1. Roots, Stems, and Leaves

2. Roots, Stems, and Leaves
Three of the principal organs of seed plants are roots, stems, and leaves.
Together these plant organs function in:
Transport
Protection
Coordination of plant activities

3. Plant Tissue Systems
Each part of a plant consists of 3 types of tissue:
Dermal tissue
Vascular tissue
Ground tissue

4. Dermal Tissue The “skin” of a plant
contains a “waxy” layer called a cuticle
Functions to prevent water loss

5. Vascular Tissue Plants “bloodstream”
Transports water and nutrients throughout the plant.
Made of Xylem and Phloem

6. Xylem XYLEM = 5 letters WATER = 5 letters Water moving tissue
The xylem is part of the vascular system of a plant. Similar to veins and arteries in animals.
It also provides stability to the plant through turgor pressure.
Damage to the xylem would effect how well the plant could move water throughout its tissue and it may not be able to support the weight of the leaves and branches (with decreased pressure).

7. Phloem PH- loem : F- ood Food transport tissue.
Transports solutions of nutrients and carbohydrates
Damage to the phloem can decrease or stop the flow of nutrients throughout the plant and cause all or part of the plant to die.

8. Nutrient Transport through Phloem
Using the Phloem, many plants pump sugars out of the leaves and roots and into their fruit.

9. Ground Tissue Cells that lie between dermal and vascular tissue
Made of cells whose cell walls have different thicknesses

10. Meristematic Tissue Just like our cells do!
The only plant tissue that produces new cells by mitosis
Located at the tips of stems and roots
Apical Meristem - increase plant length
Cells start out alike but then differentiate
Just like our cells do!

11. Roots
Two main types:
Taproots – The taproot and its lateral roots penetrate deeper into the soil than fibrous roots. Found mainly in dicots.
Fibrous roots usually do not penetrate the soil very deeply. Because their roots attach themselves firmly to soil particles, plants with fibrous root systems are especially useful in preventing soil erosion. Found mainly in monocots.

12. Root Structure and Growth
The root’s surface is covered with cellular projections called root hairs. Root hairs provide a large surface area through which water and nutrients can enter the plant.
Root hairs
A root consists of a central vascular cylinder surrounded by ground tissue and the epidermis. Root hairs along the surface of the root aid in water absorption. 12

13. Root Function 1. Anchor a plant 2. Absorb water
3. Absorb dissolved nutrients

14. Root Functions Minerals enter the roots through active transport.
Water enters by osmosis
Root hairs
Roots absorb water and dissolved nutrients from the soil. Most water and minerals enter a plant through the tiny root hairs.
Active transport
of minerals
Movement of
water by osmosis 14

15. Examples of Root Vegetables
Carrot
Sweet Potato
Parsnip
Radish
Ginger
A root consists of a central vascular cylinder surrounded by ground tissue and the epidermis. Root hairs along the surface of the root aid in water absorption. 15

16. Stems- Functions Produce leaves, branches and flowers
Hold leaves up in the sunlight
Transport various substances between roots and leaves

17. Examples of Stem Vegetables
Asparagus
Rhubarb
Bamboo
Celery

18. Leaves
The structure of a leaf is optimized for absorbing light and carrying out photosynthesis.
The leaves and stems together form shoots.

19. Example of Leaf Vegetables
Lettuce
Spinach
Cabbage
Basil
Brussel Sprouts
Broccoli

20. Why don’t Plants dry out in the sun?
Stomata are pore-like openings in the underside of the leaf that allow carbon dioxide and oxygen to diffuse into and out of the leaf.
Plants keep their stomata open just enough to allow photosynthesis to take place but not so much that they lose an excessive amount of water through transpiration.
Transpiration is the evaporation of water through plant leaves.
The stomata open and close in response to changes in water pressure within the guard cells.
When it is dry, the stomata are closed.
When there is enough water the stomata are open

21. Monocots vs Dicots

22. Transport in Plants
Root pressure – the starting point for the movement of water through the vascular system of the plant.
Capillary Action – The tendency of water to rise in a thin tube.
Transpiration – loss of water through a plant’s leaves.
All work together to move water through xylem tissue of even the tallest plant.

23. Transport in Plants
The ability of a liquid to flow in narrow spaces without the assistance of, and in opposition to external forces like gravity. Paper towels absorb liquid through capillary action, allowing a fluid to be transferred from a surface to the towel. The small pores of a sponge act as small capillaries, causing it to absorb a comparatively large amount of fluid. Some modern sport and exercise fabrics use capillary action to "wick" sweat away from the skin.
Video?
Water Transport (3:14)

24. BRAIN POP-Plant Growth (3:20)
Amoeba Sisters (8:40)
Amoeba Sisters