Sexual Reproduction in Flowering Plants

Question 1

Draw the structure of a flower.

Answer 1

.

Question 2

What is the function of the sepal?

Answer 2

To protect the flower (and to prevent it from drying out)

Question 3

What is the function of the petal?

Answer 3

To attract insects to the flower for pollination

Question 4

What is the function of the stamen?

Answer 4

To produce the pollen grains in the anthers. (Each pollen grain produces two male gametes, one of which can fertilise an egg cell)

Question 5

What is the function of the anther?

Answer 5

Produces pollen

Question 6

What is the function of the filament?

Answer 6

Holds the anther in place

Question 7

What is the function of the carpel?

Answer 7

To produce the ovules (Each ovule contains an egg cell inside an embryo sac)

Question 8

What is pollination?

Answer 8

Transfer of pollen from the anther to the stigma of a flower of the same species

Question 9

What is the function of the stigma?

Answer 9

Where pollen lands after pollination

Question 10

What is the function of the style?

Answer 10

Pollen travels down this

Question 11

What is the function of the ovary?

Answer 11

Contains ovules

Question 12

What is self pollination?

Answer 12

Transfer of pollen from an anther to a stigma of the same plant

Question 13

What is cross-pollination?

Answer 13

Transfer of pollen from the anther to the stigma of a different plant of the same species

Question 14

What adaptations do flowers have for animal (insect) pollination?

Answer 14

Petals brightly coloured, scented with nectaries.
Small amounts of sticky pollen.
Anthers inside petals.
Stigmas sticky, inside petals.

Question 15

What adaptations do flowers have for animal (insect) pollination?

Answer 15

Petals small, not coloured brightly.
Anthers outside petals.
Stigmas large, feathery and outside petals.
Pollen Large numbers, light, dry and small.

Question 16

What is fertilisation in plants?

Answer 16

Fertilisation is the fusion of the male (n) and female (n) gametes to produce a zygote (2n).

Question 17

What type of gamete does the pollen grain produce?

Answer 17

The male gamete

Question 18

What type of gamete does the embryo sac in a plant produce?

Answer 18

An egg cell and polar nuclei

Question 19

How do seeds form after a zygote is formed?

Answer 19

The zygote grows repeatedly by mitosis to form an embryo.

Question 20

What does and embryo consist of?

Answer 20

An embryo consists of a plumule (future shoot), a radical (future root) and cotyledons (food stores needed for germination)

Question 21

What happens to the endosperm nucleus and what does it then act as? What is an example of one?

Answer 21

The endosperm nucleus (3N) divides repeatedly to form the endosperm in endospermic seeds. This endosperm acts as a food store for the developing seed e.g. maize

Question 22

What happens to the endosperm in non endospermic seeds? Where is food stored in these seeds and what is an example of one?

Answer 22

In non-endospermic seeds the endosperm is used up in the early stages of seed development so the food is stored in the cotyledons e.g. bean

Question 23

What is an endosperm?

Answer 23

A food store for developing embryo

Question 24

What is in all seeds?

Answer 24

An embryo with a plumule (immature shoot), radicle (immature root) and cotyledon (food supply or seed leaf)

Question 25

What is in some seeds?

Answer 25

An endosperm which is a food store

Question 26

What are the two features that seeds are classified according to?

Answer 26

Number cotyledons (Seed leaves)
Presence of endosperm

Question 27

What are the two types of seeds as classified according to number of cotyledons (seed leaves)? Give examples.

Answer 27

Monocotyledon - one cotyledon e.g. maize.

Dicotyledon - two cotyledons e.g. broad bean

Question 28

What are the two types of seeds as classified according to presence of endosperm? Give examples.

Answer 28

Present - endospermic e.g. maize

Absent - non-endospermic e.g. broad bean

Question 29

What are differences between monocots and dicots?

Answer 29

Monocots have 1 cotyledon, parallel venation, scattered vascular bundle arrangement and petals usually in multiples of 3.
Dicots have 2 cotyledons, reticulate (net) venation, vascular bundle arrangement in a ring and petals usually in multiples of 4 or 5.

