Plants.
description
Transcript of Plants.
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Plants.
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• ROOT– root tip– root hairs
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Roots • Roots anchor plant in soil, absorb
minerals & water, & store food– fibrous roots (1)
• mat of thin roots that spread out– tap roots (2)
• 1 large vertical root • also produces many small lateral,
or branch roots – root hairs (3)
• increase absorptive surface area
2
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• ROOT– root tip– root hairs
• STEM– nodes
• internodes– buds
• terminal or apical buds• axillary buds• flower buds & flowers
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• ROOT– root tip– root hairs
• STEM– nodes
• internodes– buds
• terminal or apical buds• axillary buds• flower buds & flowers
• LEAVES– mesophyll tissue– veins (vascular bundles)
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Leaves• Function of leaves
– photosynthesis• energy production• CHO production
– gas exchange– transpiration simple vs. compound
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Nutritional needs– plants need…
• sun as an energy source• inorganic compounds
as raw materials– water (H2O)– CO2
– minerals
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Macronutrients• Plants require these nutrients in
relatively large amounts– C, O, H, N, P, K, Ca, Mg, S
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Micronutrients• Plants require in very small amounts
– Cl, Fe, Mn, Bo, Zi, Ni, Mb– primarily cofactors for enzyme function
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Transport in plants• H2O & minerals
– transport in xylem – transpiration
• evaporation, adhesion & cohesion
• Sugars– transport in phloem– bulk flow
• Calvin cycle in leaves loads sucrose into phloem
• Gas exchange– photosynthesis
• CO2 in; O2 out• stomates
– respiration• O2 in; CO2 out• roots exchange gases within air spaces in soil
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Water & mineral absorption
• Water absorption from soil– osmosis – aquaporins
• Mineral absorption– active transport– proton pumps
• active transport of H+
H2O
root hair
aquaporin
proton pumps
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Mineral absorption
• Proton pumps– active transport of H+ ions out of cell
• chemiosmosis• H+ gradient
– creates membranepotential• difference in charge• drives cation uptake
– creates gradient• cotransport of other
solutes against theirgradient
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Water flow through root
• Porous cell wall– water can flow through cell wall route & not
enter cells – plant needs to force water into cells
Casparian strip
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Transport of sugars in phloem• Loading of sucrose into phloem
– proton pumps• cotransport of sucrose into cells down proton
gradient