Transport in plants

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    Created by
    Megan Eaglesfield

    Cards (65)

    • Dicotyledonous plant - plants with two seed leaves and a branching pattern of veins in the leaf
    • Endodermis - sheath of cells that surrounds the vascular bundle
    • Pericycle - a layer of meristem cells just inside the endodermis
    • In woody plants, vascular bundles become continuous rings which provide strength and flexibility
    • Between the xylem and phloem is a layer of cambium tissue made up of meristem cells
    • Xylem vessel walls are impregnated with lignin to make them waterproof and prevent them from collapsing
    • Xylem vessels are narrow so they do not break easily and to create effective capillary action
    • Lignin is deposited in patterns that allow the xylem to stretch as the plant grows and allows the stem to bend
    • Bordered pits - incomplete lignification to allow the movement of water between adjacent vessels and into the living parts of the plant
    • Xylem are empty
    • Assimilates - sucrose and amino acids
    • Phloem is made up of sieve tube elements, companion cells and sieve plates
    • The sieve tube elements contain no nucleus and very little cytoplasm to allow mass movement of sap
    • Sieve plate - a perforated cross wall that supports the phloem and deposition of callose blocks pores when the plant is infected
    • Companion cells have a large nucleus, dense cytoplasm and many mitochondria for active processes
    • Vascular tissue - cells specialised for transporting fluids by mass flow
    • Plasmodesmata - junction at which the cytoplasm of one cell is connected to that of another cell through gaps in the cell walls
    • Apoplast pathway - water moves through spaces in cell walls and between cells by mass flow
    • Symplast pathway - water moves through the plasma membrane and enters the cytoplasm, passing through the plasmodesmata
    • Vacuolar pathway - similar to the symplast pathway but water is able to pass through the vacuoles
    • Water potential is always -ve in plants
    • Pressure potential - water inside a cell starts to exert pressure on the cell wall and reduces the influx of water
    • Plasmolysis - plant cell loses water and membrane loses contact with the cell wall, causing a flaccid tissue
    • Transpiration - The loss of water vapour from the stomata of a plant
    • Transpiration stream - the movement of water from the roots to the leaves through the xylem
    • In high light intensity, stomata open
    • The apoplast pathway is blocked by the Casparian strip
    • Water in the apoplast pathway must enter the symplast pathway to be transported to the rest of the plant
    • The casparian strip is located in the cell wall of the endodermis of vascular bundles
    • Mineral ions are actively transported from the soil to make water potential more negative so that water follows by osmosis
    • Root pressure pushes water up the stem
    • Transpiration pull - cohesion between water molecules causes the stream to be pulled up as one column when water evaporates from the leaf. This causes tension in the xylem
    • The cohesion tension theory relies on a plant maintaining an unbroken column of water all the way up the xylem
    • Adhesion - hydrogen bonds attract the water to the walls of the xylem, which pulls the water up the sides of the vessel
    • Source - a part of a plant that loads materials into the transport system
    • Sink - a part of a plant that removes materials from the transport sysytem
    • Sucrose is loaded in the sieve tube by an active process
    • Cotransporter proteins - only allow the movement of H+ ions if accompanied by a sucrose molecule
    • The flow of sap is caused by a difference in hydrostatic pressure
    • Sap flows from the source to the sink