Question 30

What are the features of a monocot?

Answer 30

Monocots have 1 cotyledon, parallel venation, scattered vascular bundle arrangement and petals usually in multiples of 3.

Question 31

What are the features of a dicot?

Answer 31

Dicots have 2 cotyledons, reticulate (net) venation, vascular bundle arrangement in a ring and petals usually in multiples of 4 or 5.

Question 32

How many cotyledons do monocots and dicots have?

Answer 32

Monocots have 1 cotyledon, dicots have 2 cotyledons

Question 33

What venation do monocots and dicots have?

Answer 33

Monocots have parallel venation and dicots have reticulate (net) venation

Question 34

What vascular bundle arrangements do monocots and dicots have?

Answer 34

Monocots have scattered vascular bundle arrangement and dicots have vascular bundle arrangement in a ring.

Question 35

What number of petals do monocots and dicots have?

Answer 35

Monocots have petals usually in multiples of 3 and dicots have petals usually in multiples of 4 or 5.

Question 36

In fruit what does the ovule become?

Answer 36

the seed

Question 37

In fruit what does the ovary become?

Answer 37

the fruit

Question 38

What is a fruit?

Answer 38

A fruit is a mature ovary that may contain seeds

Question 39

What is the process of fruit formation stimulated by?

Answer 39

growth regulators produced by the seeds

Question 40

What are the methods of the dispersal of seeds?

Answer 40

Wind, water, animals, self

Question 41

What are examples of how wind disperses seeds?

Answer 41

Sycamore and ash produce fruit with wings.
Dandelions and thistles produce fruit with parachute devices.
Both help to disperse the seeds more widely using wind.

Question 42

What are examples of how water disperses seeds?

Answer 42

Light, air filled fruits that float away on water e.g. coconuts, water lilies.

Question 43

What are examples of how animals disperse seeds?

Answer 43

Sticky fruit - fruits with hooks that can cling to the hair of an animal and be carried away e.g. burdock, goose grass.

Question 44

What are examples of how self disperses seeds?

Answer 44

Some fruits explode open when they dry out and flick the seed away e.g. peas and beans

Question 45

What is dormancy?

Answer 45

A resting period when seeds undergo no growth and have reduced cell activity or metabolism.

Question 46

What are the advantages of dormancy?

Answer 46

Plant avoids harsh winter conditions.
Gives the embryo time to develop.
Provides time for dispersal

Question 47

What are the applications of dormancy in agriculture and horticulture?

Answer 47

Some seeds need a period of cold before they germinate.
It may be necessary to break dormancy in some seeds before they are planted for agricultural or horticultural purposes.
This can be done by placing them in the fridge before they are planted.

Question 48

What is germination?

Answer 48

The re-growth of the embryo after a period of dormancy if the environmental conditions are suitable

Question 49

Why is water necessary for germination?

Answer 49

• Activates the enzymes
• Medium for germination reactions e.g. digestion
• Transport medium for digested products

Question 50

What are the factors necessary for germination?

Answer 50

A suitable temp. (Warmth), Oxygen and Water (WOW!)

Question 51

Why is oxygen needed for germination?

Answer 51

Needed for aerobic respiration

Question 52

Why is a suitable temperature necessary for germination?

Answer 52

Allows maximum enzyme activity

Question 53

How does digestion take place in germination?

Answer 53

Digestion of stored food in endosperm and cotyledon

Question 54

How does respiration take place in germination?

Answer 54

To produce ATP to drive cell division

Question 55

When do events in germination cease?

Answer 55

Events in germination cease when the plants leaves have developed and the plant has started to photosynthesise.

Question 56

What are the events in germination?

Answer 56

• Water is absorbed
• Food reserves are digested
• Digested food is moved to the embryo
• New cells are produced using amino acids
• Glucose is turned into ATP to drive cell division
• Radicle breaks through the testa
• Plumule emerges above ground
• New leaves begin to photosynthesise

Question 57

What happens in asexual reproduction?

Answer 57

Part of the plant becomes separated from the parent plant and divides by mitosis to grow into a new plant.

