1. Biology Sylvia S. Mader Michael Windelspecht
Chapter 24
Flowering Plants: Structure and Organization
Lecture Outline
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2. Biology, 9th ed, Sylvia Mader
Chapter 25
Outline
Structure and Organization of Plants
24.1 Organs of Flowering Plants
24.2 Tissues of Flowering Plants
24.3 Organization and Diversity of Roots
24.4 Organization and Diversity of Stems
24.5 Organization and Diversity of Leaves

3. 24.1 Organs of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
24.1 Organs of Flowering Plants
Structure and Organization of Plants
Flowering plants, or angiosperms, are extremely diverse but share many common structural features.
Most flowering plants possess a root system and a shoot system
The root system simply consists of the roots,
The shoot system consists of the stem and leaves.
A typical plant features three vegetative organs
roots, stems, and leaves
Vegetative organs are concerned with growth and nutrition.
Flowers, seeds, and fruits are structures involved in reproduction.

4. Organization of Plant Body
Biology, 9th ed, Sylvia Mader
Organization of Plant Body
Chapter 25
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
terminal bud
blade
leaf
vein
petiole
axillary bud
stem
node
internode
node
vascular tissues
shoot system
root system
branch
root
root hairs
primary
root

5. Organs of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Organs of Flowering Plants
Structure and Organization of Plants
Roots
Generally, the root system is at least equivalent in size and extent to the shoot system
Anchors plant in soil
Absorbs water and minerals from the soil
Produces hormones
Root hairs:
Projections from epidermal root-hair cells
Greatly increase absorptive capacity of root

6. Organs of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Organs of Flowering Plants
Structure and Organization of Plants
Stems
Shoot system of a plant is composed of the stem, branches, and leaves
Stem is the main axis of a plant that elongates and produces leaves
Nodes occur where leaves are attached to the stem
Internode is region between nodes
Axillary buds can produce new branches of the stem (or flowers)
Stem also has vascular tissue that transports water and minerals

7. Organs of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Organs of Flowering Plants
Structure and Organization of Plants
Leaves
major part of the plant that carries on photosynthesis
Foliage leaves are usually broad and thin
Blade - Wide portion of foliage leaf
Petiole - Stalk attaching blade to stem
Leaf Axil - Upper acute angle between petiole and stem where the axillary bud is found
Tendrils - Leaves that attach to objects
Bulbs - Leaves that store food

8. Vegetative Organs of Several Eudicots
Biology, 9th ed, Sylvia Mader
Chapter 25
Vegetative Organs of Several Eudicots
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
blade
petiole
stems
stem
roots
lateral root
a. Root system, dandelion
b. Shoot system, bean seedling
c. Leaves, pumpkin seedling
a: © Dorling Kindersley/Getty Images; b:© Dwight Kuhn; c: © Dwight Kuhn

9. Organs of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Organs of Flowering Plants
Structure and Organization of Plants
Monocots (Single cotyledon)
Cotyledons act as transfer tissue
Nutrients are derived from the endosperm
Root vascular tissue occurs in ring
Parallel leaf venation
Flower parts arranged in multiples of three
Eudicots (Two cotyledons)
Cotyledons supply nutrients to seedlings
Root phloem located between xylem arms
Netted leaf venation
Flower parts arranged in multiples of four or five

10. Flowering Plants are Either Monocots or Eudicots
Biology, 9th ed, Sylvia Mader
Chapter 25
Flowering Plants are Either Monocots or Eudicots
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Seed
Root
Stem
Leaf
Flower
Monocots
Root xylem and
phloem in a ring
Vascular bundles
scattered in stem
Leaf veins form
a parallel pattern
Flower parts in threes
and multiples of three
One cotyledon in seed
Eudicots
Root phloem between
arms of xylem
Vascular bundles
in a distinct ring
Leaf veins form
a net pattern
Flower parts in fours or
fives and their multiples
Two cotyledons in seed

11. 24.2 Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
24.2 Tissues of Flowering Plants
Structure and Organization of Plants
Meristematic tissue enables flowering plants to grow throughout their lifetime
Apical meristems at the tips of stems and roots increase the length of these tissues
Apical meristem produces three types of meristem, which produce three specialized tissues
Epidermal tissue
Ground tissue
Vascular tissue

12. Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Tissues of Flowering Plants
Structure and Organization of Plants
Epidermal Tissue
Forms the outer protective covering of a plant
Epidermis contains closely packed epidermal cells
Epidermal cells exposed to air are covered with waxy cuticle
Root epidermal cells have root hairs
Epidermal cells of stems, leaves, and reproductive organs have trichomes
Lower leaf surface contains stomata
In older woody plants, the epidermis of the stem is replaced by periderm
Major component is cork
New cork is made by cork cambium 12

13. Modifications of Epidermal Tissue
Biology, 9th ed, Sylvia Mader
Modifications of Epidermal Tissue
Chapter 25
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
corn seedling
guard cell
chloroplasts
periderm
lenticel
cork cambium
cork
root hairs
enlongating root tip
nucleus
Stoma
a. Root hairs
b. Stoma of leaf
c. Cork of older stem
a: © Evelyn Jo Johnson; b: © J.R. Waaland/Biological Photo Service; c: © Kingsley Stern

14. Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Tissues of Flowering Plants
Structure and Organization of Plants
Ground tissue forms bulk of a flowering plant
Parenchyma cells:
Least specialized and are found in all organs of plant
Can divide and give rise to more specialized cells
Collenchyma cells:
Have thicker primary walls
Form bundles underneath epidermis
Provide flexible support for immature regions of the plant

15. Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Tissues of Flowering Plants
Structure and Organization of Plants
Ground tissue (continued)
Sclerenchyma cells:
Have thick secondary walls impregnated with lignin
Most are nonliving
Primary function is to support mature regions of the plant
Two types of sclerenchyma cells
Fibers
Sclereids

16. Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Tissues of Flowering Plants
Structure and Organization of Plants
Vascular Tissue
Xylem transports water and minerals from the roots to the leaves
Tracheids
Long, with tapered ends
Water moves across pits in end walls and side walls
Vascular rays between rows of tracheids conduct water across the width of the plant
Vessel Elements
Larger, with perforated plates in their end walls
Form a continuous vessel for water and mineral transport

17. Biology, 9th ed, Sylvia Mader
Chapter 25
Xylem Structure
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
vessel
element
vessel
element
tracheid
tracheids
perforation
plate
pitted
walls
xylem
parenchyma
cell
pits
50 mm
a. Xylem micrograph (left) and drawing (to side)
b. T wo types of vessels c. T
racheids
a: © J. Robert Waaland/Biological Photo Service

18. Tissues of Flowering Plants
Biology, 9th ed, Sylvia Mader
Chapter 25
Tissues of Flowering Plants
Structure and Organization of Plants
Vascular Tissue
Phloem transports sucrose and other organic compounds from the leaves to the roots
Sieve-tube members function as conducting cells
Contain cytoplasm, but lack nuclei
Sieve plate – cluster of pores in wall
Each sieve-tube member has a companion cell
Plasmodesmata connect the two
Companion cell contains a nucleus

19. Biology, 9th ed, Sylvia Mader
Chapter 25
Phloem Structure
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
sieve plate
sieve-tube
member
sieve-tube member
companion cell
companion
cell
sieve plate
nucleus
phloem
parenchyma
cells
20 mm
a. Phloem micrograph (left) and drawing (to side)
b. Sieve-tube member and companion cells
a: © George Wilder/Visuals Unlimited

20. 24.3 Organization and Diversity of Roots
Biology, 9th ed, Sylvia Mader
Chapter 25
24.3 Organization and Diversity of Roots
Structure and Organization of Plants
Root cap contains root apical meristem
Zone of cell division contains primary meristems
Zone of elongation contains cells that are lengthening and becoming specialized
Zone of maturation contains fully differentiated cells

21. Organization and Diversity of Roots
Biology, 9th ed, Sylvia Mader
Chapter 25
Organization and Diversity of Roots
Structure and Organization of Plants
Tissues of a Eudicot Root:
Epidermis - outer layer of root
Cortex – composed of parenchyma cells allowing water and minerals movement
Endodermis – forms a boundary between cortex and inner vascular cylinder
Casparian strip
Vascular Tissue - contains xylem and phloem
Pericycle – mitotically active and can begin development of branch or lateral roots

