CB6: Plants

Question 1

Why are some leaves darker?

Answer 1

They have more chloroplasts. This is because they aren’t used to recieving as much light.

Question 2

What are the signs that a leaf is recieving less light?

Answer 2

It is larger and darker.

Question 3

What is the name of the chemical that makes leaves green and what can it be found in?

Answer 3

Chlorophyll. In chloroplasts.

Question 4

What is the name of the pigment that makes some plants orange?

Answer 4

Carotenoids

Question 5

Why do plants have different pigments?

Answer 5

To maximise their usage of the solar energy that they recieve

Question 6

Is photosynthesis exothermic or endothermic?

Answer 6

Endothermic. It needs energy.

Question 7

What is the word equation and the balanced symbol equation for photosynthesis?

Answer 7

6CO2 + 6H2O —-(sunlight and chlorophyll)—-> C6H12O6 + 6O2

carbon dioxide + water -> glucose + oxygen

Question 8

How is energy stored in a plant?

Answer 8

starch

Question 9

Why do plants photosynthesise?

Answer 9

to get energy, which is used up in respiration

Question 10

What is Fick’s law?

Answer 10

Rate of diffusion is roughly equal to (surface area * conc diff)/thickness of membrane

Question 11

Why are leaves thin?

Answer 11

So that gases can reach cells easily

Question 12

Why are leaves veiny?

Answer 12

to carry water to the cells and carry glucose away

Question 13

Where are the stomata?

Answer 13

the underside of the leaf

Question 14

What do stomata do?

Answer 14

they move gas in and out

Question 15

How are cacti adapted?

Answer 15

• Some are whiter because they have densely packed spikes. This means that they stay cool to stop their enzymes denaturing.
• Fat cacti lose less water because they have a lower SA to volume ratio
• Leaves evolved into spikes to reduce SA so that they don’t dry out as quickly
• Only the stem contains chlorophyll
• Stem is rounded to reduce SA
• Long roots to reach water deep down
• Stem stores water during droughts

Question 16

How are insect-pollinated flowers adapted?

Answer 16

• Flowers are bright leaves. They attract insects.
• Flowers smell good to attract insects.
• Bees accidentally brush pollen from the anthers to the stigma
• Nectar is made at the bottom of the petals
• The pollen is spiky to stick to insects

Question 17

How are wind-pollinated flowers adapted?

Answer 17

• Anthers hanging out of the flower so they allow the wind to carry the pollen away. It falls onto stigma eventually.
• The pollen is round so it is aerodynamic.

Question 18

Limiting factors of photosynthesis

Answer 18

• Amount of chloroplasts (contain chlorophyll)
• Light intensity
• Moisture in the air
• CO2 concentration
• Temperature

Question 19

How do you test leaves for starch?

Answer 19

Simplified:
1. Boil in water to break down the cell wall
2. Boil in ethanol to remove colour
3. Add iodine which changes colour and tests for starch

More detail:
1. Boil 200ml water over blue flame
2. Add the leaf and leave it for 2 mins
3. Turn off the bunsen burner. Pick up the leaf.
4. Add to a test tube with ethanol to remove the colour
5. Place it back in the water with the bunsen burner off for ~2 mins
6. Take out the leaf and put it on a white tile. Dunk in cold water if it’s brittle.
7. Add iodine. Turns black if starch is present.

Question 20

How do you measure the rate of photosynthesis?

Answer 20

Use an elodea bubbler.

1. Put some pondweed in water and baking soda. It will photosynthesise.
2. Oxygen produced can be collected in a test tube.
3. Rate can be measured by counting the bubbles

THIS IS A BAD EXPERIMENT THOUGH:
- innacurate - a gas syringe could be used to measure more precisely.

Question 21

Translocation

Answer 21

movement of sugars and other chemicals (assimilate) made by plant cells along the phloem.

Question 22

assimilate

Answer 22

a complex solution (eg: sap)

Question 23

main assimilate

Answer 23

sucrose (a type of sugar)

Question 24

xylem

Answer 24

transports water from the root to the leaf

Question 25

phloem

Answer 25

transports sucrose to basically wherever

Question 26

What are sources and sinks?

Answer 26

source: where sucrose is created and released into the phloem
sink: where sucrose is used or removed from the phloem

Question 27

How does sugar get into the phloem?

Answer 27

1. Companion cells use ATP to actively transport hydrogen ions into the surrounding tissue. This creates a diffusion gradient with a high concentration of hydrogen ions outside the companion cells.
2. Hydrogen ions move back into the companion cells using co-transporter proteins and bring sucrose with them. The concentration of sucrose in the companion cells increases.
3. Sucrose moves from the companion cells to the sieve tube elements using the plasmodesmata.

Question 28

transpiration is…

Answer 28

How water passes up the stem

Question 29

What affects the rate of transpiration?

Answer 29

• Temperature
• Size of the leaf (SA)
• Water concentration (humidity)
• Wind speed

Question 30

How do you measure the rate of transpiration?

Answer 30

Using a potometer

Question 31

Nitrate (NO3-) in fertiliser?

Answer 31

used for: making proteins, enzymes, and other essential molecules
deficiency: causes pale leaves because it can’t make chlorophyll
fertiliser: can pollute groundwater

Question 32

Phosphate (PO4-) in fertiliser?

Answer 32

used for: catalyst and energy transfer
deficiency: leaves become purple. leaves become necrotic. needed for healthy growth
fertiliser: can lead to better soil

Question 33

Potassium cations (K+) in fertiliser?

Answer 33

used for: controls water uptake and photosynthesis
deficiency: poor flowering or fruiting. extreme moisture causes level of O2 in the soil to decrease
fertiliser: can increase growth, can cause Mg2+ deficiency

Question 34

Magnesium cations (Mg2+) in fertiliser?

Answer 34

used for: making chlorophyll
deficiency: limited growth, leaves yellowing. lack of energy due to no chlorophyll
fertiliser: can lead to Ca and K deficiencies, essential for growth

Question 35

What is a tropism?

Answer 35

a response developed by plants to make sure they grow towards adequate sources of light and water

Question 36

What are the two kinds of tropisms?

Answer 36

positive tropism: plant grows towards stimulus
negative tropism: plant grows away from stimulus

Question 37

What is phototropism?

Answer 37

growth towards light

Question 38

What are auxins?

Answer 38

a type of plant hormone (eg: IAA)

Question 39

What does an unqeual distribution of auxin cause?

Answer 39

unequal growth

Question 40

What do auxins do?

Answer 40

control the rates of elongation in cells and growth in stems and roots.

Question 41

What does sunlight do to auxins?

Answer 41

Breaks them down

Question 42

What does high concentrations of auxins do?

Answer 42

cells in stems grow more, cells in roots grow less

Question 43

What is gravitropism?

Answer 43

response to gravity

Question 44

What is chemitropism?

Answer 44

response to chemicals

Question 45

What is thigmotropism?

Answer 45

response to touch

Question 46

What is hydrotropism?

Answer 46

response to water