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• Study the chart on pg 239 for your different types of plants
• The seeded vascular plants include the angiosperms and gymnosperms
• Do you remember the difference between angiosperms and gymnosperms???
• In this unit we will be referring to angiosperms unless otherwise noted.
Dermal tissue
• Outer protective covering
• Single cell layer
• Root hairs are extensions of epidermal cells
• Most dermal tissue is covered by waxy cuticle which prevents water loss
xylem
– xylem is dead at maturity, only secondary cell wall remains
– Consist of 2 cell types, either vessel elements (wide/short) or tracheids (long, thin, tapered).
– carries water and minerals– Pits between cells allow water to flow through
phloem
• Carries sucrose through cells called sieve-tube members.
• Alive at maturity but lack nuclei, ribosomes and vacuoles.
• Companion cells lie adjacent and provide for sieve tube members via plasmodesmata
Ground tissue (3rd type!)
• Photosynthesis, support, storage
• “filler” tissue
• In dicots, center of stem is GT referred to as pith, outer stem GT is cortex.
Ground tissue made of 3 cell types
• Parenchyma – unspecialized cells. Lack secondary walls, have large central vacuole. Important in psyn and food storage. All plant cells begin as unspecialized parenchyma cells.
• Collenchyma – lack secondary walls but have thick primary walls. Form strands which support plant parts.
• Sclerenchyma – thick secondary walls w/ lignin (strength). Include fibers and sclerids
• All 3 types of tissue originate from meristematic tissue.
• Meristematic tissue retains the ability to divide.• If a meristematic cell divides one cell begins
differentiation (the derivative) and the other cell remains meristematic (the initials)
• Where would you expect to find meristematic cells in a plant?
Roots
• Obtain water and minerals• Anchor plant• May store food• Have a protective epidermis• Cortex conducts water from soil to interior
vascular tissue. May also store material• Endodermis surrounds vascular tissue• Vascular tissue
Shoot system
• Stem – alternating nodes (point of leaf attachment) w/ internodes in between.
• Axillary bud – at angle between leaf and stem
• Terminal bud – developing leaves and compacted nodes and internodes at tip of plant
• Apical dominance – when terminal bud inhibits growth of axillary bud.
Leaves
• Blade – flat, photosynthetic
• Petiole – stalk of leaf
monocots – leaves lack petiole, veins are parallel
dicots – leaves have netted venation, petiole.
Leaf Anatomy
• Covering of wax over epidermis. Stomata, tiny pores surrounded by guard cells permit gas exchange
• Mesophyll – parenchyma and ground tissue containing chloroplasts. 2 layers, spongy (air spaces) and palisade (lots of chloroplasts)
• A branch of the vascular bundle continues into petiole and divides in leaf blade, providing support and transport
Roots - 2 main types
• Taproot – one main vertical root with branch roots from main root
• Fibrous root – no main root. Roots are thinner and spread throughout soil. Good for preventing erosion
Root modifications
• Prop root – adventitious root growing from lower part of stem as a brace (corn)
• Storage root – parenchyma cells store carbohydrates and water (beet, carrot)
• Pneumatophore (air root) – extend above soil or water surface. Help with oxygen uptake (mangrove, cypress knee)
• Buttress root – at bottom of tree for stability (fig tree)
Stem Modifications
• Bulb – vertical underground stem with enlarged base for food storage (onion)
• Tuber – horizontal underground stem for starch storage (potato)
• Rhizome – horizontal stem just below surface for asexual reproduction (ginger)
• Stolon – horizontal above ground stem for asexual reproduction (strawberry)
Leaf Modifications
• Tendril – coil around objects for support (peas)
• Reproductive leaves – tiny plants form on leaf margins. Fall to ground and take root
• Bracts – AKA floral leaves. Surround flowers to attract pollinators.
• Spines – reduce water loss
Meristem – 2 types
• Apical meristem – found at tips of root and shoot. Produces primary tissue (non-woody) and primary growth (growth in length)
• Lateral meristem – produces secondary (woody) growth. 2 types:– Vascular cambium produces secondary xylem
and phloem (see next slide)– Cork cambium produces cork cells of outer
bark
Secondary Growth
• Wood is the accumulation of secondary xylem with lignified walls.
• Growth rings occur due to seasonal cycles of growth (dormant, fast growth, slow growth)
• In secondary growth epidermis splits and is replaced by tissue made by cork cambium which produces cork cells with suberin – impregnated walls. This layer is called periderm.
• Lenticels are splits in periderm through which gas exchange occurs.
• Bark = phloem + periderm
• In old trees, heartwood is old resin filled wood while sapwood is actively conducting
Auxins
• Plants have hormones too! • Auxins (a class of hormones) are found in
embryos (seeds), apical meristems and buds. They increase the flexibility of cell walls so shoots can bend toward light
• The auxin indoleacetic acid (IAA) collects on the side of the stem AWAY from the light causing that side to elongate and the plant to bend TOWARD light
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