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 Did you know…  Chameleons often have tongues longer than their bodies.  A worm is both male and female at the same time (a hermaphrodite.)

Published byMercy Potter Modified over 9 years ago

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Presentation on theme: " Did you know…  Chameleons often have tongues longer than their bodies.  A worm is both male and female at the same time (a hermaphrodite.)"— Presentation transcript:

1  Did you know…  Chameleons often have tongues longer than their bodies.  A worm is both male and female at the same time (a hermaphrodite.)

2 “Why do leaves change color in the fall?” Article 1. What are annuals? 2. What are perennials? 3. What is the difference btwn deciduous trees & evergreen trees? Give 1 example of each. 4. How do plants function during the summer? 5. What is the abscission layer of a leaf? 6. How does the abscission layer change in Fall? 7. List 4 types of pigments & tell which color we see them as. 8. What causes leaves to change color in the fall?

3 1. Annuals complete their life cycle in 1 growing season. They “die” during winter, but seeds last through the cold & sprout in the spring. 2. Perennials have life cycles of more than 2 yrs. During winter, herbaceous parts (leaves/stems) above ground die, but stored food (wood/roots/bulbs) remains alive. 3. Deciduous trees (elms, oaks, & maples) shed their leaves in fall. Evergreen/coniferous trees (holly, pines, & firs) keep their waxy needles/leaves through winter.

4 4. During summer, leaves over-produce glucose & store to prepare for winter. 5. Abscission layer of leaf: separation layer at base of each leaf. Contains small tubes carrying water to leaf & food from leaf to other plant parts. 6. In fall, abscission layer swells & turns into cork substance that blocks small carrier tubes.

5 7. Carotene pigment appears orange. Xanthophyll pigment appears yellow. Anthocyanin pigment appears red & purple. Chlorophyll pigment appears green. 8. When abscission layer swells, glucose/waste become trapped in leaf. No new water can reach leaf, causing chlorophyll to disappear. As chlorophyll disappears, other pigments already present in leaf become visible.

6  To make glucose from light ◦ “photo-”: light + “synthesis”: to make  Chem equation: 6CO 2 + 6H 2 O –light  C 6 H 12 O 6 + 6O 2 carbon dioxide+water —light  glucose+oxygen (reactants) --reaction  (products)

7  Belgian physician (1643)  Test: do plants grow by absorbing soil?  Results: ◦ Soil mass didn’t change ◦ Less water mass  Conclusion: plants gain mass from water

8 http://www.youtube.com/watch?v=pdgkuT1 2e14  English minister (1771)  Test: how plants’ byproducts affect other objects (candle)  Results: ◦ Candle by itself = burned out ◦ Candle + mint leaf = didn’t burn out  Conclusion: plants release invisible product called oxygen (O 2 )

9  Dutch scientist (1779)  Tested: how plants’ byproduct changes when in light & dark  Results: candle stayed lit only when plant in sunlight  Conclusion: light is necessary for oxygen to be produced

10  Energy from sun  “White” light: mixture of ALL light wavelengths/colors

11  Absorb certain light wavelengths/energy  Reflect other wavelengths/energy

12  Pigments in chloroplasts  Chlorophyll a & b absorb blue-violet & red wavelengths  Green light is not absorbed  Green light is reflected = plants look green

13  http://www.youtube.com/watch?v=C1_uez5 WX1o http://www.youtube.com/watch?v=C1_uez5 WX1o

14 1. Photosystems: pigments absorb light energy 2. Thylakoids: flattened sacs filled w/ photosystems ◦ Light-DEPENDENT rxns 1 2

15 3. Granum: stack of thylakoids 4. Stroma: clear gel filling chloroplast ◦ Light-INDEPENDENT rxns 5. Bilayer: double-layered membrane 3 4 5: Inner 5: Outer

16 1. Light-Dependent Rxn: ◦ Requires light ◦ Requires energy carriers (ATP & NADPH)  Sun’s energy excites/heats e -  Electron carriers/“oven mitts” transport excited/“hot” e - ◦ Occurs in photosystems/thylakoids ◦ Overall reactants: light/energy, H 2 O, ADP ◦ Overall products: O 2, ATP

17 2. Light-Independent Rxn: ◦ aka Calvin Cycle or “Dark” Rxn ◦ Does NOT require light (light-independent) ◦ Uses ATP (short-term energy) from light- dependent rxns to produce sugars (long- term energy) ◦ Occurs in stroma ◦ Overall reactants: CO 2, ATP ◦ Overall products: energy molecules (glucose sugar), ADP

18 1. Water ◦ More water = more PS 2. Temp ◦ Enzymes work best btwn 0-35°C 3. Intensity & wavelength of light: ◦ More intensity = more PS ◦ Red & blue = more PS  PS incr until max rate is reached

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