Chapter 25 The Shoot: Primary Structure and Development - PowerPoint PPT Presentation

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Chapter 25 The Shoot: Primary Structure and Development

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Shoot apical meristem. produces new cells, leaf and bud primordia ... Apical meristem gives rise to. protoderm originates from tunica (L1) ... – PowerPoint PPT presentation

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Title: Chapter 25 The Shoot: Primary Structure and Development


1
Chapter 25The Shoot Primary Structure and
Development
2
Outline
  • Intro
  • Origin and growth of 1 tissues of the stem
  • 1 structure of the stem
  • Relation btwn vascular tissues of stem and leaf
    morphology and leaf structure
  • Grass leaves
  • Development of the leaf
  • Leaf abscission
  • Transition btwn vascular systems of root and
    shoot
  • Development of the flower
  • Stem and leaf modifications

3
Intro
  • 1 tissues arise from shoot apical meristem
  • Shoot stem leaves
  • aboveground portion of plant
  • 1 func. of stems
  • support, conduction
  • 1 func. of lvs
  • Ps
  • Terms
  • node
  • internode
  • bud
  • leaf

4
Primary Tissues
  • Shoot apical meristem
  • produces new cells, leaf and bud primordia
  • pattern of repeated units (phytomeres)
  • leaf primordia develop into lvs
  • bud primordia develop
    into lateral shoots
  • Stem length due to
    cell elongation

5
Tissue Organization
  • Vegetative shoot apex has tunica-corpus
    organization
  • difference btwn tunica and corpus is plane of
    cell division
  • tunica outermost layer of cells, divide
    anticlinally
  • anticlinal division perpendicular to meristem
    surface
  • ? cells on surface
  • corpus cells beneath tunica, divide anti- and
    periclinally
  • periclinal division parallel to meristem
    surface
  • add bulk to shoot
  • L1 - outer
  • L2
  • L3 - inner

6
Tissue Organization
  • Central mother cell zone area of few divisions
  • similar to quiescent center
  • part of corpus
  • Peripheral zone peripheral meristem
  • ring around mother zone
  • Pith meristem beneath central mother zone

7
Tissue Origins
  • Apical meristem gives rise to
  • protoderm originates from tunica (L1)
  • procambium originates from peripheral meristem
    (tunica and corpus)
  • ground meristem originates from peripheral and
    pith meristems
  • Apical meristem produces leaf primordia, nodes,
    and internodes
  • packed in buds
  • growth occurs via intercalary meristem
  • area btwn nodes
  • internodal elongation
  • protoX and protoP form
  • stem thickening during 1 growth due to
    periclinal divisions cell enlargement

8
Vascular System Organization
  • 3 types of organization of vascular system
  • continuous cylinder in ground tissue (eudicots)
    (Tilia)
  • cylinder of discrete bundles separated by ground
    tissue (eudicots) (Sambucus, Medicago,
    Ranunculus)
  • bundles scattered or in ring of ground tissue
    (monocots herbaceous eudicots) (cortex and pith
    not distinct) (Zea)

9
(No Transcript)
10
1 Structure of Stems
  • Tilia (basswood)
  • almost continuous cylinder of 1 vascular tissue
  • bundles separated by thin regions of parenchyma
    (interfascicular parenchyma)
  • connect cortex and pith
  • (inter btwn, intra across, fascicle
    bundle)
  • epidermis 1 cell thick, few stomata
  • procambium produces 1 P outside, 2 X inside, VC
    btwn
  • 1 P fibers form in 1 P

11
1 Structure of Stems
  • Sambucus (elderberry)
  • wide interfascicular area (pith rays)
  • thus discrete bundles
  • procambial strands differentiate into X and P
  • protoX and protoP

    first-formed
    X and
    P
  • X and P stretched
    during stem

    elongation
  • destroyed
  • Interfascicular
    fascicular
    cambiums

12
1 Structure of Stems
  • Medicago (alfalfa)
  • herbaceous (non-woody)
  • VC derived from procambium (fascicular) and
    interfascicular parenchyma
  • Ranunculus (buttercup)
  • vascular bundles similar to monocots
  • after 1 X and P mature, procambium disappears
  • thus no VC
  • thus no potential for later growth (closed)
  • vs. open bundles produce VC

13
1 Structure of Stems
  • Zea (corn, monocot)
  • vascular bundles scattered
  • closed

14
1 Structure of Stems
  • stages of vascular bundle differentiation
  • schlerenchyma sheath covering when mature

15
Vascular Tissue Connections
  • Procambium arises behind apical meristem
  • mature upward as stem grows
  • outward as leaf develops
  • continuum btwn leaf and stem
  • At each node
  • vascular bundles diverge from vascular cylinder
    into leaf
  • leaf trace extensions of vascular
    system in stem that
    go to leaf
  • leaf trace gap gap in vascular
    cylinder above leaf
    trace
  • branch trace extensions of
    vascular system
    in stem that
    go to branch
  • branch trace gap gap in
    vascular cylinder
    above branch trace

16
Pattern of Leaf Arrangement
  • Phyllotaxy arrangement of lvs on stem
  • alternate 1 leaf per node
  • spiral most common
  • two opposite ranks distichous
  • opposite 2 leaf per node
  • pairs are right angles to previous and following
    pairs decussate
  • whorled 3 lvs per node
  • Hypotheses
  • field hypothesis of phyllotaxy
  • physiological field surrounding leaf primordia
    inhibits initiation of new primordia
  • first available space hypothesis
  • primordia arise in first available space
  • biophysical force hypothesis
  • primordia arise when tunica surface
    bulges/buckles due to pressure
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