1. Week 3:

2. Key (6pts)  Create a dichotomous key for these shapes: circle, rectangle, hexagon, triangle Leaf Morphology (4pts)  1. This type of leaf has several blades per axillary bud. (simple/compound)  2. The space between nodes is described as this. (alternate/internode/opposite)  3. This term describes leaf margins that are smooth. (serrate/lobed/entire)  4. This type of venation has a hand-like pattern. (pinnate/palmate)

3. Key (6pts) 1. Create a dichotomous key for the following shapes: ellipse, triangle, rectangle, octagon Leaf Morphology (4pts) 2. This type of leaf has one blade per axillary bud. (simple/compound) 3. This term describes feather-like venation patterns. (palmate/pinnate) 4. In terms of leaf attachment to a branch, this term describes nodes that are offset. (whorled/alternate/opposite)

4.  Did you know?  Only 4-10% of career success is based on IQ.

5.  Stems and Leaves  Roots  The vascular tissue system  Big Idea: Identify gross anatomy of plant structures.

6.  Plant body is divided into two parts: root system and shoot system.  The shoot system contains: stems, leaves, and flowers.  Stems: alternating system of nodes (where leaves are attached).  Leaves: primary photosynthetic organ

7. I.Stems: Many unique characteristics can be used to identify deciduous species in the winter. Can determine age and leaf arrangement easily Buds are also key in identification

8. I.Stems: Herbaceous Eudicots: Vascular tissue develop in discreet bundles forming a ring at the stem periphery Xylem and Phloem separated by fascicular cambium within the bundles Separated by the interfascicular cambium between the bundles.

9. I.Stems: Herbaceous Eudicots:

10. I.Stems: Monocotyledons: Vascular tissue also in discreet bundles, but are either arranged in many rings or randomly scattered in the ground tissue.

11. I.Stems: Monocotyledons:

12. I.Stems: A.Morphology Terminal bud Leaf scar Bundle scars Node Internode Axillary bud Lenticels Bud scale scar.

15.  Leaf Morphology  Lamina: the blade (or leaf)  Petiole (attaches leaf to stem) or basal sheath (if sessile= without a stalk)  Simple or compound  Venation patterns (pinnate or palmate)  Axillary buds (present at nodes)

16. Simple vs. Compound Leaves

19.  3 Tissue systems:  Dermal (general function- protection)  Vascular (xylem and phloem, transport and support)  Ground (photosynthesis, storage, and support)

20.  Modified Leaves:  Spines: reduce water loss and help protect  Tendrils: support and attachment  Prickles and thorns: protection

21.  Modified Stems:  Stems normally grow above the ground but can be modified for diverse functions.  Vegetative propagation to food storage  Types of modified stems: tubers, stolons, rhizomes, and bulbs

22. Primary Root: Gymnosperms and Eudicots Taproot gives rise to lateral roots

23. Primary Root: Monocots Adventitious roots

24. Root Hairs absorb water and minerals Roots have large cortex (ground tissue) for storage of starch and other compounds The endodermis with casparian strip (impermeable to water) make it necessary for any substance entering the vascular system to enter via the endodermal protoplasts Center of the cylinder is filled with primary xylem, while the primary phloem is found between the ridges of xylem

27. Xylem and Phloem: Xylem: Carries water up the plant, which is facilitated via transpiration Phloem: Food conducting plant tissue

29.  Identify all of the structures from your laboratory manual on the plants and slides in the laboratory  Pg 36, 40, 42, 44, 46, 47, 48, 50, 52, 61, 63, 66  Make detailed pictures and notes

30.  Complete web assignment 2  Study for our next quiz, today’s material and pages 71-80 in the text.  Print off web assignment 3 (if available)