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Plants Structures & Functions

Published byYuliana Setiabudi Modified over 6 years ago

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Presentation on theme: "Plants Structures & Functions"— Presentation transcript:

1 Plants Structures & Functions

2 Characteristics of Plants
Eukaryotic Multicellular Autotrophs Cell walls made of cellulose Remember biomolecules?

3 Importance of plants Earth’s major producers
Provide food and shelter for many organisms Supply oxygen needed for cellular respiration

4 Leaves Broad, flat organ that traps light energy
Contain 1000s of chloroplasts for photosynthesis Why are leaves considered organs? (hint: think levels of organization)

5 Cross-section of a leaf:
(Plural: Stomata) (protection) (allows gas xchg) (photosynthesis)

6 What type of biomolecule makes up the cuticle?
Protective waxy layer on leaves Prevent evaporation & tissues from drying out What type of biomolecule makes up the cuticle?

7 Stomata Openings on the surface of the leaf – allows for gas exchange during photosynthesis (Take in CO2, release O2) Regulated by guard cells - allow for gas exchange –Opens and closes the stomata. Can close to prevent water loss – transpiration

8 Roots Anchors plant in ground Absorbs water & minerals from soil
Transports nutrients to stem Would roots be considered organs? Why or why not?

9 Stem Provides support for upright growth
Contains tissues for transporting food, water, and nutrients from one part of the plant to another

10 Summary Vascular Tissue Direction Substance Xylem Leaves  Roots Water
Phloem Sugar

11 Xylem carries water from the roots to the leaves
Phloem ‘flows’ sugars/food from leaves down to roots

12 Vascular Bundles in a Stem
Xylem Phloem Would stems be considered organs? Why or why not?

13 Seeds Contain an embryo, food supply and is surrounded by a protective covering. Are enclosed in fruit or cones (endosperm)

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