bell ringer for 10/19 1.take a sheet from the front of the room. 2.put it into your binder in the...
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Bell Ringer for 10/191. Take a sheet from the front of the room.2. Put it into your binder in the class
handouts/class work section (look at your table of contents page to see where this is)
3. Work with your partner on filling in the “Survival Relationships” page (Venn Diagram AND ?’s below)
4. Flip to your binder check sheet as I come around.
You have 6 minutes!
Commensalism Parasitism
Mutualism
•1 organism left neutral, 1 benefitted
•1 organism harmed, 1 benefitted
•Both organisms benefit
•Survival relationships
•Between 2 organisms
•Take place over extended time
•ONLY 1
•organism
•benefitted
•ONLY 1
•organism
•benefitted
•Neither organism harmed
Class Announcements
• Article half sheet due tomorrow• Graphing and questions about deer
populations due tomorrow• If either are done early, turn them in to the
folder as you leave the class• Today during tutoring after school is the
last chance you have to make up the exam from last Thurs Rm. 313 after 9th
• Keep sheet in your binder, do not turn in.
Nutrition & Energy Flow
Chapter 2, Section 2:
As with yesterday, this ppt mostly focuses on making connections between the vocabulary terms. Notes are encouraged, but writing down definitions of the terms is not, as you should have them on your index cards.
How are these items related to one another in an ecosystem?
How Organisms Obtain Energy
• The Sun is the ultimate source of energy for life.
Producers
• Photosynthetic Autotrophs– Use light energy to make glucose
Consumers• Heterotrophs
– Herbivores = feed only on plants
– Carnivores = eat other heterotrophs
– Scavengers = eat dead animals
– Omnivores = eat both animal and plant materials
– Decomposers = break down and release nutrient from dead organisms
Flow of Matter and Energy in Ecosystems
• Models to show how energy moves in one direction through an ecosystem– Food Chains– Food Webs– Ecological Pyramids
Food Chain
• Arrows show transfer of energy
Ex: berries mice black bear– A portion of energy is given off as heat at each
transfer– Amount of energy in final transfer is only a fraction
of what was at the first transfer
• Trophic Levels = Each organism represents a feeding step in the movement of energy
Food Web
• Shows all possible feeding relationships at each trophic level in a community
Ecological Pyramids
• Base always represents 1st trophic level
• Higher trophic levels are layered on top of one another
• Pyramid of Energy = Energy decreases with each trophic level moving up– Total energy transfer from one trophic level to
the next is only about 10%
• Pyramid of Biomass = Less living material as you move up trophic levels
Cycles in Nature
• Matter moves through the trophic levels of an ecosystem.
• Energy can be lost through heat; Matter is not gained or lost, it is recycled.
• Ex: Water Cycle, Carbon Cycle, Nitrogen Cycle, Phosphorous Cycle
Water Cycle
• Water present 3 billion years ago is still present today
• It’s been recycled between land, ocean and atmosphere– Evaporation (water gas)– Condensation (clouds)– Precipitation (rain)
The Carbon CyclePutting Carbon in the Ground:• Plants use CO2 to create carbon compounds
(sugar) for growth and energy• Consumers eat plants and/or other animals to
get carbon compounds for growth and energy• Plants and animals die, carbon is returned to the
ground where fossil fuels can form
Putting Carbon in the Atmosphere:• CO2 gets released during cell respiration• CO2 released when burning fossil fuels
The Nitrogen Cycle
• See figure 2.19 on page 56
The Phosphorous Cycle
• See figure 2.20 on page 57
Practice• Why is a pyramid a good shape to
represent how matter and energy transfer in an ecosystem? Why not use a circle or a square?
• According to the Law of Conservation, matter can neither be created nor destroyed. Make a relationship between this statement and the recycling of carbon in an ecosystem. (Hint: All life on this planet is carbon based. What happens to a tree that dies & falls in a forest? Who benefits from the dead tree?)