1. Plant Structure, Growth, & Development

2. The Diversity of Angiosperms Angiosperms (flowering plants) can be divided into 2 major categories:  Monocots – have one seed leaf (cotyledon)  Dicots – have 2 seed leaves (cotyledons)

3. Monocots Monocots have only 1 cotyledon (seed leaf) Examples of monocots:  Corn, wheat, lilies, orchids, palms

4. Dicots Dicots have 2 cotyledons (seed leaves) Examples of dicots:  Roses, clover, tomatoes, oaks, daisies

5. Woody vs. Herbaceous Plants Angiosperms can also be subdivided into the groups of woody and herbaceous plants  Woody plants are made of cells with thick cell walls that support the cell body Examples: trees, shrubs, vines  Herbaceous plants do not produce wood as they grow, and instead have smooth stems Examples: dandelions, sunflowers

6. Plant Life Spans Most plants experience indeterminate growth  They continue to grow as long as they live The lifespan of plants, however, is genetically determined  Annuals – complete their life cycle in 1 year Examples: marigolds, cucumbers (lots of garden plants)  Biennials - complete their life cycle in 2 years Year 1: germinate & grow roots Year 2: grow stems & leaves, produce flowers & seeds Examples: evening primrose, celery  Perennials – live for more than 2 years Examples: Maple trees, grasses, palm trees

7. Plant Structure Plants are made up of a root system and a shoot system

8. The Root System What do roots do?  Anchor the plant in the soil  Absorb minerals and water  Store food Types of root systems  Fibrous root system Found mostly in monocots  Taproot system Found mostly in dicots

9. How do roots grow? There are 3 distinct zones in a plant root where different things are taking place  Zone of cell division Includes the apical meristem Produces new cells by mitosis  Zone of elongation Cells get longer  Zone of maturation The cells differentiate and become specialized The root is protected by a root cap, which protects the apical meristem as the plant grows down into the soil

10. The Shoot System The shoot system consists of:  vegetative shoots (which bear leaves)  floral shoots (which bear flowers) Stems have 3 important functions:  Producing leaves, flowers, branches  Holding leaves up to the sunlight  Transporting substances between roots and leaves

11. How do stems grow? Primary growth  Increase in length  Occurs by cell divisions in apical meristem (at top of shoot) Secondary growth  Increase in width  Occurs by cell divisions in the lateral meristems (also known as vascular cambium)

12. Apical Meristems

13. The Shoot System: Leaves Leaves are attached to stems at nodes The area between 2 nodes is called an internode

14. The Shoot System: Leaves Leaves are the primary photosynthetic organs of most vascular plants Most leaves have a flattened blade and a petiole, which is the stalk that attaches the leaf to the stem

15. Tissue Systems in Plants All 3 plant organs (root/stem/leaf) have dermal, vascular, and ground tissue systems Dermal Tissue System  Outer protective covering, similar to our skin  Protects the plant from water loss and disease  The cuticle is a waxy coating that helps to prevent water loss

16. Tissue Systems in Plants Vascular Tissue System  Carries out long-distance transport of materials within the plant  Xylem and phloem are examples of vascular tissues Ground Tissue System  Pith (inside vascular tissue) and cortex (outside vascular tissue) are examples of ground tissue  Includes cells specialized for storage, photosynthesis, and support

17. Flower Structure Flowers are the reproductive structure of angiosperms Sepals:  Enclose the bud before it opens  Protect flower while it’s developing Petals:  Usually brightly colored to attract pollinators

18. Flower Structure Stamens:  The male portion of a flower  Made up of an anther and a filament  The anther produces haploid pollen grains by meiosis  Most flowers have multiple stamens

19. Flower Structure Carpels/Pistils:  The female portion of a flower  Stigma: Sticky – to trap pollen  Style: Hollow tube which connects stigma and ovary  Ovary: Produces female gametes (ovules)

20. Monoecious and Dioecious Species of Plants Monoecious  “one house”  Has both male and female flowers on a single plant Dioecious  “two houses”  Male and female parts are found on separate plants

21. Photosynthesis Plants transform carbon dioxide and water into carbohydrates and they release oxygen when light is present 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2 Carbon dioxide + water  sugar + oxygen

22. Photosynthesis Continued Plants also need chlorophyll in order for the reaction to proceed There are four pigments found in the chloroplast  Chlorophyll a (blue-violet)  Chlorophyll b (red)  Carotenes (orange)  Xanthophylls (yellow) Chlorophyll does not absorb the green part of the light spectrum, it is reflected back

23. The Visible Spectrum

24. The Chloroplast Light dependent (within the thylakoid membrane) Light independent or calvin cycle (in the stroma)

25. Photosynthesis

26. Electron Carriers A carrier molecule is a compound that can accept a pair of high-energy electrons NADP + (nicotinamide adenine dinucleotide phosphate) NADP + holds 2 electrons and a H + ion and is converted into NADPH NADPH can then be used elsewhere in the cell

27. Light Dependent Reactions

28. Light-Dependent Reactions Requires Light Requires chlorophyll Converts ADP to ATP Converts NADP + to NADPH Produces O 2

29. Light-Dependent Reactions Overview  Input 12 H 2 O + 12 NADP + +18 ADP +18P i  Produces 6 O 2 + 12 NADPH + 18 ATP

30. Calvin Cycle (Light Independent)

31. Calvin Cycle Input 6 CO 2 molecules Converts 18 ATP molecules to ADP Converts 12 NADPH molecules to NADP + Produces 1 glucose molecule and 6 ribolose bisphosphate (RuBP) to continue the cycle

32. Factors Affecting Photosynthesis A shortage of water  Desert plants have a waxy coating on their leaves to prevent water loss Temperatures outside the range 0°C to 35°C Intensity of the light will increase the rate of photosynthesis until the plant reaches its maximum