Photosynthesis and Plant Reproduction

Question 1

What is sexual reproduction?

Answer 1

• Requires 2 parents

- Offspring is genetically different to parents

Question 2

What are the advantages to sexual reproduction?

Answer 2

• Variation in population
• Species can adapt to new environments
• Less likely to be affected by disease

Question 3

What are the disadvantages of sexual reproduction?

Answer 3

• Takes a lot of time and energy to find a mate

- Impossible for isolated individuals

Question 4

What is asexual reproduction?

Answer 4

• One parent is needed

- Offspring is identical to parent (and clones)

Question 5

What are the advantages of asexual reproduction?

Answer 5

• Population can increase rapidly

- Can exploit a suitable habitat quickly

Question 6

What are the disadvantages of asexual reproduction?

Answer 6

• No variation in population
• Species only suited to 1 habitat
• Disease may affect all individuals in a population

Question 7

Function the the petals:

Answer 7

Brightly coloured to attract insects

Question 8

Function of the anther:

Answer 8

Produces male gametes (pollen grains)

Question 9

Function of the stigma:

Answer 9

Top of the female part of the flower which collects pollen grains (sticky)

Question 10

Function of the ovary:

Answer 10

Produces the female gamete (contains ovule) - becomes fruit after fertilisation

Question 11

Function of the nectary:

Answer 11

Produces a sugary solution called nectar, which attracts insects

Question 12

Function of sepals:

Answer 12

Protects the unopened flower

Question 13

Function of the stamen:

Answer 13

Male part of the flower - consists of an anther held up on the filament

Question 14

Function of the ovule:

Answer 14

A structure that becomes a seed when fertilised

Question 15

What is the male part of the flower?

Answer 15

It is called the stamen and consists of the anther and filament

Question 16

What is the female part of the flower?

Answer 16

It is called the carpel and consist of the stigma, style and ovary

Question 17

Where is the male gamete made?

Answer 17

In the ovule

Question 18

Where is the male gamete found?

Answer 18

Inside the pollen grain

Question 19

Where is the female gamete found?

Answer 19

In the anther

Question 20

What is the female gamete called?

Answer 20

An ovule

Question 21

What are two types of asexual reproduction in plants?

Answer 21

• Cuttings

- Grafting

Question 22

What are cuttings?

Answer 22

• Part of a plant stem, leaf, or root cut off and used for producing a new plant
• An artificial propagation method

Question 23

What is grafting?

Answer 23

A shoot or bud of one plant is is inserted into or joined to the stem, branch, or root of another plant so that the two grow together as a single plant

Question 24

What is the definition of pollination?

Answer 24

The transfer of pollen grains from the anther to the stigma

Question 25

Characteristics of insect pollinated flowers?

Answer 25

• Brightly coloured, big petals to attract insects
• Nectar present to attract insects
• Pleasant scent to attract insects
• Stigma is sticky to collect pollen and inside the flower
• Anther is positioned to rub pollen onto insects and surrounds the stigma
• Pollen grains have hooks for hooking into insect fur

Question 26

Characteristics of wind pollinated flowers:

Answer 26

• Petals are small and green (no need to attract insects)
• Nectar not present
• Scent not present
• Stigma is feathery to catch pollen blown by wind outside the flower
• Anthers are exposed to the wind so pollen can be easily blown away, long filament outside the flower
• Pollen grains are small, smooth, light and large in numbers

Question 27

What is self pollination?

Answer 27

Pollen falls from the anther onto the stigma of the same flower - not preferred as it reduces variation

Question 28

What is cross pollination?

Answer 28

Pollen from anther lands in stigma of a different plant (same species, different flower)

Question 29

Ways for plants to prevent cross pollination for happening:

Answer 29

• Stigma above the anther/stamen - pollen cannot fall on stigma
• Maturation of anther/stigma at different times - pollen cannot fall on stigma

Question 30

What is the process of fertilisation?

