• Share
  • Email
  • Embed
  • Like
  • Save
  • Private Content
Leaves, Structure and Function
 

Leaves, Structure and Function

on

  • 111,686 views

Discussion of the functions of leaves, focusing on Photosynthesis and the process. Also covers transpiration, O2 CO2 transfer, germination. Appropriate for high school level students.

Discussion of the functions of leaves, focusing on Photosynthesis and the process. Also covers transpiration, O2 CO2 transfer, germination. Appropriate for high school level students.

Statistics

Views

Total Views
111,686
Views on SlideShare
105,343
Embed Views
6,343

Actions

Likes
10
Downloads
966
Comments
8

11 Embeds 6,343

http://ncvps.blackboard.com 5501
https://ncvps.blackboard.com 468
http://www.slideshare.net 249
http://kembalipulan.blogspot.com 82
http://sciencestar.blogspot.co.uk 18
http://www.schoolscape.com 13
http://sciencestar.blogspot.com 8
http://lj-toys.com 1
https://usm.blackboard.com 1
http://translate.googleusercontent.com 1
http://rushika.siliconleaf.com 1
More...

Accessibility

Categories

Upload Details

Uploaded via as Microsoft PowerPoint

Usage Rights

© All Rights Reserved

Report content

Flagged as inappropriate Flag as inappropriate
Flag as inappropriate

Select your reason for flagging this presentation as inappropriate.

Cancel

18 of 8 previous next Post a comment

  • Full Name Full Name Comment goes here.
    Are you sure you want to
    Your message goes here
    Processing…
Post Comment
Edit your comment

    Leaves, Structure and Function Leaves, Structure and Function Presentation Transcript

    • PLANTS Structure and Function LEAVES
    • Leaf Functions
      • Manufacture food through photosynthesis
      • Gas (Air) Exchange – Respiration
      • Protect vegetative and floral buds
      • Water Transport – Transpiration
      • Store Food During Germination
    •  
    • Plants Manufacture Food Through Photosynthesis
      • 3CO 2 + 3H 2 O light C 6 H 6 O 3 + 3O 2
        • Stage 1 :
      • Energy is captured from sunlight
      • Stage 2:
      • Light energy is converted to chemical energy
      • Stage 3:
      • Chemical energy powers formation of organic compounds, using CO 2
    • What is Photosynthesis? Photosynthesis is the process which plants use the energy from sunlight to produce sugar.
    • The conversion of unusable sunlight energy into usable chemical energy, is associated with the actions of the green pigment chlorophyll .
    • Chlorophyll looks green because it absorbs red and blue light, making these colors unavailable to be seen by our eyes. The green light which is NOT absorbed reaches our eyes, making chlorophyll appear green. It is the energy from the red and blue light that are absorbed allowing the plant to do photosynthesis. The green light we can see is not / cannot be absorbed by the plant, and cannot be used for photosynthesis.
    • Most of the time, photosynthesis uses water and releases the oxygen that we absolutely must have to stay alive. And of course we need the food as well!
    • The overall chemical reaction of this process is: 6H2O + 6CO2 ----> C6H12O6+ 6O2 Translated it reads: six molecules of water plus six molecules of carbon dioxide produce one molecule of sugar plus six molecules of oxygen
    •  
    • Sugars produced by photosynthesis are used directly in respiration.
    • Respiration is the release of the energy derived from the food created by photosynthesis. It occurs all the time in all living cells. There are 2 different kinds of respiration:
    • Aerobic respiration: Occurs only in the presence of oxygen. It is the most common form of respiration. Both plants and animals use aerobic respiration. It is the opposite of photosynthesis (one molecule of glucose and six molecules of oxygen are broken up and reorganized by enzymes to give six molecules of carbon dioxide and six molecules of water. Basically, this process makes energy out of food
    • Anaerobic respiration: occurs only under special circumstances occurs in the absence of oxygen (for example: during the fermentation process)
    • Usually, photosynthesis will produce more glucose than is needed by the plant. The excess sugars are stored and transformed into starch, cellulose, lipids (fats) and other carbohydrates, proteins and sucrose.
    • Other Functions of Leaves
      • While Photosynthesis is a very important part of the function of leaves, they have other responsibilities to the plant
    • Protect Vegetative and Floral Buds
      • Leaves protect buds through the winter
        • Juniper
        • Mango
      • Leaves protect floral bracts during development
        • Poinsettia
        • Globe artichoke
    • Important in the Water Cycle
      • Leaves are a very important part of the water cycle, helping provide atmospheric water.
    • Water Transport – Transpiration
    • Water Transport – Transpiration
    • Leaves Provide the Oxygen We Breathe
      • As part of Photosynthesis leaves release Oxygen as a by-product, or waste.
      • Leaves use our by-product or waste, Carbon Dioxide, for photosynthesis
      • This symbiotic relationship is required for the continuity of life
    • Gas (Air) Exchange – CO2 and O2
    • Leaves Store Food for the Future
      • Germination (seeds sprouting) requires energy
      • Leaves store energy (glucose) as a result of photosynthesis
      • Seed leaves (cotyledons) are enclosed in the seed as food for the embryo plant
    • Store Food During Germination Cotyledons (Seed Leaves) Store Food While Seed Germinates Stores Food Until Plant Matures and Begins Photosynthesis
    • Leaves – a Significant and Important Structure of the Plant