Chapter 23: Plant Structures Roots, Stems, Leaves - PowerPoint PPT Presentation

About This Presentation
Title:

Chapter 23: Plant Structures Roots, Stems, Leaves

Description:

Chapter 23: Plant Structures Roots, Stems, Leaves A. 4 MAJOR PLANT ORGANS (ANGIOSPERMS) 1. LEAF PHOTOSYNTHESIS 2. STEM TRANSPORT, SUPPORT OF LEAVES & FLOWERS ... – PowerPoint PPT presentation

Number of Views:413
Avg rating:3.0/5.0
Slides: 23
Provided by: faXc
Category:

less

Transcript and Presenter's Notes

Title: Chapter 23: Plant Structures Roots, Stems, Leaves


1
Chapter 23 Plant StructuresRoots, Stems, Leaves
2
A. 4 MAJOR PLANT ORGANS (ANGIOSPERMS)
  • 1. LEAF? PHOTOSYNTHESIS
  • 2. STEM? TRANSPORT, SUPPORT OF LEAVES FLOWERS,
    STORAGE (STARCH)
  • 3. ROOT? ABSORPTION OF WATER AND MINERALS,
    ANCHORAGE, STORAGE,
  • SYNTHESIS OF PROTEINS (RESPIRATION)
  • 4. FLOWER? SEXUAL REPRODUCTION (RESPIRATION)

3
B. TRANSPORT SYSTEM
  • 1. ORGANIC NUTRIENTS? PHLOEM
  • 2. WATER MINERALS? XYLEM
  • 3. GASES
  • 4. WASTES

4
NUTRIENT CELLS MECHANISM RESPONSIBLE
1. ORGANIC NUTRIENTS (GLUCOSE/ SUCROSE) PHLOEM? ALIVE SIEVE TUBES COMPANION CELLS BULK-FLOW HYPOTHESIS (PRESSURE FLOW) FOLLOWS CONCENTRATION GRADIENT FROM LEAF ? ROOT, STEM, OR FLOWER COMPANION CELLS ? TRANSLOCATION
2. WATER MINERALS XYLEM? DEAD VESSEL CELLS TRACHEIDS COHESION-TENSION THEORY (PUSH/PULL) ROOT ? LEAF, STEM, OR FLOWER
3. GASES LEAF STOMA? CONTROLLED BY GUARD CELLS WATER EVAPORATION- TRANSPIRATION? DIFFUSION OF CO2 H2O IN AND OUT
4. WASTES ALL CELLS DIFFUSION GAS WASTES THRU LEAF STOMA SOME WASTES EXCRETED BY ROOT SYSTEM
5
Xylem Cells
6
Phloem Cells
7
LEAF ANATOMY CROSS SECTION
8
STOMA GUARD CELLS
  • WHEN LIGHT IS PRESENT,
  • PHOTOSYNTHESIS IS GOING ON IN GUARD CELLS
  • GUARD CELLS
  • BECOME HYPERTONIC
  • TO SURRONDING CELLS AND TAKE IN H2O
  • THEY BECOME TURGID (FULL), WHICH OPENS THE
  • STOMA.
  • WHEN NO LIGHT, NO PHOTOSYNTHESIS
  • GUARD CELLS COLLAPSE
  • (FLACID), CLOSE STOMA

Epidermal cells No chloroplast
Chloroplast
VIEW OF BOTTOM OF LEAF- LOWER EPIDERMIS
9
3. COHESION-TENSION THEORY
  • FACTORS RELATED TO XYLEM TRANSPORT
  • 1. TRANSPIRATION? LOSS OF WATER FROM LEAF DUE
    TO EVAPORATION (DUE TO CO2
  • INTAKE)
  • 2. COHESION? ATTRACTION OF LIKE MOLECULES
    WATER MOLECULES ARE POLAR
  • (CHARGED)

Hydrogen Bond
10
(No Transcript)
11
CONT. FACTORS RELATED TO XYLEM TRANSPORT
  • 3. ADHESION? ATTRACTION OF UNLIKE MOLECULES-
    ATTRACTION OF H2O TO SIDES OF XYLEM CELLS
    (RESULTS IN CAPILLARY ACTION)
  • 4. ROOT PRESSURE? FORCE EXERTED FROM ROOTS AS A
    RESULT OF H2O ABSORPTION (OSMOSIS)
  • ROOT CELLS ARE HYPERTONIC TO SOIL
  • 5. OSMOSIS? MOVEMENT OF WATER FROM A REGION OF
    GREATER TO LESSER WATER CONCENTRATION, THROUGH
    SEMI-PERMEABLE MEMBRANE
  • ROOT EPIDERMAL CELLS ARE HYPERTONIC TO SOIL (H2O
    ENTERS CELLS)
  • A CONTINUOUS COLUMN OF H2O IS PRODUCED
    THROUGHOUT PLANT DUE TO THESE PHYSICAL FORCES
    WORKING AT THE SAME TIME

12
  • ROOT HAIRS INCREASE SURFACE AREA FOR ABSORPTION.
  • - H2O IS PUSHED BY THE ROOTS, PULLED BY THE
    LEAVES

13
(No Transcript)
14
(No Transcript)
15
MONOCOT STEMS

MONKEY FACE ? VASCULAR BUNDLES

  • MONOCOT PLANTS
  • 1. ONE COTYLEDON (CORN, GRASSES, SUGAR CANE,
    BAMBOO)
  • 2. LACK PERMANENT CAMBIUM
  • 3. SCATTERED VASCULAR BUNDLES
  • 4. PARALLEL VEINS (LEAF)
  • 5. FIBROUS ROOT (BRANCHING)

? support
pith cortex
supporting tissue
16
DICOT STEMS
  • DICOT PLANTS
  • 1. TWO COTYLEDONS (BEAN)
  • 2. PERMANENT CAMBIUM
  • 3. VASCULAR BUNDLES ARRANGED IN CIRCLE AROUND
    CAMBIUM
  • 4. NETTED VEINS (LEAF)
  • 5. TAP ROOT (LIKE CARROT)

(pith)
17
DICOT MONOCOT STEMS
18
DICOT ROOT
19
MONOCOT ROOT
20
D. MOVEMENT OF ORGANIC NUTRIENTS (PHLOEM)
  • PRESSURE-FLOW OR BULK-FLOW HYPOTHESIS
  • 1. PLANT NUTRIENTS MOVE FROM AN AREA OF GREATER
    TO LESSER CONCENTRATION OF
  • THAT NUTRIENT
  • LEAF
  • GLUCOSE ? SUCROSE
  • (PGAL) (STORAGE)

21
PRESSURE-FLOW OR BULK-FLOW HYPOTHESIS
22
  • 2. LEAF REPRESENTS AREA OF HIGHER CONCENTRATION
    OF GLUCOSE OR SUCROSE.
  • GLUCOSE FLOWS THROUGH PHLOEM SIEVE TUBE CELLS
    FROM LEAVES TO OTHER PLANT ORGANS HAVING LOWER
    CONCENTRATIONS
  • A) STEMS CELL RESPIRATION
  • B) FLOWERS CONSUMES GLUCOSE
  • C) ROOTS CONVERT IT TO ATP
Write a Comment
User Comments (0)
About PowerShow.com