Answer 30

• The pollen grain lands on the stigma of the plant species, stimulating the pollen tube to grow
• The pollen grain travels down the style to the ovary
• The pollen grain travels down the tube connected to the micropyle
• The male and female gamete fuse totgehe in the ovule to create a zygote
• The zygote undergoes cell division and develops into an embryo

Question 31

How does fertilisation in plants begin?

Answer 31

The pollen grain lands on the stigma of the plant species, stimulating the pollen tube to grow

Question 32

Male gametes in plants:

Answer 32

• Pollen doesn’t have a tail

- Pollen protects the nucleus before releasing it

Question 33

Male gametes in animals:

Answer 33

• Sperm has a tail

- Sperm doesn’t release the nucleus

Question 34

What is the process of fertilisation?

Answer 34

The fusion of a male and female gamete to produce a zygote that undergoes cell division and develops into an embryo

Question 35

How can a seed become dormant?

Answer 35

Through lack of warmth and moisture

Question 36

Why are seeds dispersed away from the parent plant?

Answer 36

To reduce competition

Question 37

What are the 4 mechanisms of seed dispersal?

Answer 37

• Wind
• Water
• Mechanical
• Animal

Question 38

Function of the cotyledon:

Answer 38

• The food store
• Starch
• Insoluble

Question 39

Function of the plumule:

Answer 39

• Embryo shoot

- Doesn’t affect osmosis

Question 40

Function of the radicle:

Answer 40

• The embryo root

Question 41

Function of the testa:

Answer 41

• The tough seed coat

Question 42

Function of the micropyle:

Answer 42

• Hope made by the pollen tubes

Question 43

Why is it important for water to enter the seed to activate germination?

Answer 43

To activate the Enzymes by breaking down the food store to be used in germination

Question 44

What is dry mass?

Answer 44

It is the mass of solid matter with all water removed

Question 45

What happens when the food store in the cotyledon is broken down at the beginning of germination?

Answer 45

• Amylase (the enzymes) break down the starch into maltose
• The maltase breaks down the maltose into glucose
• The glucose is used in respiration to release energy in the form of ATP

Question 46

What happens to the dry mass during germination?

Answer 46

It decreases

Question 47

Why does the dry mass decrease during germination?

Answer 47

The seed loses weight as it uses up the stack stores in the cotyledons as the seedling can’t photosynthesise yet as it’s still underground

Question 48

What happens after the seed breaks free from being underground?

Answer 48

The seedling’s weight increases as it begins to grow leaves, meaning that it can photosynthesise, meaning that the plant can grow even more

Question 49

Describe an investigation into the effect of different concentrations of Ethanol on the germination speed of a seed (6)

Answer 49

• Change - the concentration of Ethanol
• Organism - Apple seed
• Range - 20%, 40%, 60%, 80%, 100% concentration of ethanol in the solution
• Repeat - each concentration x3
• Measurements - a cm ruler
• Measure - the height of the plant after 6 weeks
• Same - the pH of the soil
• Same - Temperature (degrees Celsius)

Question 50

Describe the method for a practical, investigating the conditions needed for seed germination

Answer 50

• Cotten wool is places at the bottom of four boiling tubes, each containing five cress seeds
• Each test tube is then individually set up:
• Test Tube A: moist cotton wool and places in warm environment (hot water bath set at appropriate temperature)
• Test Tube B: dry cotton wool and placed in warm environment (hot water bath set at appropriate temperature)
• Test Tube C: moist cotton wool and is placed in a cold environment (bucket of ice)
• Test Tube D: cotton wool soaked in boiled water that is cooled off, and layered with oil on top
• After all test tubes are set up, cress seeds in each respective test tube are allowed to adjectives to new environment for a fixed number of days
• After a fixed number of days has passed, results are compared via:
• Number of cress seeds germinated
• Height of germinated seed

Question 51

What would the test tube results be for the practical, investigating the conditions needed for seed germination?

