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Algae- Plant- like Protists

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Title: Protozoans: Non-motile Author: Bill Last modified by: Default Created Date: 5/3/2005 1:46:28 AM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Algae- Plant- like Protists


1
Algae- Plant- like Protists
  • Textbook 17.4
  • pp. 390-394

2
Plant like Protists- Algae
  • Autotrophs-
  • Photosynthetic- chloroplasts-supply O2
  • Classified by
  • Type of cell wall
  • Pigments
  • Structure
  • Storage carbohydrates
  • Reproduce asexually and sexually
  • Most are unicellular some are colonial and
    multicellular

3
Euglena
4
Euglenoids
  • Single celled
  • Photosynthetic
  • One or two flagella
  • Lack cell wall
  • Live in freshwater
  • Example- Euglena- can be both an autotroph and a
    heterotroph.

5
B. Dinoflagellates
  • Single-celled found in fresh and salt water.
  • Cellulose cell wall.
  • Two flagella.
  • Plankton- surface of ponds, lakes, oceans
  • Serve as basis of aquatic food chains.
  • Phytoplankton- photosynthetic
  • Zooplankton- non-photosynthetic protozoans
  • Algae blooms- population explosion due to excess
    nitrates.
  • Red tides
  • Toxins deadly to fish and humans
  • Pfiesteria- bleeding sores in fish neurotoxin
    affects humans
  • Bioluminescent- some produce light.

6
C. Diatoms
  • Single-celled algae found in fresh salt water.
  • Glass-like cell wall of silica-
  • Many different refractile shapes
  • All contain chlorophyll but other pigments
  • Many colors of brown or yellow.
  • Impt. Food source for marine animals.
  • Float near the surface- oil reserves.
  • When diatoms die sink and fossil remains-
    diatomaceous earth are mined.
  • Uses- grinding/polishing products, filter
    materials, toothpaste.

7
D. Seaweeds
  • Large multicellular algae
  • Not plants- No true roots,stems, or leaves.
  • All have chlorophyll.
  • 3 groups based on pigments/ color.
  • Brown algae- Kelp- biggest- up to 60 m.
  • Red algae- tropical- deepest waters 1
    typeagar.
  • Green algae- evolutionary ancestor of plants.
  • Single- celled- Chlamydomonas with 2 flagella
  • Colonial- Volvox ( 100-1000s of cells moving in
    unison)
  • Multicellular- filaments- Oedogonium, Spirogyra
  • Seaweed Uses-

8
Fungus-like Protists
  • Textbook 17.3
  • pp.387-389

9
Fungus-like Protists A. Slime molds
  • Not true molds which are fungi
  • Decompose dead organic mater
  • 2 types
  • Plasmodial Slime Molds-
  • Cellular Slime Molds

10
1. Plasmodial Slime Molds
  • Plasmodium- mass of cytoplasm ,no membranes , no
    cell walls, many nuclei.
  • Giant supercell ,streaming cytoplasm amoeba
    like.
  • Life Cycle-
  • Limited resources- reproductive structures-
    fruiting bodies (sporangia) formed.
  • Sporangia release haploid spores.
  • Better conditions- haploid spores fuse into
    diploid zygote.
  • New plasmodium develops.

11
2. Cellular Slime Molds
  • Unicellular and Multicellular stages
  • Individual, colony, and spore stages.
  • Asexual and Sexual reproduction.
  • Scarce food- cells stick together
  • Slug-like colony
  • Trail of slime

12
B. Water molds- Oomycota
  • Freshwater.
  • Decomposed dead plants,animals.
  • Parasitic forms- skin or gills of fish.
  • Unicellular or multicellular
  • Sexual reproduction- egg cell

13
Downy molds
  • Reproduce sexually- egg cell
  • Spores- wind blown
  • Plant parasites
  • Irish potato famine mid 1800s
  • Example of effects of clones
  • Lack of genetic variation
  • Water and Downy molds-
  • DNA studies
  • More closely related to plant-like protists
    (algae)

14
Evolution
  • Textbook 17.5
  • pp. 395-397

15
Evolution hypothesis
  • Protists evolved from ancient prokaryotes
  • Animals, Plants, and Fungi evolved from
    animal-like, plant-like, and fungus-like protists
  • 2 main processes-explain complex eukaryotic cell.
  • Infolding
  • Endosymbiosis

16
Infolding
  • Inward folding of cell membrane of bacterial
    cells
  • Produced internal membranes of eukaryotic cells
  • nuclear membrane, endoplasmic reticulum, golgi
    apparatus.
  • Eukaryotic Cell- separate compartments for
    chemical reactions.
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