2. Chapter 23 Reproduction in Plants
Section 1: Introduction to Plant Reproduction
Section 2: Flowers
Section 3: Flowering Plants

3. Vegetative Reproduction
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Vegetative Reproduction
The plants that result from vegetative reproduction are clones of the original plant because their genetic makeups are identical to the original plant.
Strawberry plant

4. Advantages of Vegetative Reproduction
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Advantages of Vegetative Reproduction
It is faster to grow new plants than from a spore or a seed.
The resultant plants are more uniform in their characteristics.
The only way to produce some fruits that do not produce seeds

5. Natural Vegetative Reproduction
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Natural Vegetative Reproduction
When conditions are dry, some mosses dry out, break apart, and are scattered by the wind.
When conditions improve,
some of these pieces are able to resume
growth in a new location.
Moss

6. Humans Use Vegetative Reproduction
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Humans Use Vegetative Reproduction
Farmers, horticulturists, and scientists can use buds, leaves, stems, or root pieces from certain plants to grow new plants.
A few cells of plant tissue can be placed on nutrient agar in sterile conditions to produce hundreds of identical plants.

7. Alternation of Generations
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Alternation of Generations
The life cycle of most plants includes a diploid (2n) sporophyte stage and a haploid (n) gametophyte stage.

8. The gametophyte stage produces gametes—egg and sperm.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
The gametophyte stage produces gametes—egg and sperm.
In nonvascular plants, the sperm must have a small amount of water to get to the egg.

9. Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
In vascular plants, the sperm may be carried by the wind, or another vector such as an insect.
Fertilization of the egg by the sperm forms a cell that is the first cell of the sporophyte stage.

10. Moss Reproduction and Life Cycle
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Moss Reproduction and Life Cycle
The life cycle of the mosses begins with the dominant stage, the gametophyte.

11. There are both male and female forms of the gametophyte.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
There are both male and female forms of the gametophyte.
Eggs are produced in the female structure, called the archegonium.
Sperm are produced
in the male structure, called the antheridium.

12. Sperm require water to swim to the egg.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Sperm require water to swim to the egg.
The chemical that allows sperm to find the egg is chemotaxis.

13. Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
The mature sporophyte consists of a stalk that grows in the gametophyte stage.

14. Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
At the tip of the stalk is a capsule where up to 50 million spores may form by meiosis.
The spores produce a protonema that can develop into the gametophyte plant and start a new cycle.

15. Fern Reproduction and Life Cycle
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Fern Reproduction and Life Cycle
Another life cycle that has alternation of generations and produces spores is that of the fern.

16. Spores are produced from the sori, on the underside of a frond.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Spores are produced from the sori, on the underside of a frond.
If a fern spore lands on damp, rich soil, it can grow and form a tiny, heart-shaped gametophyte called a prothallus.

17. Fertilization produces a sporophyte that grows from the prothallus.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Fertilization produces a sporophyte that grows from the prothallus.
The young sporophyte develops into a frond to start the cycle over again.

18. Conifer Reproduction and Life Cycle
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Conifer Reproduction and Life Cycle
Conifers are heterosporus—they produce two
types of
spores that
develop
into male
and female
groups.

19. At the base of each scale on a female cone are two ovules.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Female Cones
At the base of each scale on a female cone are two ovules.
Each ovule has a megasporangium that produces megaspores.
One of the megaspores develops into the female gametophyte.

20. Each scale on the male cone contains hundreds of sporangia.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Male Cones
Each scale on the male cone contains hundreds of sporangia.
The sporangia produce microspores, which produce the male gametophyte, or pollen grain.

21. Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Pollination
Pollination occurs when the pollen grain from one species of a plant lands on the female reproductive structure of a plant of the same species.
The pollen grain is trapped in a sticky substance called the pollen drop which is located near the micropyle.

22. Seed development within the cone may take as long as three years.
Chapter 23
Reproduction in Plants
23.1 Introduction to Plant Reproduction
Seed Development
Seed development within the cone may take as long as three years.
The seed embryo will use the cotyledons for photosynthesis upon sprouting.

23. Flowers are the reproductive structures of anthophytes.
Chapter 23
Reproduction in Plants
23.2 Flowers
Flower Organs
Flowers are the reproductive structures of anthophytes.

