable Waste on DO

UNIT 4. Human Population Food, Agriculture and Pest Management

Chapters 6, 12, 17

How do humans as a species follow the same patterns as animal species above?

Global population: 6.5 billion, increasing by 78 million per year, 2.5 per second

Total Fertility Rate (TFR), know approximate rates for developing and developed countries, as well as replacement rate.

Why is population a problem even though the growth rate has decreased since 1960?

Doubling rule: 70 divided by % growth rate = # of years it will take to double the population

IPAT(S) model: we talked about this at the beginning of the semester, review it!

Demographic transition model: be able to explain the diagram. Why might some developing countries today not complete it? (Hint: this might be a good essay question!)

Role of HIV/AIDS on populations.

Methods of population control: Contrast methods of China and Bangladesh

Role of economic empowerment and education in population growth rates

Vocabulary

age structure
birth rate, or crude birth rate
cultural carrying capacity
death rate, or crude death rate
demographic transition
family planning
fertility rate
infant mortality rate
life expectancy
migration
population change
replacement-level fertility rate
total fertility rate (TFR)

Summary

1.Birth, death, fertility, and migration rates are the factors that determine population size. As birth rates have declined in developed countries, population has increased due to people’s migrating into these countries. Women’s fertility rates have dropped but are still above the replacement-level fertility around the world.

2.Population size is profoundly affected by age structure. If women are past their primary child-bearing ages, population increase will be limited. If, however, the population has a large percentage of young women entering their childbearing years, the potential for large population increases is present. In general, the closer a country’s young women are to 15–40 years of age, the more potential for a rapidly increasing population.

3.We can influence population size by encouraging smaller families, by encouraging adoption of children already born and discouraging new births. Population size is, also, affected by health care or its lack; by epidemics (such as AIDS); by losses through war, etc. Lack of prenatal care for expectant mothers, failure to protect children from communicable diseases (like measles) or wide-spread diseases (like malaria), can contribute to a smaller population. In the past economic development, family planning, and economic opportunities for women have reduced birth rates.

4.India and China have both made efforts to control their population growth. China has been more successful because, as a dictatorship, it has imposed restrictions on family size with rewards and punishments for those who support or defy the government’s direction. India, without a policy of coercion, has reduced its birth rate; but the wish for male children and several children for the care of old parents has helped to maintain a growing population.

5.Effective methods for slowing the growth of world population include investing in family planning, reducing poverty, and elevating the status of women.

Study Chapter 6,12,17

CH 6 Know how to do population problems, percent change, show increase or decrease.

Be able to discuss population growth in first and 3rd world countries

What are several reasons why CBR might drop in a country

Look at graphs and explain trends

Understand how to read Population profiles

Ch 17 List and describe 3 biological, physical and chemical hazards

Discuss case for each, source of problem, problem itself and solutions

Be able to answer questions on LD 50 lab, Note table on page 456

Read cases on page 443(antibiotics), 450 (mercury),Bisphenol A, Image page458, case page 467 Data Analysis- assigned for HW

CH12. Discuss benefits and problems with industrial agriculture, CFO's, GMO's

Consider soils, fertilizer, energy, health, pollution, biodiversity, water shortage

Know what 3 grains supply world food,

Discuss alternatives to Industrial agriculture and plantation farming

Know how to make a graph using uniform data points

Time on the x axis and equal increments on the Y axis

Label the axis and

Then analyze the results.