1. Plant Structure, Growth & Development
Packet #35
Chapters #35 & #38

2. The Plant Body

3. Introduction Genes and the environment affect plant structure.
Plants exhibit structural responses to their specific environment.
Plasticity
Explains why no two plants are identical.
Mangroves and cacti

4. Introduction II
Plants are multi-cellular, have organs that are composed of different tissue (previously covered), and tissue which are composed of different cell types (previously covered).

5. Roots, Stems & Leaves

6. Introduction
The basic morphology of plants reflects adaptations that have developed so that an organism can inhabit and obtain resources from soil and air.
Two systems
Subterranean root system
Aerial root system
Stems and leaves
Neither system is independent of the other

7. Introduction II Most absorption occurs near the root tips
Vast number of root hairs found
Increase the surface area of the root
Extensions of epidermal cells
Previously covered
Adventitious tissue is any tissue that grows in an atypical location
Roots that develop out of above ground stems or leaves are called adventitious roots
Provide additional support for taller plants.

8. Root System
Roots are generally underground, obtains water and dissolved nutrient minerals for the plant and stores food.
Anchors the plant firmly in place.
Fibrous root systems
Observed in seedless vascular plants and most monocots.
Mats of thin roots that spread out through the soil
Grasses and mangroves

9. Root System Taproot System Make up many eudicots and gymnosperms
Consist of one large vertical root that produces many smaller lateral or branch roots
Firmly anchors the plant in the soil
Some store food (starch) that can be consumed by the plant when the plant is fruiting or flowering
Most tree species

10. Modified Roots

11. Modified Roots I Prop Roots Buttress Roots
Develop from branches, or a vertical stem and grow downward into the soil to help support certain plants in an upright position
Fichus tree South Florida?
Buttress Roots
Swollen bases or braces that support certain tropical rainforest trees that have shallow root systems

12. Modified Roots II Pneumatophores Contractile Roots
Aerial “breathing” roots that may assist in getting oxygen to submerged roots
Contractile Roots
Roots that grow into the soil and then contract
Pulling plant deeper into the soil
Corms
bulbs

13. Mutualistic Relationship Between Roots & Other Organisms

14. Relationships Mycorrhizae Root nodules Root Graft
Mutually beneficial associations between roots and soil fungi
Root nodules
Swellings that develop on roots of legumes and house millions of rhizobia (nitrogen fixing bacteria)
Root Graft
Natural connection between the roots of trees belonging to the same or different species.

15. Shoot System

16. Introduction I Shoots consist of stems and leaves Vegetative
Leaf bearing
Reproductive
Flower bearing

17. Stems Stem Alternating system of nodes Internodes Auxiliary Bud
Locations where the leaves are attached
Internodes
Stem segments between nodes
Auxiliary Bud
Angle, or axil, formed by each leaf of the stem
Has the potential to form a branch
Most though are dormant

18. Stems II
Growth of a young shoot is usually concentrated at its apex (tip), where there is a terminal bud with developing leaves and a compact series if nodes and internodes
The presence of terminal bud prohibits the growth of the axillary bud
Apical dominance
“evolutionary response that directs growth toward light

19. Modified Stems Stolons/Runners Rhizomes Tubers Bulbs
Grow on the surface of the ground
Increase surface area
Can colonize asexually if plant is fragmented
Strawberry
Rhizomes
Horizontal stems that grow underground
Ginger
Tubers
Swollen ends of rhizomes specialized for storing food
Potato
Bulbs
Vertical, underground shoots consisting mostly of swollen bases of leaves that store food
onions

20. Leaves The main photosynthetic organ
Consist of a flattened blade and a petiole
Stalk
Joins the leaf to the node on the stem
Leaves are in various sizes, shapes and arrangement of leaves.

21. Differences Between Plant & Animal Growth

22. Differences Between Plant & Animal Growth
Growth in plants, unlike animals, is localized in specific regions called meristems, and involves three processes
Cell division
Cell elongation
Cell differentiation
Plant growth is not limited to an embryonic period
Most plants have indeterminate growth

23. Life Cycles

24. Life Cycles Annuals Biennials Perennials
Complete their life cycle from germination to flowering and seed production and death in one year or less
Wildflowers
Biennials
Live for two years
There is a dormant period between vegetative growth and flowering
Carrots
Beets
Perennials
Long lived plants and include trees, shrubs and some grasses.

25. Indeterminate Growth Unrestricted growth in stems and growth
This pattern of growth depends in the location of the meristems
Meristems are regions of undifferentiated, embryonic cells. Initially, the cells are totipotent and can differentiate/mature into any other type of cell.
Apical meristems
Responsible for primary growth
Located at the tips of roots, shoots and within the buds of stems

26. Indeterminate Growth Lateral meristems
Cylinders of dividing cells that extend along the length of the roots and shoots provide for an increase in girth
Responsible for secondary growth
Vascular cambium
Cork cambium

27. Primary vs. Secondary Growth

28. Primary Growth Increase in stem or root length Occurs in all plants
Restricted to the youngest part of the plant.

29. Primary Growth Fig 34.12 Fig 35.15 Primary Growth of Root
Primary Growth of Shoot

30. Secondary Growth Increase in stem or root girth
Typically occurring in long cylinders of meristematic cells throughout the length of older stems and roots
Occurs in all gymnosperms, most eudicots and rarely in monocots.

31. Secondary Growth II Lateral Meristems
Vascular cambium
Produces secondary xylem (wood) and secondary phloem
Secondary xylem
Interior
Secondary phloem
Exterior
Cork Cambium
Produces thick, tough covering (cork cells) for stems and roots that replace the epidermis
Recall what wood is composed of?
Tracheids
Vessel elements
Fibers

32. Primary growth in stems Secondary growth in stems
An overview of primary and secondary growth
Figure
In woody plants,
there are lateral
meristems that
add secondary
growth, increasing
the girth of
roots and stems.
Apical meristems
add primary growth,
or growth in length.
Vascular
cambium
Cork
Lateral
meristems
Root apical
Primary growth in stems
Epidermis
Cortex
Primary phloem
Primary xylem
Pith
Secondary growth in stems
Periderm
Primary
phloem
Secondary
Vascular cambium
xylem
Shoot apical
(in buds)
The cork
cambium adds
secondary
dermal tissue.
The vascular
xylem and
phloem.