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Sample exam questions |
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Monocotyledons, Dicotyledons |
Dermal Tissue |
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Root |
Epidermis, cuticle |
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Taproot, Fibrous Root, Adventitious Root |
Root hairs |
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Shoot |
Stomata, guard cells |
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Indeterminate growth |
Meristematic tissue |
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Node, internode |
Primary or apical meristems |
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Leaf |
Rootcap |
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Blade, petiole |
Division, elongation, differentiation |
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Axillary bud |
Protoderm, Procambium, Ground meristem |
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Stem |
Stele, Vascular bundles |
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Tubers, rhizomes, stolons |
Pericycle |
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Tendrils, bulbs, bracts, spines |
Cortex, pith |
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Ground tissue |
Endodermis |
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Parenchyma |
Leaf primordia |
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Collenchyma |
Mesophyll: palisade, spongy |
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Sclerenchyma |
Secondary (lateral) meristems, Vascular cambium |
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Fibers, slcereids |
Heartwood, sapwood |
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Vascular tissue |
Growth rings |
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Xylem |
Cork cambium |
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Tracheids, vessel elements |
Periderm: cork, phelloderm |
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Phloem |
Lenticels |
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Sieve tubes, companion cells |
What advantage to plants is it to have indeterminate growth?
How can you tell if what looks like a leaf is really a leaf or a stem?
Why do we see very few woody monocots?