9.1 Transport Systems in Dicotyledonous Plants

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    nira

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    • Why do plants need transport systems to suit their size?

      to move substances both up and down from the tip of the roots to the topmost leaves and stems
    • What are dicotyledonous plants (dicots)?

      make seeds that contain 2 cotyledons
    • What are cotyledons?

      organs that act as food stores for developing embryo plant and form first leaves when seed germinates
    • What are woody dicots also known as?

      arborescent dicots
    • What is the vascular system in plants?

      series of transport vessels running through the stem, roots and leaves
    • In herbaceous dicots, what is the vascular system made up of?

      xylem and phloem
    • What are vascular bundles?

      transport tissues arranged together in the leaves, stems and roots of herbaceous dicots
    • The pattern of vascular tissue is easily recognised and is shown in transections
    • Why do multicellular plants have transport systems?

      metabolic demands, size, surface area to volume ratio
    • Why do plants need transport systems to suit their surface area to volume ratio?

      small surface area to volume ratio so can't rely on diffusion to supply their cells
    • What are the 2 types of dicots?

      herbaceous and woody
    • Features of herbaceous dicots?

      soft tissues, relatively short life cycle
    • Features of woody dicots?

      hard lignified tissues, long life cycle
    • Why do plants need transport systems to suit their metabolic demands?

      cells of green parts of plant photosynthesise but many parts don't so need oxygen and glucose transported to them + waste products of cell metabolism removed -> also hormones and mineral ions
    • TS stem of young herbaceous plant
      A) epidermis
      B) cortex
      C) phloem
      D) xylem
      E) vascular bundle
      F) parenchyma
      G) (packing and supporting tissue)
    • TS root of young herbaceous plant
      A) root hair
      B) exodermis
      C) epidermis
      D) endodermis
      E) xylem
      F) cortex
      G) phloem
    • TS dicot leaf
      A) palisade mesophyll
      B) main photosynthetic tissue
      C) vascular bundle
      D) xylem
      E) phloem
      F) midrib leaf
    • Describe vascular bundle arrangement in the stem
      around the edge to give strength and support
    • Describe vascular bundle arrangement in the roots
      in the middle to help the plant withstand tugging strains as stems + leaves are blown in the wind
    • Describe vascular bundle arrangement in leaf
      midrib of dicot is main vein carrying vascular tissue through organ - also helps support structure of leaf - small branching veins spread for transport and support
    • Is xylem living or non-living?
      non-living
    • What are the 2 main functions of xylem?

      transport of water and mineral ions, support
    • What is the flow of materials in the xylem?

      up from the roots to the shoots and leaves
    • Describe the structure of xylem cells
      long, hollow structures made by several columns of cells fusing together end to end
    • What are the 2 tissues associated with xylem?

      parenchyma and tannin
    • What does parenchyma do in the xylem?

      packs around the xylem, storing food and containing tannin deposits
    • What is tannin?

      bitter astringent-tasting chemical that protects plant tissues from attack by herbivores
    • What do lignified secondary walls do in xylem fibres?

      provide extra mechanical strength but do not transport water
    • What are the different ways lignin can be laid down in the walls of xylem vessels?
      rings, spirals, relatively solid tubes with lots of small unlignified areas
    • What are bordered pits?

      small unlignified areas
    • What happens at bordered pits?

      water leaves the xylem and moves into other cells of the plant
    • Where do the spirals of lignin run in the xylem?

      around the lumen of the xylem
    • What does lignin do in xylem vessels?

      helps reinforce xylem vessels, so don't collapse under transpiration pull
    • LS xylem vessel
      A) hollow tube
      B) (no cytoplasm)
      C) thick lignified wall
      D) non-lignified pit
      E) region where end cell wall has been lost
    • TS xylem vessel
      A) lignified cell wall
      B) xylem parenchyma
      C) lumen of xylem vessel
    • Spirals of lignin in xylem
    • Is phloem living or non-living?
      living
    • What does phloem transport?
      food in the form of organic solutes around the plant from the leaves where they are made by photosynthesis
    • What does the phloem supply the cells with and why?
      sugars and amino acids needed for cellular respiration and for the synthesis of other useful molecules
    • What is the flow of materials in the phloem?
      both up and down the plant
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