1. Figure 24–5 The Structure of a Flower
Section 24-1
Filament
Anther
Stigma
Style
Ovary
Carpel
Petal
Sepal
Ovule
Stamen
I. Carpel – female
a. Stigma – traps pollem
b. Style supports stigma; forms a
pollen tube
c. Ovary – becomes fruit
d. Ovule- becomes seeds
II. Stamen – male
a. Anther- produces pollen
b. Filament- supports anther
III. Petals – attract pollinators
IV. Sepals – protect flower bud while it is developing

2. From flower to fruit
Flowers, fruits and seeds…

3. III. Why are seed plants more successful that spore producing plants?

4. A. Gametophyte generation is very tiny (only a few cells)
A. Gametophyte generation is very tiny (only a few cells). In gymnosperms and angiosperms it is protected inside seeds and fruits so the young of seed plants tend to survive better. The spores of ferns and mosses must land in a wet habitat. If they do not, they will die.
B. Sperm does not have to swim thru water- it is carried by wind or animals during pollination. This enables seed plants to live in dryer habitats. It also increases reproductive success.

5. Name 5 Characteristics all Plants share
Eukaryotic
Cell Wall of Cellulose
All Multicellular
Autotrophs- Use Photosynthesis
Reproduce Sexually and Asexually

6. Scientist believe all plants probably evolved from what common ancestor?
Freshwater Multicellular Green Algae
Flowering plants
Cone-bearing plants
Ferns and their relatives
Mosses and their relatives
Green algae ancestor
Flowers; Seeds Enclosed in Fruit
Seeds
Water-Conducting (Vascular) Tissue

7. 1. Similar life cycles (alternation of generations)
What evidence suggests that all plants probbably evolved from a multicellular green algae?
1. Similar life cycles (alternation of generations)
2. Cellulose in cell walls
3. Similar pigments; like chlorophyll
4. DNA evidence

8. What group of plants has NO Vascular tissues and relies on water for reproduction because it does not produce seeds?
Bryophytes

9. What group of plants has has vascular tissue but still relies on water for reproduction because it does not produce seeds?
Ferns and their relatives

10. This group of plants were the first to produce seeds allowing plants to live away from water sources.
Gymnosperms

11. This group of plants is the most successful because of their ability to produce flowers and enclose their seeds within a fruit.
Angiosperms

12. Plant Structures and Tissues

13. Figure 22–6 A Cladogram of Plant Groups
Section 22-1
Flowering plants
Cone-bearing plants
Ferns and their relatives
Mosses and their relatives
Green algae ancestor
Flowers; Seeds Enclosed in Fruit
Seeds
Water-Conducting (Vascular) Tissue
Go to Section:

14. Figure 24–1 Evolution of the Gametophyte and the Sporophyte
Section 24-1
Gametophyte (N)
Sporophyte (2N)
Bryophytes
Ferns
Seed plants

15. Figure 22–19 The Structure of a Seed
Basic Structures in Plants
A. Seed – embryo of a plant that is protected by a covering and surrounded by a food supply
1. Can remain dormant for many years
2. Environmental factors (temperature and moisture) end dormancy
Figure 22–19 The Structure of a Seed
Section 22-4
Seed coat
Embryo
Stored food supply
Seed
Wing B A
Go to Section:

16. 3. Many modified for easy dispersal
a. Light weight - can float in water and in the air
b. Textured seed coats that stick to animal fur
c.“Winged” seeds – can “fly” long distances away from parent plant

17. d. Angiosperm seeds are surrounded by fleshy fruits that are eaten by animals allowing seeds to be dispersed
e. Seeds of Gymnosperms develop inside of protective cones

18. Figure 23–7 The Structure of a Root
Vascular Tissues- system of “tubes” throughout a plant; two types – xylem and phloem
Section 23-2
1. Xylem - transports water from the roots to the rest of the plant
2. Phloem - transports the products of photosynthesis (sugars) from the leaves to the rest of the plant

19. Figure 23–7 The Structure of a Root
Roots – absorb water and nutrients, anchor the plant, store food
Section 23-2
Epidermis
Root hairs
Phloem
Xylem
Apical meristem
Root cap
Zone
of maturation
Zone of elongation
Ground tissue (cortex)
Vascular Cylinder

20. Stems – supports plant, contains vascular tissue to transport water and nutrients between the roots and leaves
Section 23-1
Leaf
Stem
Root
Dermal tissue
Vascular tissue
Ground tissue

21. Two types of growth occur in stems and roots
Primary – growth from the tips of the roots and the shoots at areas called apical meristem
Secondary – growth in the width of the plant. (tree rings)

22. Transpiration A B Evaporation of water molecules out of leaves.
Section 23-5 A B
Evaporation of water molecules out of leaves.
Pull of water molecules upward from the roots.

23. E. Leaves carry out photosynthesis and transpiration
Epidermis - outer layer that covers the leaf. “skin”
Cuticle – waxy covering over the epidermis that prevents the plant from drying out
Mesophyll - middle layer of cells that carry out photosynthesis and exchange of the gases CO2 and O2

24. Figure 23–18 The Internal Structure of a Leaf
Section 23-4
Cuticle
Veins
Epidermis
mesophyll
Xylem
Vein
Phloem
mesophyll
Epidermis
Stomata
Guard cells

25. 4. Stomata – openings on the bottom of the leaf that allow gases to enter and leave
5. Guard cells – cells around the stomata that open and close the stomata

26. When the guard cells are full of water, the stomata is open
When the guard cells are full of water, the stomata is open. When they do not have water the stomata is closed. (This helps the plant conserve water when it is dry. Stomata are usually closed at night. (no sun = no photosynthesis)

27. Figure 23–18 The Internal Structure of a Leaf
Section 23-4
Cuticle
Veins
Epidermis
mesophyll
Xylem
Vein
Phloem
mesophyll
Epidermis
Stomata
Guard cells

28. 23-4 Structure and Function of Leaves

29. F. Flowers – reproductive structures present only in Angiosperms
F. Flowers – reproductive structures present only in Angiosperms. Pollination – occurs mostly by animals (best adaptation!) Many angiosperms have mutual relationships with animals like insects, bats, or birds. As animals gather nectar from flowers, they also transfer pollen from flower to flower helping the plant reproduce. Many animal species are flower specific- they only gather nectar from one type of flower. After pollination and fertilization, seeds develop inside protective fruits.

30. Figure 24–5 The Structure of a Flower
Section 24-1
I. Carpel – female
a. Stigma – traps pollen
b. Style supports stigma; forms a pollen tube for sperm to reach egg
c. Ovary – becomes fruit
d. Ovule- eggs that becomes seeds
II. Stamen – male
a. Anther- produces pollen
b. Filament- supports anther
c. pollen – carries sperm
III. Petals – attract pollinators
IV. Sepals – protect flower bud while it is developing
Filament
Anther
Stigma
Style
Ovary
Carpel
Petal
Sepal
Ovule
Stamen