1. Chapter 3 The Biosphere Levels Within Levels
Interest Grabber
Section 3-1
Chapter 3 The Biosphere Levels Within Levels
On a sheet of paper, list all of the types of organisms that you have seen in the past week. (plants, humans, insects, etc.) Make some sort of diagram that shows how the organisms on your list interact with one another.
•Do some of the organisms provide energy or nutrients to others?
• What would happen if all of the plants on your diagram died?

2. 3-1 What is Ecology?
Ecology – the scientific study of interactions among organisms and their surroundings.
Ecologists – scientists who study the environment
Biosphere – the combined portions of the planet in which all of life exists, including land (lithosphere), water (hydrosphere), and air (atmosphere).

3. Levels of Organization (From least inclusive to most inclusive)
1) Species – the individual organism.
2) Populations – a group of organisms of one species that interbreed and live in the same place at the same time.
3) Communities – a collection of interacting populations.
4) Ecosystems – made up of the interactions among the populations in a community. This could include their habitat (the place where an organism lives out its life) or its niche (the role and position a species has in its environment)
5) Biome – a group of ecosystems that have the same climate and similar dominant communities.

4. Figure 3-2 Ecological Levels of Organization
Section 3-1

5. Interest Grabber
Section 3-2
Energy Flow
Energy flows in one direction through an ecosystem, from the sun or inorganic compounds to producers (organisms that can make their own food) through various levels to consumers (organisms that rely on other organisms for food). Your body gets the energy and materials it needs for growth and repair from the foods you eat.

6. 3-2 Energy Flow
Food Chains – a diagram that show the flow of energy from green plants to consumer organisms
Grass  rabbit  hawk
Food Webs – a diagram that shows the many possible food chains that exist in an ecosystem.
Trophic Levels
The first step in any food chain is always the producer. The second step is always the herbivore. Since the herbivore is the first consumer, it is sometimes referred to as the first order or (primary) consumer. The second consumer is the second order (secondary) consumer. Next is the third order (tertiary) and fourth (quaternary) consumer. Decomposers may be at any step except the first.

7. Trophic Levels AHSGE!!!
Fourth order consumers (Quaternary) Heterotrophs
Third order consumers (Tertiary) Heterotrophs
Second order consumers (Secondary) Heterotrophs
First order consumers (Primary) Heterotrophs
Producers Autotrophs Available Energy Decreases
Heterotrophs- rely on other organisms for their food; Herbivores, Carnivores, Omnivores, Detritivores (feed on dead matter)e.g. mites, earthworms, snails. Decomposers (break down organic matter) e.g. bacteria and fungi.
Autotrophs- plants, some algae, and certain bacteria capture energy from the sun and use that energy to make their own food. Autotrophs make food automatically!
Fact: Sunlight is the main energy source for life on earth.

8. Interest Grabber continued
Section 3-2
1. Make a list of five foods that you like to eat. Indicate whether the food comes from a plant (producer) or an animal (consumer).
2. Like many birds, chickens eat grains, which are seeds. Where do seeds come from?
3. Meat comes from beef cattle. What do cattle eat?

9. Food Chain vs. Food Web AHSGE!!!
A food web contains many overlapping food chains so it is much more complex than a single food chain.

10. Figure 3-8 A Food Web
Section 3-2

11. Ecological Pyramids Section 3-2 Energy Pyramid
Shows the relative amount of
energy available at each trophic
level. Organisms use about 10
percent of this
energy for
life processes.
The rest is lost
as heat.
Pyramid of Numbers
Shows the relative
number of individual
organisms at each
trophic level.
Biomass Pyramid
Represents the amount of
living organic matter at each
trophic level. Typically, the
greatest biomass is at the
base of the pyramid.

12. It’s Raining, It’s Pouring
Interest Grabber
Section 3-3
It’s Raining, It’s Pouring
How many times have you had to change your plans because of rain? It probably didn’t help if someone tried to cheer you up by saying, “But we really need the rain.”
However, rain is important. If it didn’t rain, how would living things on land get water?

13. Interest Grabber continued
Section 3-3
1. When rain falls on the ground, it either soaks into the soil or runs across the surface of the soil. When rainwater runs across the land, what body of water might collect the rain?
2. From here, where might the water flow?
3. After the rain, the sun comes out and the land dries. Where does the water that had been on the land go?

14. Matter is constantly recycled within and between ecosystems.
3-3 Cycles of Matter
Biogeochemical Cycles – the flow of chemicals between the environment and the organisms
Matter is constantly recycled within and between ecosystems.

