1 / 14

IT’S A GREEN WORLD

IT’S A GREEN WORLD. Who planted that there?. Starter. Would a plant survive if it had a mutation of: Leaves with only a red pigment Leaves like footballs Leaves with no stomata. Who planted that there?. Learning outcomes. Success criteria.

Download Presentation

IT’S A GREEN WORLD

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. IT’S A GREEN WORLD Who planted that there?

  2. Starter Would a plant survive if it had a mutation of: • Leaves with only a red pigment • Leaves like footballs • Leaves with no stomata

  3. Who planted that there? Learning outcomes Success criteria Be able to design different types of leaves, demonstrating their adaptations for particular environmental conditions • Describe the entry and exit points of materials required for photosynthesis. • Explain how leaves are adapted for efficient photosynthesis.

  4. Photosynthesis - Brainpop.swf

  5. Photosynthesis: word equation light energy carbon dioxide water glucose oxygen chlorophyll light energy chlorophyll carbon dioxide oxygen glucose water

  6. Photosynthesis • Carbon dioxide enters and oxygen leaves the leaf through small pores on the underside of the leaf – stomata. • Water enter the plant through the root hairs. • Glucose is stored by the plant as starch

  7. Testing leaves for starch – procedure

  8. Leaves: maximizing photosynthesis Leaves are the most efficient solar panels on Earth! Why can they be called this? Light energy is absorbed by the chlorophyll in leaves and used to carry out photosynthesis. Leaves come in all shapes and sizes but what features do they have in common to maximize photosynthesis?

  9. Structure of a leaf How are leaves designed to maximize photosynthesis? Leaves are wide and flat to create a large surface area and to absorb as much light as possible. Leaves are thinso gases can reach cells easily. Leaves contain lots of chloroplasts which contain the green pigment chlorophyll. Leaves have holes, called stomata, on their underside through which gases move in and out. Leaves have lots of veins to carry water to the cells and carry glucose away.

  10. Autumn leaves • Leaves on deciduous trees change colour in autumn because the trees absorb the green pigment from the chloroplasts. • Because leaves are specially adapted to carry out photosynthesis many cannot survive winter frosts and drop off the trees.

  11. Although leaves do the same basic job, they also have to adapt to their environment and balance a range of needs.

  12. Designing leaves • withstand strong winds live in fast-flowing rivers • live in a shady environment live in a hot dry environment • Label them with explanations. • Construct a palisade cell out of plasticine

  13. Plenary

  14. Who planted that there? Learning outcomes Success criteria Be able to design different types of leaves, demonstrating their adaptations for particular environmental conditions • Describe the entry and exit points of materials required for photosynthesis. • Explain how leaves are adapted for efficient photosynthesis.

More Related