1. STRUCTURE AND FUNCTION OF PLANTS
CHAPTER 10

2. 10A Plant Structure What is a plant? Kingdom Plantae Botany Producers
Eukaryotic & multicellular
Tissues
Plastids
Cell walls & cellulose
Botany
Anatomy
Roots, stems, leaves
Nodes

3. 10A Plant Structure Roots Stems Leaves Root system Woody stems
Taproot system
Fibrous root system
Stems
Woody stems
Herbaceous stems
Turgor pressure
Leaves
Blade
Smooth, toothed, deeply lobed
Compound Leaf
Leaflets
Veins
Parallel, Palmate, Pinnate
Petiole
Arrangement
Alternate, Opposite, Whorled

4. 10A Plant Structure Plant identification Internal Structure
Shape and venation of a leaf, shape of its edge, and arrangement on the stem
Internal Structure
Two important characteristics to the survival of plants: cell walls & plastids
Cell Walls
Made of cellulose
Support and bear weight of the entire plant
Turgor pressure
Plastids
Chloroplasts
Chlorophyll
Other plastids (chromoplasts, gerontoplasts, leucoplasts, amyloplasts, proteinoplasts, elaioplasts)
Chromoplasts are what the name describes, a place for the pigments to be stored and synthesized in the plant. These are found in flowering plants, fruits, and aging leaves. The chloroplasts actually convert over to chromoplasts. There are carotenoid pigments here that allow for the different colors you see in fruits and the fall leaves. One of the main reasons for these structures and the colors is to attract pollinators.
Gerontoplasts are basically chloroplasts that are going through the aging process. These are chloroplasts of the leaves that are beginning to convert into different organelles or are being re-purposed, since the leaf is no longer utilizing photosynthesis (such as in the fall months).
Leucoplasts are the non-pigmented organelles. Unlike the others we have talked about, leucoplasts have no color at all. They are found in the non-photosynthetic parts of the plant, such as the roots. Depending on what the plant needs, they may become essentially just storage sheds for starches, lipids, and proteins. They are more readily used for synthesizing amino acids and fatty acids.
Leucoplasts are further subdivided into three different plastids:
Amyloplasts are the largest of the three and are charged with storing starch. Then there are the proteinoplasts that help to store the proteins that a plant needs and are typically found in seeds. Finally, the elaioplasts are used to store fats and oils that are needed by the plant, specifically in seeds.

5. 10A Plant Structure Plant Tissues Xylem Phloem Fibers Epidermis Bark
Heartwood
Sapwood
Phloem
Vascular bundles
Fibers
Epidermis
Cuticle
Bark
Vascular Cambium
Cork Cambium

6. 10B Plant Functions
Plants perform completely different that other organisms but they need they same things
Water Movement
Root epidermis
Root hairs
Xylem tissue
Osmosis
Transpiration
Epidermis covers leaves for protection
Stomata/Guard Cells release water vapor and gases
Water lost during transpiration is replaced by water in the xylem
Gas Exchange
Aerobic cellular respiration
Gas passes through the stomata in green parts of plants
In woody parts oxygen passes through lenticels in the bark
Underground, the thin root covering allows oxygen from the soil to pass
Plants underwater have spaces to allow for gas exchange

7. Transpiration

8. 10B Plant Functions Photosynthesis Sugar Occurs mostly in leaves
Palisade layer – lots of chloroplasts
Spongy layer – more air spaces, less chloroplasts
Sugar
Stored form of energy from sunlight
Pass sugar to other plant parts through the phloem
Some sugar molecules bond together to form cellulose
Stored as starch
stored by converting sugar to lipids

9. 10B Plant Functions Growth
Results in increased length and/or thickness
Growth areas?
What does a plant need for proper growth?
What also affects growth?
Environment
Hormones
Auxin
Can you name specific plants that use hormones for production?

10. 10C Plant Responses Tropisms Nastic Movements Photoperiodism
Positive tropism
Negative tropism
Phototropism
Thigmotropism
Gravitropism
Nastic Movements
changes in turgor pressure
Triggered by touch or light
Photoperiodism
Phytochromes
Short day plants
Long day plants
Day neutral plants