Question 58

What happens as a result of asexual reproduction?

Answer 58

As a result the offspring are genetically identical to the parent

Question 59

What are runners?

Answer 59

Runners are horizontal running of the soil surface. Terminal bud of the runner sends up new shoots.
e.g. strawberry, creeping buttercup.

Question 60

What are an example of modified stems?

Answer 60

Runners

Question 61

What are an example of modified roots?

Answer 61

Root tubers

Question 62

What are root tubers?

Answer 62

Root tubers are swollen fibrous roots. The tuber stores food, but the new plant develops from a side bud at the base of the old stem. e.g. dahlia, lesser celandine.

Question 63

What are an example of modified leaves?

Answer 63

plantlets

Question 64

What are plantlets?

Answer 64

Some plants produce plantlets along the edges of the leaves. Plantlets reach a certain size, fall off and grow into new plants. e.g. Lily, kalanchoe (mother of thousands)

Question 65

What are an example of modified buds?

Answer 65

Bulbs

Question 66

What is a bulb?

Answer 66

A bulb contains an underground stem, reduced in size. Leaves are swollen with stored food. e.g. onion, daffodil, tulip.

Question 67

What are the advantages of sexual reproduction compared to asexual reproduction? (differences between them)

Answer 67

Sexual (seed) reproduction
Cross pollination ensures variation (allows evolution)
More resistant to disease
Dispersal reduces competition
Seeds can remain dormant and survive unfavourable conditions.

Asexual (vegetative) reproduction
No variations - can be advantage in commercial horticulture.
All plants are of same species susceptible to disease.
Overcrowding and competition.
No seeds formed - no dormancy.

Question 68

What are the advantages of sexual (seed) vegetative propagation compared to asexual (vegetative) vegetative propagation? (differences between them)

Answer 68

Sexual (seed)
Complex process
Depends on outside agents for seed dispersal
Slow growth of young plants to maturity
Wasteful e.g. petals, pollen, fruit

Asexual (vegetative)
Simple process
No outside agents needed
Rapid growth
No waste

Question 69

What are methods of vegetative propagation?

Answer 69

Cuttings, Grafting, Layering, Micropropagation (Tissue Culture), Cloning

Question 70

What does an anther consist of?

Answer 70

four chambers called pollen sacs

Question 71

What is each pollen sac protected by?

Answer 71

a fibrous layer

Question 72

What is inside the fibrous layer of a pollen sac?

Answer 72

Inside the fibrous layer is the tapetum - a food store that supplies energy for cell divisions in the pollen sac.

Question 73

Draw the anther and the pollen sac.

Answer 73

.

Question 74

How do pollen grains develop?

Answer 74

Microspore mother cells (2n) are located in the pollen sacs. They are diploid. They divide by meiosis to produce a group of four haploid cells called a tetrad. Each tetrad breaks up to form four separate haploid pollen grains.

Question 75

What happens to a haploid pollen grain as it develops?

Answer 75

Pollen grains divide by mitosis producing two haploid nuclei. Tube nucleus - forms the pollen tube. The generative nucleus forms the male gametes.

Question 76

What happens after pollination?

Answer 76

The generative nucleus (n) divides by mitosis to form two sperm nuclei (n). These will each play a role in double fertilisation.

Question 77

What is in the embryo sac?

Answer 77

Each ovary contains one or more ovules. An ovary has two walls called integuments. Between the integuments is a small opening (micropyle) through which a pollen tube can enter. The nucellus provides nutrients for growth in the ovule.

Question 78

How is the embryo sac prepared?

Answer 78

One cell in the ovule the megaspore mother cell (2n) divides by meiosis to form four haploid cells. Three of these cells disintegrate. The remaining cell is called the embryosac.

Question 79

How does the nucleus of the embryo sac prepare?

Answer 79

The nucleus of the embryo sac (n) divides by mitosis three times forming eight haploid nuclei. These are still contained within the embryo sac. Five of these nuclei will later disintegrate. The remaining three are the gametes. Two of these form the polar nuclei in the embryo sac. The remaining female gamete forms an egg cell.