24. Chapter 23
Reproduction in Plants
23.2 Flowers
Flowers have several organs that provide protection or support, or are involved in the reproductive process.
There are basically four structures—sepals, petals, stamen, and pistils.

25. Chapter 23
Reproduction in Plants

26. Sepals may be green and look like leaves and petals.
Chapter 23
Reproduction in Plants
23.2 Flowers
Sepals may be green and look like leaves and petals.
Petals attract animal pollinators and provide a landing pad.
Sepals and petals open and close to protect the reproductive parts of the flower.

27. Chapter 23
Reproduction in Plants
23.2 Flowers
Most flowers have several stamen—the male reproductive organ—surrounding the central part of the flower.
The filament stalk supports the anther, which contains the pollen grains.

28. Structural differences
Chapter 23
Reproduction in Plants
23.2 Flowers
Flower Adaptations
Structural differences
Flowers that have sepals, petals, stamens, and one or more pistils are called complete flowers.
If a flower is missing one or more of these organs, it is an incomplete flower.

29. Flowers that have both stamens and pistils are called perfect flowers.
Chapter 23
Reproduction in Plants
23.2 Flowers
Flowers that have both stamens and pistils are called perfect flowers.
An imperfect flower has either functional stamens or pistils.

30. Monocots generally have multiples of three.
Chapter 23
Reproduction in Plants
23.2 Flowers
The number of flower organs distinguishes dicots and eudicots from monocots.
Monocots generally have multiples of three.
When the petal number is a multiple of four or five, the plant is either a dicot or a eudicot.
The number of other organs often is the same multiple of three, four, or five.

31. Pollination Mechanisms
Chapter 23
Reproduction in Plants
23.2 Flowers
Pollination Mechanisms
Flower adaptations that relate to pollination include flower size, shape, color, and petal arrangements.
Animal pollination
Visualizing Pollination
Wind pollination
Self pollination

32. Chapter 23
Reproduction in Plants
23.2 Flowers
Photoperiodism
The flowering response to the number of hours of uninterrupted darkness is known as photoperiodism.
Flowering plants are divided into four different groups based on the critical period.

33. Short-day Photoperiodism
Chapter 23
Reproduction in Plants
23.2 Flowers
Short-day Photoperiodism
A short-day plant flowers when exposed daily to a number of hours of darkness that is greater than its critical period.

34. Long-day Photoperiodism
Chapter 23
Reproduction in Plants
23.2 Flowers
Long-day Photoperiodism
A long-day plant flowers when the number of hours of darkness is less than its critical period.

35. Intermediate-day Photoperiodism
Chapter 23
Reproduction in Plants
23.2 Flowers
Intermediate-day Photoperiodism
An intermediate-day plant flowers as long as the number of hours of darkness is neither too great or too few.

36. Day-neutral Photoperiodism
Chapter 23
Reproduction in Plants
23.2 Flowers
Day-neutral Photoperiodism
A day-neutral plant flowers over a range in the number of hours of darkness.

37. Chapter 23
Reproduction in Plants
23.3 Flowering Plants
Life Cycle
The life cycle of a flowering plant includes gametophyte and sporophyte generations.

38. Results of Reproduction
Chapter 23
Reproduction in Plants
23.3 Flowering Plants
Results of Reproduction
Fertilization is only the beginning of a long process that ends with the formation of a seed.

39. Seed and Fruit Development
Chapter 23
Reproduction in Plants
23.3 Flowering Plants
Seed and Fruit Development
The sporophyte begins as a zygote, or a 2n cell.
The zygote undergoes numerous cell divisions to form an embryo.
Nourishment for the embryo comes from a tissue called the endosperm.

40. Chapter 23
Reproduction in Plants

41. Chapter 23
Reproduction in Plants
23.3 Flowering Plants
As the endospore matures, the outside layers of the ovule harden and form a protective tissue called the seed coat.
As the ovule develops into a seed, changes occur in the ovary that lead to the formation of fruit.

42. Chapter 23
Reproduction in Plants
23.3 Flowering Plants
Seed Germination
When the embryo in a seed starts to grow, the process is called germination.
The first part of the embryo to appear outside the seed is the radicle.