22. Biology, 9th ed, Sylvia Mader
Eudicot Roots
Chapter 25
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Vascular
cylinder
endodermis
pericycle
phloem
xylem
cortex
epidermis
root hair
50 µm
b. Vascular cylinder
phloem
Zone of
maturation
endodermis
water and
minerals
Casparian
strip
xylem of
vascular
cylinder
pericycle
Zone of
elongation
c. Casparian strip
procambium
ground
meristem
Zone of
cell division
protoderm
root apical meristem
protected by
root cap
root cap
a. Root tip
a: Courtesy Ray F. Evert/University of Wisconsin Madison; b: © CABISCO/Phototake

23. Organization and Diversity of Roots
Biology, 9th ed, Sylvia Mader
Chapter 25
Organization and Diversity of Roots
Structure and Organization of Plants
Monocot roots:
Ground tissue of root’s pith is surrounded by vascular ring
Have the same growth zones as eudicot roots, but do not undergo secondary growth
Have pericycle, endodermis, cortex, and epidermis

24. Organization and Diversity of Roots
Biology, 9th ed, Sylvia Mader
Chapter 25
Organization and Diversity of Roots
Structure and Organization of Plants
Primary root (taproot) - Fleshy, long single root, that grows straight down
Stores food
Fibrous root system - Slender roots and lateral branches
Anchors plant to soil
Adventitious roots - Roots develop from organs of the shoot system instead of the root system
Prop roots

25. Organization and Diversity of Roots
Biology, 9th ed, Sylvia Mader
Chapter 25
Organization and Diversity of Roots
Structure and Organization of Plants
Haustoria:
Found in parasitic plants
Rootlike projections that grow into host plant
Make contact with vascular tissue of the host plant and extract water and nutrients
Mycorrhizae:
Mutualistic associations between roots and fungi
Assist in water and mineral extraction
Root nodules
Contain nitrogen-fixing bacteria

26. Biology, 9th ed, Sylvia Mader
Stem Diversity
Chapter 25
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
rhizome
branch
axillary
bud
papery
leaves
adventitious roots
stolon
corm
node
axillary
bud
rhizome
adventitious
roots
tuber
adventitious roots
a. Stolon
b. Rhizome
c. Tuber
d. Corm
a: © The McGraw-Hill Companies Inc./Evelyn Jo Johnson, photographer; b: © Science Pictures Limited/Photo Researchers, Inc.; c: © The McGraw Hill Companies, Inc./Carlyn Iverson, photographer; d: © The McGraw Hill Companies, Inc./Carlyn Iverson, photographer

27. 24.5 Organization and Diversity of Leaves
Biology, 9th ed, Sylvia Mader
Chapter 25
24.5 Organization and Diversity of Leaves
Structure and Organization of Plants
Leaves contain:
Upper and lower epidermis
Waxy cuticle
Trichomes
Lower epidermis has stomata for gas exchange
Mesophyll
Eudicot leaves have
Palisade mesophyll containing elongated cells
Spongy mesophyll containing irregular cells bounded by air spaces
Contains many chloroplasts 27

28. Biology, 9th ed, Sylvia Mader
Chapter 25
Leaf Structure
Structure and Organization of Plants
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
trichomes
Water and minerals
enter leaf through xylem.
cuticle
upper epidermis
Sugar exits leaf
through phloem.
palisade
mesophyll
bundle sheath cell
air space
spongy
mesophyll
lower epidermis
cuticle
leaf vein
stoma
chloroplast
central vacuole
upper
epidermis
epidermal cell
nucleus
chloroplast
palisade
mesophyll
O2 and H2O
exit leaf
through stoma.
nucleus
leaf vein
guard cell
CO2 enters leaf
through stoma.
spongy
mesophyll
mitochondrion
stoma
lower
epidermis
Leaf cell
Stoma and guard cells
100 m
SEM of leaf cross section
© Jeremy Burgess/SPL/Photo Researchers, Inc.

29. Organization and Diversity of Leaves
Biology, 9th ed, Sylvia Mader
Chapter 25
Organization and Diversity of Leaves
Structure and Organization of Plants
Leaf Diversity
Blade of a leaf can be simple or compound
Leaves are adapted to environmental conditions
Shade leaves
Spines
Climbing leaves