15. THE WATER CYCLE
Heat evaporates water from oceans, lakes, and streams. Water is then carried into the atmosphere where it condenses and returns to the Earth in the form of precipitation. Plants release water from their leaves through transpiration. This is a continuous cycle.

16. The Water Cycle Section 3-3 Condensation Precipitation Evaporation
Transpiration
Evaporation
Runoff
Seepage
Root
Uptake

17. THE CARBON CYCLE
The Carbon Cycle is driven by photosynthesis and respiration. In photosynthesis plants take in carbon dioxide and water to produce glucose and oxygen. The plant’s role is to produce an organic carbon compound called glucose. During respiration, organisms use oxygen and glucose to produce carbon dioxide and water. Carbon dioxide is released into the atmosphere by respiration as well as many other activities. This is a continuous cycle that occurs between plants and animals.

18. Figure 3-13 The Carbon Cycle
Section 3-3
CO2 in
Atmosphere
CO2 in Ocean

19. THE NITROGEN CYCLE
Over 78% of the air is nitrogen gas, but in this form it is useless to organisms. Most living organisms use nitrogen only in the form of nitrates and ammonia. The conversion of nitrogen gas to ammonia is called nitrogen fixation. This process is carried out by bacteria located in the roots of legumes (peas and beans). Other bacteria convert ammonia into nitrates and nitrites. Plants then take in the nitrates. Animals eat the plants, and we obtain nitrogen. Other bacteria in the soil convert nitrates back into nitrogen. This process is called denitrification. Then the nitrogen gas is returned to the atmosphere for the cycle to begin again.

20. Figure 3-14 The Nitrogen Cycle
Section 3-3
N2 in Atmosphere
NO3-
and NO2-
NH3

21. THE PHOSPHORUS CYCLE
All organisms require phosphorus. Plants obtain phosphorus from the soil, and animals obtain phosphorus from plants. When animals and plants die, they return phosphorus to the soil.

22. Click the image to play the video segment.
Cycles in Nature
Click the image to play the video segment.
Video

23. Go Online The latest discoveries in preserving the environment
Links from the authors on exploring ecology from space
Interactive test
For links on energy pyramids, go to and enter the Web Code as follows: cbn-2032.
For links on cycles of matter, go to and enter the Web Code as follows: cbn-2033.
Internet

24. Interest Grabber Answers
1. What living things are found in and around your school?
Living things in the school are students, teachers, principal, assistant principals, clerical staff, custodians, lunchroom staff. Students may also include animals in science labs. Living things around the school include grass, trees, shrubs, insects, birds, and so on.
2. What nonliving things are found in your school?
The building, furniture, desks, books, papers, and so on
3. Into what large groups are the students in your school divided?
9th, 10th, 11th, 12th grades, or years
4. Into what smaller groups are these large groups divided?
Classes
5. Are these groups ever divided into even smaller groups? If so, what are these groups?
Students may say that science classes are divided into lab groups; other classes may be divided into groups for projects.
Section 1 Answers

25. Interest Grabber Answers
1. Make a list of five foods that you like to eat. Indicate whether the food comes from a plant (producer) or an animal (consumer).
Student lists will be individualized. One possible example would be a hamburger, which comes from a cow or steer.
2. Like many birds, chickens eat grains, which are seeds. Where do seeds come from?
Seeds come from plants.
3. Meat comes from beef cattle. What do cattle eat?
Cattle eat grass or grains.
4. Construct a diagram showing how one of your favorite foods obtains its energy. Include as many levels as you can.
Student diagrams will be individualized based on their food choice. Using the hamburger example, the beef in the hamburger comes from cattle. The cattle feed on grass or grain. Grass or grains are plants, which use energy from the sun to make their own food.
Section 2 Answers

26. Interest Grabber Answers
1. When rain falls on the ground, it either soaks into the soil or runs across the surface of the soil. When rainwater runs across the land, what body of water might collect the rain?
Possible answers: a stream, river, pond, or lake
2. From here, where might the water flow?
Into a river, and eventually into the ocean
3. After the rain, the sun comes out and the land dries. Where does the water that had been on the land go?
It evaporates and becomes a gas in the atmosphere.
4. Construct a diagram that would illustrate all the places a molecule of water might go. Begin with a raindrop and end with a cloud.
Student diagrams may include the following: a raindrop —> lawn —> a stream —> river —> large lake —> atmosphere —> cloud.
Section 3 Answers

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