43. The hypocotyl is the first part of the seed to appear above ground.
Chapter 23
Reproduction in Plants
23.3 Flowering Plants
The hypocotyl is the first part of the seed to appear above ground.
The cotyledons will provide nourishment for the seedling until photosynthesis begins.

44. Chapter 23
Reproduction in Plants

45. Chapter Resource Menu Chapter Diagnostic Questions
Reproduction in Plants
Chapter Resource Menu
Chapter Diagnostic Questions
Formative Test Questions
Chapter Assessment Questions
Standardized Test Practice
biologygmh.com
Glencoe Biology Transparencies
Image Bank
Vocabulary
Animation
Click on a hyperlink to view the corresponding lesson.

46. What term is used to describe the process
Chapter 23
Reproduction in Plants
Chapter Diagnostic Questions
What term is used to describe the process
in which new plants grow from parts of an
existing plant?
budding
regeneration
vegetative reproduction
sexual reproduction

47. What is the threadlike structure of a spore
Chapter 23
Reproduction in Plants
Chapter Diagnostic Questions
What is the threadlike structure of a spore
which develops into a gametophyte?
chemotaxis
prothallus
protonema
microspore

48. What structure of the plant embryo first appears outside the seed?
Chapter 23
Reproduction in Plants
Chapter Diagnostic Questions
What structure of the plant embryo first
appears outside the seed?
cotyledon
first leaf
hypocotyls
radicle

49. Which scientist uses plant cells to grow new
Chapter 23
Reproduction in Plants
23.1 Formative Questions
Which scientist uses plant cells to grow new
plant tissues on nutrient agar?
botanical technologist
horticulture specialist
plant physiologist
tissue-culture technician

50. What is the term for the movement of cells in response to a chemical?
Chapter 23
Reproduction in Plants
23.1 Formative Questions
What is the term for the movement of
cells in response to a chemical?
chemitropism
chemotaxis
chemiosmosis
hydrochemisis

51. What is the tiny heart-shaped gametophyte
Chapter 23
Reproduction in Plants
23.1 Formative Questions
What is the tiny heart-shaped gametophyte
produced from a fern spore called?
frond
sorus
prothallus
protonema

52. What is the term for a plant that produces
Chapter 23
Reproduction in Plants
23.1 Formative Questions
What is the term for a plant that produces
two types of spores that develop into male
or female gametophytes?
bisporous
diasporous
gametosporous
heterosporous

53. In conifers, how are pollen grains produced
Chapter 23
Reproduction in Plants
23.1 Formative Questions
In conifers, how are pollen grains produced
by a male cone transported to a female cone?
animals
fire
water
wind

54. Which is the female reproductive structure of a flower?
Chapter 23
Reproduction in Plants
23.2 Formative Questions
Which is
the female
reproductive
structure of
a flower?

55. What type of flowers are either male
Chapter 23
Reproduction in Plants
23.2 Formative Questions
What type of flowers are either male
reproductive organs or female reproductive
organs, not both?
complete flowers
incomplete flowers
perfect flowers
imperfect flowers

56. What is a characteristic of plants that are pollinated by animals?
Chapter 23
Reproduction in Plants
23.2 Formative Questions
What is a characteristic of plants that are
pollinated by animals?
brightly-colored petals
large pistils
long stamens
many sepals

57. Which type of plant flowers when the number
Chapter 23
Reproduction in Plants
23.2 Formative Questions
Which type of plant flowers when the number
of hours of darkness is less than its critical
period?
short-day plant
long-day plant

58. Which type of plants generally has flower
Chapter 23
Reproduction in Plants
23.2 Formative Questions
Which type of plants generally has flower
organs in multiples of three?
monocots
dicots
tricots
eudicots

59. What is the dominant generation in flowering plants?
Chapter 23
Reproduction in Plants
23.3 Formative Questions
What is the dominant generation in flowering
plants?
anthophyte
gametophyte
saprophyte
sporophyte

60. From what plant organ does a fruit develop?
Chapter 23
Reproduction in Plants
23.3 Formative Questions
From what plant organ does a fruit develop?
anther
ovary
stigma
style

61. How does the dispersal of seeds increase the
Chapter 23
Reproduction in Plants
23.3 Formative Questions
How does the dispersal of seeds increase the
survival rate of offspring?
It increases genetic diversity.
It limits the spread of disease.
It reduces competition.
It results in new adaptations.

