plant tissues organs and systems

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    Created by
    Jacob Kopf

    Cards (17)

    • Epidermal tissue

      • Covers the entire plant
      • Has a waxy cuticle which helps reduce water loss from the leaf surface
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    • Palisade mesophyll tissue
      • Contains lots of chloroplasts which allows photosynthesis to progress at a rapid rate
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    • Spongy mesophyll tissue
      • Has lots of air spaces which allow gases (including oxygen and carbon dioxide) to diffuse in and out
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    • Xylem
      • Made up of dead cells which form a continuous hollow tube - allows the movement of water and mineral ions from the roots to the leaves
      • Strengthened by lignin - makes the vessel strong and waterproof
      • Has bordered pits - allow minerals to be transported to specific places
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    • Phloem
      • Made up of elongated living cells
      • Cells have sieve plates that connect them together - cell sap can move through plates into other cells
      • Sieve tube cells have few organelles to allow the efficient transport of substances
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    • Meristem tissue

      • Made up of stem cells which can differentiate into many different cell types, allowing the plant to grow
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    • Tissues in the leaf organ
      • Epidermis
      • Palisade mesophyll
      • Spongy mesophyll
      • Xylem
      • Phloem
      • Guard cells
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    • Guard cells
      Control the opening and closing of the stomata, according to the water content of the plant
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    • Stomata
      • Allow the control of gaseous exchange and water loss from the leaf
      • More stomata on the base of the leaf - minimises water loss as this side is cooler and shaded
      • Have guard cells which control their opening and closing
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    • Root hair cells
      • Allow the uptake of water and mineral ions from the soil
      • Large surface area - maximises rate of absorption
      • Contain lots of mitochondria -- release energy for active transport of mineral ions
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    • Translocation
      The movement of dissolved sugars from the leaves to other parts of the plant
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    • Transpiration
      The evaporation of water vapour from the surface of a plant
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    • How transpiration works
      1. Water evaporates from the leaf surface via the stomata
      2. Water molecules cohere together - more water is pulled up the xylem in an unbroken column
      3. More water is taken up from the soil - creating a continuous transpiration stream
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    • Increasing temperature

      Increases the rate of transpiration
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    • Increasing relative humidity
      Decreases the rate of transpiration
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    • Increasing wind speed/air movement
      Increases the rate of transpiration
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    • Increasing light intensity
      Increases the rate of transpiration
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