Plant Form and Function Part 2 Flashcards
Ring of meristematic tissue that produces secondary xylem (wood) on its inner surface and secondary phloem on its outer surface
vascular cambium
Accumulated secondary xylem; contributes up to 90% of the weight of some plants
Wood
Lateral meristem that gives rise to periderm
Cork Cambium
Dermal tissue that consists of parenchyma, cork, and cork cambium; replaces epidermis on older stems and roots
Periderm
consists of all living and dead tissues outside the vascular cambium
Periderm and secondary phloem of a woody stem
Bark
Component of bark; waterproofs, insulates, and protects the surfaces of woody stems and roots
Cork
Plants obtain how many micro and macronutrients
9 macro
7 micro
Decaying organic matter in soil
Provides nutrients and retains water
Humus
Fungus-plant root partnerships; fungal hyphae increase surface area for absorption
help many plants take up nutrients
Mycorrhizae
Conversion of nitrogen gas to ammonia
Nitrogen fixation
Swellings of some plant roots that contain nitrogen-fixing bacteria
root nodules
Explanation of how transpiration creates a negative pressure (tension) that pulls a cohesive column of water upward through xylem, from roots to shoots
cohesion-tension theory
Evaporation of water from plant parts, mainly at stomata, into air
•Puts negative pressure (tension) on continuous columns of fluid that fill narrow xylem vessels
•Hydrogen bonds among water molecules (cohesion) keep the columns of fluid continuous
transpiration
- Waxy, waterproof secretion of epidermal cells that coats all plant surfaces exposed to air
- Blocks evaporation, but not light transmission
cuticle
•Gaps across the epidermis of leaves and other plant parts, defined by a pair of guard cells
stomata