62. What begins the process of seed germination?
Chapter 23
Reproduction in Plants
23.3 Formative Questions
What begins the process of seed
germination?
absorption of water
appearance of the radicle
breakdown of the endosperm
growth of cotyledons

63. What is an adaptation that increases the
Chapter 23
Reproduction in Plants
23.3 Formative Questions
What is an adaptation that increases the
survival rate of seeds exposed to harsh
conditions?
dormancy
photoperiodism
alternation of generations
internal germination

64. Which flower organ is indicated? pistil spore stamen sepal
Chapter 23
Reproduction in Plants
Chapter Assessment Questions
Which flower organ
is indicated?
pistil
spore
stamen
sepal

65. Photoperiodism is associated with what plant necessity?
Chapter 23
Reproduction in Plants
Chapter Assessment Questions
Photoperiodism is associated with what
plant necessity?
hours of daylight
hours of darkness
ability to perform photosynthesis
ability to reproduce

66. What is the food source for the embryo in a eudicot seed?
Chapter 23
Reproduction in Plants
Chapter Assessment Questions
What is the food source for the embryo in a
eudicot seed?
seed coat
endosperm
cotyledon
radicle

67. What occurs when a new plant grows at the
Chapter 23
Reproduction in Plants
Standardized Test Practice
What occurs when a new plant grows at the
end of a parent plant’s runner or stolon?
artificial duplication
botanic replication
organic cloning
vegetative reproduction

68. What are the first cells of the gametophyte stage?
Chapter 23
Reproduction in Plants
Standardized Test Practice
What are the first cells of the gametophyte
stage?
gametes
spores
zygotes
gametophyte cells

69. How are flowering plants heterosporous?
Chapter 23
Reproduction in Plants
Standardized Test Practice
How are flowering plants heterosporous?
Antheridia produce sperm; archegonia
produce eggs.
Females produce pollen grains; males
develop ovules.
Pistils produce megaspores; stamens
produce microspores.
Gametophytes produce female spores;
sporophytes produce male spores.

70. What is this multinucleated cell called?
Chapter 23
Reproduction in Plants
Standardized Test Practice
What is this multinucleated cell called?
ovule
pollen grain
female gametophyte
male megaspore

71. A pollen grain from one species of plant lands
Chapter 23
Reproduction in Plants
Standardized Test Practice
A pollen grain from one species of plant lands
on the stigma of a plant that is a different
species. How is fertilization prevented?
The pollen grain cannot undergo mitosis.
The sperm nucleus cannot fuse with the egg.
The pollen grain cannot produce a pollen tube.
The pollen tube cannot produce sperm nuclei.

72. Which fertilization results in the endosperm?
Chapter 23
Reproduction in Plants
Standardized Test Practice
Which fertilization results
in the endosperm? B A

73. Which seed is a monocot? Standardized Test Practice Chapter 23
Reproduction in Plants
Standardized Test Practice
Which seed is a monocot?

74. Glencoe Biology Transparencies
Chapter 23
Reproduction in Plants
Glencoe Biology Transparencies

75. Chapter 23
Reproduction in Plants
Image Bank

76. Chapter 23
Reproduction in Plants
Image Bank

77. Section 1 Vocabulary vegetative reproduction chemotaxis protonema
Chapter 23
Reproduction in Plants
Vocabulary
Section 1
vegetative reproduction
chemotaxis
protonema
prothallus
heterosporus
megaspore
microspore
micropyle

78. Section 2 Vocabulary sepal petal stamen pistil photoperiodism
Chapter 23
Reproduction in Plants
Vocabulary
Section 2
sepal
petal
stamen
pistil
photoperiodism
short-day plant
long-day plant
intermediate-day
plant
day-neutral plant

79. Section 3 Vocabulary polar nuclei endosperm seed coat germination
Chapter 23
Reproduction in Plants
Vocabulary
Section 3
polar nuclei
endosperm
seed coat
germination
radicle
hypocotyl
dormancy

80. Visualizing Pollination Germination of a Bean Seed
Chapter 23
Reproduction in Plants
Animation
Organs of a Flower
Visualizing Pollination
Germination of a Bean Seed