transport in plants three levels: –at cellular level –lateral transport (short-distance)...
Post on 20-Dec-2015
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Transport in Plants
• Three levels:– at cellular level– lateral transport (short-distance)– whole plant (long distance)
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Transport in Plants
Cellular Level:• Diffusion
– movement from an area of high concentration to an area of lower concentration
• Active transport
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Transport in Plants
Cellular Level:• Osmosis:
– passive transport of water across a semipermeable membrane
– In plants it depend on solute concentration and pressure (due to the cell wall)
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Transport in Plants
Cellular Level:• Water potential
– Addition of solutes lowers
– Increasing pressure raises
• Water moves from high water potential to low water potential
• Turgor pressure
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Figure 36.3 Water potential and water movement: a mechanical model
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Figure 36.4 Water relations of plant cells
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Figure 36.5 A watered tomato plant regains its turgor
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Transport in Plants
Lateral TransportHow water & dissolved minerals get into
roots...
• through the cells of the root
• along the extracellular pathway consisting of cell walls
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Figure 36.8 Mycorrhizae, symbiotic associations of fungi and roots
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Lateral transport of minerals and water in roots
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Casparian Strip
• A waxy material that surrounds endodermal cells – prevents material from crossing the endodermis
between cells
• Substances must enter the cells of the endodermis in order to pass into the vascular cylinder– Allows selectivity
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Transport in Plants
Long Distance Transport• Diffusion too slow
• Instead substances move by bulk flow – the movement of fluid due to pressure
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Xylem
• dead at functional maturity
• Only the cell walls remain to form tubes, connected by pores, through which water can move.
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Xylem
• Xylem sap brings minerals to leaves and water to replace what is lost by transpiration– Transpiration is the evaporation of water from
leaves or other aerial parts of the plant
• rates of >15 m per hour
• distances of 100m in the tallest trees.
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Movement of Xylem Sap
• Pushed or Pulled?
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Movement of Xylem Sap
Pushed…
• by root pressure– minerals actively pumped into the xylem– causes water to move in by osmosis – positive pressure is generated– When transpiration is low
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Figure 36.9 Guttation
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Movement of Xylem Sap
Pulled…
• by transpiration-cohesion
• Water is pulled out of the xylem to replace the water that is lost from leaves through stomata
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Movement of Xylem Sap
Pulled…
• transpiration pull is translated all the way to the roots by – cohesion– Adhesion
• Costs no energy to transport xylem sap up to leaves
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Phloem
• cells that are living at functional maturity
• Phloem sap consists primarily of sugar, primarily sucrose (30%) – hormones, amino acids, minerals
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Phloem Sap
• Direction of flow in phloem is variable
• Bulk Flow or Mass Flow Hypothesis
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Phloem Sap
• flows from sugar sources– where sugar is produced by photosynthesis or
the breakdown of starch– Leaves, storage organs
• to sugar sinks– that consume sugar– non green plant parts, growing shoots and roots,
fruits
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Phloem Sap
• sugars are actively loaded into phloem at the source– water follows and there is a high pressure
• sugars are actively transported out of the phloem at the sink– water follows and pressure is lower
• sap flows from high to low pressure
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Eudicot Root
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