Biology Chapter 7
Where does photosynthesis occur?
Chloroplast
Is a light absorbing pigment in the chloroplasts that plays a central role in converting solar energy to chemical energy. -The reason why plants are green
Chlorphyll
In what organelle of a plant cell does photosynthesis take place?
Chlorplast
-Photosynthesis occurs here. A leaf's green color comes from chlorophyll, a light absorbing pigment in the ______ that plays a central role in converting solar energy to chemical energy. -are concentrated in the cells of mesophyll, the green tissue in the interior of the leaf. -______ are surrounded by a double membrane and contain stacks of thylakoids and a thick fluid called stroma.
Chlorplasts
A plants leaves are the primary site of photosynthesis. They contain pigments that absorb different colors of lights. Mostly red and blue but not green A plants leaves would be expected to have large amounts of what?
Chlorplasts
_________ is a long term change of the global climate for long periods of time.
Climate Change
A plant uses the products of the Calvin cycle for which of the following? A. To make starch B. To make cellulose C. To make molecules used in protein synthesis D. All of the above
D. All of the above
How does the photosynthesis reaction compare to the overall reaction for cellular respiration?
It is the reverse reaction. In cellular respiration, sugar is broken down in the presence of O2.
What is the chemical equation for photosynthesis?
Light Energy + 6CO2 + 6H2O --> C6H12O6 + 6O2
True or false: More than half of the world's plant and animal species live in the tropical rain forests.
True
Certain _____ of visible light are absorbed by chlorophyll and other pigments
Wavelengths
Sugarcane and corn
examples of C4 plants
Stacks of thylakoids are called
grana
-The planet is warmed by solar radiation passing through the atmosphere and warming the earth's surface. -Heat radiating back from the warmed plant absorbed by _____ gases such as CO2, water vapor, and methane and then reflecting that heat back to earth.
greenhouse effect
Explain how the electron transport chain and H+gradient generate ATP, NADPH, and oxygen in the light reactions.
-Electrons move down the electron transport chain to provide energy for ATP production. The electrons are pulled through the chain with oxygen.electron goes through the transport chain and reduces NADP+ to NADPH. O2 is a product of H2O getting split.
How do plants produce oxygen?
-Photosynthesis produces oxygen. It is in the presence of light, green plants convert CO2 and H2O into sugar and oxygen.
Steps of the Calvin cycle
1. Carbon fixation 2. reduction 3. release of one molecule of G3P 4. Regeneration of RuBP
A cluster of several membrane proteins that function in chemiosmosis with adjacent electron transport chains, using the energy of a hydrogen ion concentration gradient to make ATP.
ATP Synthase
What are the products of the light reactions?
ATP and NADPH (electron carrier)
Products of light reactions
ATP, NADPH, and O2
What do the 2 photosystems work together to harvest like to generate what?
ATP,NADPH, and releases O2
An organism that makes its own food (often by photosynthesis) thereby sustaining itself without eating other organisms or their molecules. Plants, algae, and numerous bacteria are autotrophs.
Autotrophs
What links photosystem I with photosystem II? A. The products of the dark reactions B. An electron transport chain C. The creation of oxygen gas D. The fixation of CO2
B. An electron transport chain
Which of the following substances provides the majority of the atoms that make up the sugar produced by photosynthesis? A.Water B.Carbon Dioxide C.Oxygen D.Hydrogen
B.Carbon Dioxide
The Calvin cycle is cyclic because? A. CO2 is constantly acquired during carbon fixation B. It constantly makes G3P C. RuBP is regenerated in the final chemical reactions D. NADPH and ATP are used from the light reactions
C. RuBP is regenerated in the final chemical reactions
A toxin is found to inhibit the uptake of CO2 into plant leaves. This toxin would most directly affect the ____________ ____________. A.Light reactions B.Splitting of H2O C.Calvin cycle D.Absorption of solar energy
C.Calvin cycle
They are the normal plants. They are named like this because the 1st product of carbon fixation in the calvin cycle is a 3-carbon molecule. Widely distributed in the world. Include agricultural plants. Undergo photorespiration in hot, dry environments.
C3 plants
Have adaptations that minimize photorespiration so that these plants can live in hot, dry areas. Names such because the 1st product of Carbon fixation in the Calvin Cycle is a 4 carbon molecule. These plants avoid photorespiration.
C4 plants
Have adapted to very dry or arid climates. These plants have adapted to only open their stomata at night to take in and store CO2 as malic acid. This stored carbon is then used during the day when light is available for photosynthesis to occur. Stomata is closed during the day to prevent drying out
CAM Plants
Reactants of Calvin cycle
CO2, ATP, NADPH
Soybeans, wheat, and rice
Examples of C3 plants
Includes pineapples, many cacti and other succulent (H2O storing plants)
Examples of CAM plants
True of false: During photosynthesis, CO2 is split to release oxygen gas.
False, O2 us created as a result off splitting H2O
True or false: A photoautotroph is a type of heterotroph that uses solar energy to produce sugars.
False, a photoautotroph is not a heterotroph. It would be an autotroph.
-1st vital necessity photosynthesis provides us for life -The producers who under go photosynthesis are ___ sources for consumers.
Food
Is the product of the Calvin cycle. This molecule is used to make glucose and any other sugars the cell needs.
G3P
Products of Calvin Cycle
G3P
What are the products of the Calvin cycle?
G3P (a 3 carbon molecule that is the building block of glucose and other sugars the cell needs)
An organism that obtains organic food molecules by eating other organisms or substances derived from them; a consumer or a decomposer in a food chain.
Heterotrophs
-2nd vital necessity photosynthesis provides us for life -Organisms require this to survive
Oxygen
An international agreement reached at the __________ seeks to reduce greenhouse gas emissions and limit global warming.
Paris climate conference of 2015
An organism that obtains energy from sunlight and carbon from organic sources.
Photoautrophs
In a plant cell, a metabolic pathway that consumes oxygen, releases CO2 and decreases photosynthetic output. ________ generally occurs on hot, dry days, when stomata close, O2 accumulates in the leaf, and rubisco fixes O2 torespiration produces no sugar molecules or ATP rather than CO2 .
Photorespiration
_______ is the process by which a plants adds O2 to RuBP instead of CO2
Photorespiration
-Thylakoid membranes contain proteins called _________. -They are proteins with chlorophyll in them. -They capture the solar energy of light.
Photosystems
General flow in light reactions
Photosystems II, Electron Transport Chain, Photosystems I
An organism that makes organic food molecules from CO2, H2O, and other inorganic raw materials: a plant, algae, or autotrophic prokaryote.
Producer
it's a 5 carbon compound involved in the Calvin cycle, which is part of the light independent reactions of photosynthesis.
RuBP
The enzyme that attaches CO2 to RuBP
Rubisco
Liquid around the thylakoids
Stroma
A new bacterium is discovered in Lake Superior. Scientists are able to determine that these bacteria produce oxygen gas. What is likely to be true about these organisms?
The bacteria are likely photoautotroph and perform photosynthesis. (Because of the O2 produced)
Where does the energy for photosynthesis come from?
The sun/sunlight
A common misconception is that the greenhouse effect is bad. Briefly explain why this is not necessarily true.
Without the greenhouse effect, the earth would be significantly cooler and not as hospitable to life as we know it.
equation of photosynthesis
light energy + 6CO2 + 6H2O ------> C6H12O6 + 6O2
location of calvin cycle
stroma of the chloroplasts
location of light reactions
thylakoid membrane
where light reactions occur
thylakoid membrane
Reactants of light reactions
water and light