• Test Tube A - All factors present
• Test Tube B - only water present
• Test Tube C - only optimum temperature present
• Test Tube C - only Oxygen present

Answer 51

Test Tube A

Question 52

Why is water needed in seed germination?

Answer 52

To activate enzymes to break down the food store in the cotyledon, from starch into glucose (energy in the form of ATP)

Question 53

Why is oxygen needed in seed germination?

Answer 53

For aerobic respiration to produce energy in the form of ATP for growth

Question 54

Why is the optimum temperature (warmth) needed in seed germination?

Answer 54

For optimum enzyme activity be to facilitate survival and geothermal of the seed (too cold and the enzymes won’t work as efficiently, too hot and the enzymes will denature and stop working completely)

Question 55

What is the word equation for photosynthesis?

Answer 55

Carbon dioxide + water —-> glucose + oxygen

Question 56

What is the chemical equation for photosynthesis?

Answer 56

6CO + 6H20 —> C6H12O6

Question 57

Where does photosynthesis occur?

Answer 57

In the chloroplast

Question 58

How does water reach the chloroplast?

Answer 58

Through the roots

Question 59

How does carbon dioxide reach the chloroplast?

Answer 59

Through the stomata

Question 60

What is photosynthesis?

Answer 60

It is the conversion of light energy into chemical energy

Question 61

Factors affecting the rate of photosynthesis?

Answer 61

• Light intensity
• CO2 concentration
• Temperature

Question 62

How does light intensity affect the rate of photosynthesis?

Answer 62

More light = higher rate of photosynthesis

Question 63

How does CO2 intensity affect the rate of photosynthesis?

Answer 63

More CO2 = higher rate of photosynthesis (more reactant available)

Question 64

How does Temperature affect the rate of photosynthesis?

Answer 64

Higher temperature = higher rate of photosynthesis - higher kinetic energy - more collisions between active site of enzyme and substrate (up until a point - enzymes will denature and too much water loss if too hot!)

Question 65

What is a limiting factor?

Answer 65

A factor present in an environment that controls a process

* see notes for graph of limiting factors and explanations

Question 66

What are the layers of a leaf in order from top to bottom?

Answer 66

• Upper epidermis
• Palisade Layer (mesophyll layer)
• Spongy Layer (Mesophyll layer)
• Lower epidermis

Question 67

What is contained in the upper epidermis?

Answer 67

The waxy cuticle layer

Question 68

What is the purpose of the waxy cuticle layer?

Answer 68

It is the waterproof layer which stops water loss

Question 69

What is contained in the palisade layer?

Answer 69

Palisade Cells at the top of the leaf, close to the light, tightly packed totgehe and full of chloroplasts

Question 70

What is contained in the spongy mesophyll layer?

Answer 70

Many airspaces are in the spongy mesophyll tissue

Question 71

Why are many airspaces found in the spongy mesophyll tissue?

Answer 71

To allow for more efficient gas exchange

Question 72

Why are cells not tightly packed in the spongy mesophyll layer?

Answer 72

So they can have a lathe surface area available for gas exchange and some chloroplasts

Question 73

What is located in the lower epidermis?

Answer 73

• Guard cells

- Stomata

Question 74

What is the function of guard cells

Answer 74

To open and close the stomata to control water loss

Question 75

What is the function of stomata?

Answer 75

To allow gas to move in and out of the leaf

Question 76

What do plants require mineral ions for?

Answer 76

Growth

Question 77

What do plants require magnesium ions for?

Answer 77

Chlorophyll

Question 78

What do plants require are nitrate ions for?

Answer 78

Amino acids

Question 79

What can you find in plant cells?

Answer 79

• Nucleus
• Cells wall (made of cellulose)
• Cytoplasm
• Vacuole
• Cell membrane
• Ribosomes
• Mitochondria
• Chloroplasts

Question 80

Why do root hair cells not require chloroplasts?

