transport in plants

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    holly

    Cards (46)

    • Plants require a transport system to ensure all plant cells receive sufficient nutrients
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    • Xylem tissue enables water and dissolved minerals to travel up the plant in the passive process of transpiration
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    • Phloem tissue enables sugars to reach all parts of the plant in the active process of translocation
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    • Vascular bundle in the roots:
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    • Xylem and phloem are components of the vascular bundle for transport of substances and structural support
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    • Xylem vessels are arranged in an X shape in the centre of the vascular bundle for mechanical support
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    • Endodermis surrounds the X shape arrangement of xylem vessels to supply them with water
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    • Pericycle, an inner layer of meristem cells, is present in the vascular bundle
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    • Vascular bundle in the stem:
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    • Xylem is inside in non-wooded plants for support and flexibility
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    • Phloem is found on the outside of the vascular bundle
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    • Cambium layer between xylem and phloem consists of meristem cells for new tissue production
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    • Vascular bundle in the leaf:
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    • Vascular bundles form midrib and veins of a leaf
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    • Dicotyledonous leaves have a network of veins for transport and support
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    • Xylem vessels:
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    • Transport water and minerals, provide structural support
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    • Long cylinders made of dead tissue with open ends, can form a continuous column
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    • Contain pits for water to move sideways, thickened with lignin for flexibility
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    • Water flows only upwards
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    • Phloem vessels:
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    • Tubes made of living cells, involved in translocation of nutrients
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    • Consist of sieve tube elements and companion cells
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    • Sieve tube elements transport sugars like sucrose in sap, can move upwards or downwards
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    • Companion cells aid in ATP production for loading sucrose into sieve tubes
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    • Cytoplasm of sieve tube elements and companion cells linked through plasmodesmata for communication and substance flow
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    • Transpiration:
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    • Process where plants absorb water through roots, move it up the plant, and release it as water vapor through leaves
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    • Transpiration stream supplies water for photosynthesis, growth, and elongation
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    • Involves osmosis, evaporation, and diffusion of water vapor
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    • Rate can be measured with a potometer
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    • Xerophytes:
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    • Plants adapted to dry conditions with adaptations to minimize water loss
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    • Adaptations include smaller leaves, densely packed mesophyll, thick waxy cuticles, closed stomata, hairs, and pits to trap moist air
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    • Hydrophytes:
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    • Plants living in water with adaptations like thin waxy cuticles, many open stomata, wide flat leaves, air sacs, and large air spaces for buoyancy
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    • Movement of water in the root:
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    • Water enters through root hair cells and moves into xylem tissue due to a water potential gradient
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    • Root hair cells provide a large surface area for water movement, minerals absorbed by active transport
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    • Water can move via symplast or apoplast pathways, encountering Casparian strip in the endodermis
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