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Ecosystem Recycling

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Title: Ecosystem Recycling


1
Ecosystem Recycling
  • Chapter 9
  • Section 9.2 and 9.3

2
The Carbon Cycle
  • Carbon is cycled through ecosystems mainly
    through the processes of photosynthesis and cell
    respiration.
  • Photosynthesis converting light energy into
    chemical energy stored in organic compounds
    (carbohydrates)
  • Formula 6 CO2 6 H2O sun
    C6H12O6 6 O2
  • (energy) (glucose)
  • Autotrophs (producers) carry out photosynthesis
    to make food
  • Cellular Respiration- process of cells making
    energy (ATP) by breaking down organic compounds
  • Formula C6H12O6 6 O2 6 CO2 6
    H2O ATP
  • (Glucose) (energy)
  • Heterotrophs (consumers) AND autotrophs
    (producers) use cell respiration to get energy
    from food
  • What do you notice about the equations for these
    two processes???
  • The products of one are the reactants for
    the other

3
Photosynthesis to Respiration
  • Heterotrophs eat other organisms, and autotrophs
    use the process of photosynthesis to create their
    own food.
  • Once heterotrophs eat food, or autotrophs make
    food, cellular respiration takes place to break
    down food molecules and release energy in the
    form of ATP.
  • ATP (adenosine triphosphate) chemical compound
    used by cells to store and release energy
  • Cellular respiration provides the ATP that all
    cells need to support the activities of life.

4
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5
Photosynthesis takes place in the chloroplastThe
Structure of the Chloroplast
  • Double outer membrane
  • Thylakoids- inner
  • membranes arranged as
  • flattened sacs
  • Grana- stacks of thylakoids
  • Stroma- liquid solution
  • surrounding grana

6
Overview of Photosynthesis
  • Photo light Synthesis to make
  • Photosynthesis is a process which makes organic
    compounds (sugars) using sunlight
  • Converts solar energy into chemical energy
    (energy stored in bonds of chemical compounds)
  • There are 2 main steps to photosynthesis
  • Light-Dependent (Light) Reactions
  • Light-Independent (Dark) Reactions
  • Animation

7
Light Reactions
  • Converts solar energy into energy used for the
  • dark reactions.
  • Requires the absorption of sunlight and water.
  • Pigments like chlorophyll aid in the absorption
    of sunlight.
  • Takes place in the thylakoid membranes of the
    chloroplast.
  • Products include ATP and a molecule called NADPH.
  • Serve as an energy source for the next step of
    the process.
  • Oxygen is also produced as a by-product.
  • Much of the oxygen is given off to the
    atmosphere.

8
Light Independent Reactions (calvin cycle)
  • Takes carbon from CO2 and puts it into organic
    compounds (process called carbon fixation).
  • Requires CO2 from the atmosphere and ATP and
    NADPH as energy sources.
  • ATP and NADPH are produced during the light
    reactions.
  • Takes place in the stroma of the chloroplast.
  • Produces glucose and other organic compounds.
  • Broken down and used for energy.
  • Stored for future energy needs.

9
Factors Affecting Photosynthesis
  • Amount of water
  • Shortage of water can slow or even stop
    photosynthesis
  • Plants in dry climates have waxy coating on
    leaves to prevent water loss.
  • Temperature
  • Enzymes of photosynthesis function best around
    35C.
  • Temperatures above and below this range can slow
    photosynthesis.
  • Intensity of Light
  • Increase in light intensity increases rate of
    photosynthesis.
  • At some point, plant reaches its maximum rate and
    cannot go any faster, no matter how much light is
    added.

10
Cellular Respiration C6H12O6 6 O2
6 CO2 6 H2O energy(Glucose)
(ATP)
  • Cell respiration is a process which breaks down
    organic compounds to release energy in the form
    of ATP.
  • Both heterotrophs AND autotrophs perform cell
    respiration.
  • 2 kinds of cell respiration
  • Anaerobic (takes place in absence of oxygen)
  • Aerobic (takes place in the presence of oxygen)

11
Anaerobic Respiration
  • Does NOT use oxygen and takes place in the
    cytosol.
  • NOT efficient - produces only small amounts of
    ATP.
  • Used by prokaryotes or simple eukaryotes
  • Used by complex eukaryotes only as a backup to
    aerobic respiration.
  • 2 different kinds of anaerobic respiration
  • Lactic Acid Fermentation
  • Alcoholic Fermentation
  • Both produce by-products that are used by humans.

12
Anaerobic Respiration (cont d.)
  • Lactic Acid Fermentation
  • Performed by bacteria.
  • Produces lactic acid as a by-product.
  • Lactic acid makes yogurt and cheese
  • Lactic acid is made in your muscles during
    strenuous exercise and can cause soreness and
    cramps.
  • Alcoholic Fermentation
  • Performed by yeast.
  • Produces ethyl alcohol and CO2 as by-products.
  • Bread CO2 bubbles push the dough up and make it
    rise.
  • Makes wine and beer - Yeast breaks down the
    sugars in grains or grapes producing CO2 and
    alcohol.
  • Used to be used to make other carbonated
    beverages like root beer.

13
Aerobic Respiration takes place in the
mitochondria of BOTH plants animals
  • picture
  • Double membrane (just like chloroplast)
  • Matrix inner space
  • Cristae folded inner membranes
  • Why would you expect to have an abundance of
    mitochondria in your muscle cells?

14
Aerobic Respiration
  • Occurs in the presence of oxygen and takes place
    in the mitochondria.
  • Much more efficient process than anaerobic
    respiration.
  • Produces about 19 times more ATP than anaerobic
    respiration.
  • Used by complex eukaryotes with large energy
    requirements.
  • Carbon dioxide and water created as by-products.
  • 2 main parts to aerobic respiration
  • Krebs Cycle happens in matrix of mitochondria
  • Takes the sugar and starts to break it down for
    the ETC
  • Electron Transport Chain (ETC) happens in
    cristae of mitochondria
  • Where most ATP is produced

15
Lets wrap it up...
  • Photosynthesis converts solar energy into
    chemical energy (autotrophs).
  • Respiration makes ATP by breaking down organic
    compounds (either consumed or made depending on
    whether organism is an autotroph or heterotroph).
  • Products of photosynthesis are the reactants of
    cell respiration and vice versa.
  • Do all organisms carry out photosynthesis?
  • Do all organisms carry out some sort of cellular
    respiration?
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