Answer 80

Because they do not carry out the process of photosynthesis as they are underground and have no sunlight

Question 81

Practical: investigate photosynthesis, showing the evolution of oxygen from a water plant, the production of starch and the requirements of light, carbon dioxide and chlorophyll - answer with CORRMMSS

Answer 81

Change - light intensity (using LED bulb, doesn’t affect temperature)
Organism - pondweed, Cabomba (in boiling tube containing 45 cm3 of sodium hydrogencarbonate solution)
Range - 10, 8, 6, 4, 2 cm away from the pondweed
Repeat - x3
Measure - the volume of oxygen produced per minute
Measurements - cm3
Same - the concentration of CO2
Same - temperature

Question 82

Starch Testing method:

Answer 82

Iodine solution is used to test leaves for the presence of starch. You need to:

1) Heat a plant leaf in boiling water for 30 seconds (this kills the leaf, stopping any chemical reactions from occurring)
2) Add the leaf to boiling ethanol in a water bath for a few minutes (the boiling ethanol dissolves the chlorophyll and removes the green colour from the leaf - it turns white so it is easy to see the change in colour)
3) Wash with water to rehydrate and soften the leaf and spread into a white tile
4) Add iodine solution from a dropping Pipette

Question 83

Starch testing method - what happens after you add iodine solution from a dropping Pipette?

Answer 83

After a few minutes, the parts of the leaf that contain starch turn the iodine from brown to blue/black

Question 84

Starch Testing method - why do parts of the leaf that contain starch turn the iodine from brown to blue/black?

Answer 84

Variegated leaves have green parts (where the cells contain chlorophyll) and white parts (where there is no chlorophyll). Only the parts that were green become blue/black with iodine solution, showing the importance of chlorophyll in photosynthesis. The parts without chlorophyll do not photosynthesise, and so they do not make starch and the iodine does not change colour

Question 85

During photosynthesis a plant absorbs light energy using the pigment chlorophyll. This allows it to convert carbon dioxide and water into glucose. This glucose is:

Answer 85

• Transported to the growing parts of the plant for use in respiration
• Transformed into cellulose, proteins and oils
• Turned into starch for storage

Therefore, to test if a plant has been photosynthesising, you can test the leaf to see if starch is present

Question 86

How is the leaf adapted for gas exchange by diffusion?

Answer 86

• Stomata/guard cells - allows gas exchange of CO2 and O2
• Leaf shape is thick which decreases diffusion distance
• Spongy mesophyll cells have a large surface area and moist surfaces for fast diffusion
• Air spaces between spongy mesophyll cells increase the surface area for diffusion
• On the underside of leaves are small holes, or pores, called stomata. A single hole is called a stomata. Each stomata is surrounded by two guard cells
• When guard cells gain water by osmosis, they curve outwards. They opens the stomata, allowing gases in and out
• Losing water by osmosis causes the guard cells to come closer together, closing the stomata. This stops the
  movement of gases, but also prevents water loss

Question 87

What is the definition of diffusion?

Answer 87

Diffusion is the movement of a substance from an area of high concentration to an area of low concentration, and is a random and passive process

Question 88

What is gas exchange like during the day?

Answer 88

• There is more photosynthesis than respiration (as there is sunlight) so oxygen is produced

Net:

• CO2 in
• O2 out

Question 89

What is gas exchange like during the night?

Answer 89

Most of the stomata closes up during the night as no photosynthesis can occur (no sunlight) and also to prevent water loss

Question 90

What is excretion?

Answer 90

Excretion is the removal of the following substances:

• Toxic materials
• Waste products of metabolism
• Excess substances from organisms

Question 91

What is metabolism?

Answer 91

Metabolism is all the chemical reactions in the cells of an organism, including respiration

Question 92

Where is excess car in dioxide and oxygen excreted from the plant?

Answer 92

Through the stomata in the leaves

Question 93

What is carbon dioxide a waste product of?

Answer 93

Aerobic respiration

Question 94

What is oxygen a waste product of?

Answer 94

Photosynthesis