1 / 30

Intro to Plants and The Vascular System

Intro to Plants and The Vascular System. 5.2. KINGDOM PLANTAE. Plants evolved about 500 million years ago from simple green algae that lived in the ocean. All plants are autotrophic and some, like the famous Venus fly-trap, can also be heterotrophic.

calum
Télécharger la présentation

Intro to Plants and The Vascular System

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. Intro to Plants andThe Vascular System 5.2

  2. KINGDOM PLANTAE Plants evolved about 500 million years ago from simple green algae that lived in the ocean. All plants are autotrophic and some, like the famous Venus fly-trap, can also be heterotrophic. All plants are eukaryotic and multicellular.

  3. PLANT CELLS Animal cells have lysosomes that release the cellular equivalent of digestive enzymes. Why don’t plants need these? • Like animal cells, plant cells contain a nucleus and organelles, but they have two distinguishing features: • Cell wall (made of cellulose, a complex carbohydrate, provides rigid structural support; difficult to digest) • Chloroplast (organelle that conducts photosynthesis)

  4. PLEASE... CONSIDER THE FOLLOWING: How can plants stand up straight without a skeleton?

  5. PLANT DIVERSITY • Currently over 350 000 species of plants, including: • Mosses • Ferns • Conifers • Flowering plants • Most plants live on land and can withstand a wide variety of climates. Cacti live in arid, dry areas whereas mosses need to be in moist environments to survive.

  6. CLASSIFYING PLANTS • Plants are classified based on the presence or absence of vascular tissue • Vascular tissue can be compared to arteries and veins: a network of specialized cells that allows plants to transport water, minerals and sugar throughout the plant • What would you expect a non-vascular plant, without vessels to transport nutrients and water, to look like?

  7. WHAT MIGHT VASCULAR PLANTS LOOK LIKE?

  8. FUNCTION OF STEMS Looking at the picture below: What years had the most rain? What years experienced the worst drought? • Support system for plant body • Transport system carries water & nutrients (through vascular tissue!) • Holds leaves & branches upright

  9. FUNCTION OF LEAVES • Main photosynthetic organ • Broad, flat surface increases surface area for light absorption • Have systems to prevent water loss • Stomata open in day but close at night or when hot to conserve water • Waxy cuticle on surface • System of gas exchange • Allow CO2 in and O2 out of leaf Elephant Ear Plant

  10. LEAF STRUCTURES Leaf Cross-Section Cuticle Veins Mesophyll Stoma (Opening) 2 GuardCells Surround each Stoma • Cuticle: waxy layer; covers upper surface • Protects leaf against water loss • Veins: transports water, nutrients and food • Made of xylem and phloem vascular tissue • Mesophyll: Spongy and Palisade • contains cells that perform photosynthesis b/c they contain chloroplasts.

  11. LEAF STRUCTURES Guard Cells Stoma • Guard cells: • Cells that open and close the stoma • Conserve water by preventing excess water transpiration • Stomata: openings in leaf’s surface; when open: • GAS EXCHANGE: Allows CO2 in & O2 out of leaf • TRANSPIRATION: Allows excess H2O out of leaf

  12. FUNCTION OF ROOTS • Anchor & support plant in the ground • Absorb water & minerals • Hold soil in place Fibrous Roots Root Hairs

  13. STRUCTURE OF ROOTS Root Hairs Meristem Root Cap • Root Hairs: increase surface area for water & mineral absorption • Meristem: region where new cells are produced • Root Cap: protects tip of growing root Where do you think all new growth starts?

  14. Types of Roots A: Fibrous root B: Taproot C: Modified root

  15. QUIZ TIME! BEFORE WE CONTINUE… VASCULAR OR NON-VASCULAR?

  16. Contain a vascular system allowing for transportation of nutrients / water throughout the plant http://dendro.cnre.vt.edu/forsite/idtype.htm

  17. QUIZ TIME! BEFORE WE CONTINUE… GYMNOSPERM OR ANGIOSPERM ?

  18. KEY WORDS: PLANT BIOLOGY Cell wall Chloroplast Vascular tissue Non-vascular tissue Stomata Cuticle Veins Mesophyll Chlorplast Guard cell Stomata Transpiration Root hair Meristem Root cap Gymnosperm Angiosperm

  19. Learning Check • Pg 557, Q 19-24

  20. Vascular Systems

  21. Vascular Systems Like humans, plants have a vascular system for moving water and nutrients around. Unlike humans though, they do not have a pumping mechanism.

  22. Monocot and Dicot Vascular Tissue Arrangement Remember the arrangement of vascular tissue in dicots and monocots.

  23. Xylem Water transport Consists of two main cell types: tracheids and vessels elements, both are non-living, hollow cells. Start as living cells, grow to fill the space required and then die and become hollow, easily allowing water to move through. Gymnosperms only have tracheids as part of their Xylem.

  24. Phloem Sugar movement Made up of living cells, which use oxygen while moving sugar around, therefore use energy. Made up of sieve tube elements connected by sieve plates. Companion cells lie adjacent to sieve tubes and help provide energy.

  25. Pg 549, Q 7-12

More Related