The Fungus-like Protists

Slides:

Advertisements

Similar presentations

Protists Diversity of Protists Protozoans Slime Molds Algae

Advertisements

Fungus Like Protists.

Protists By Vanessa A, Emily A, and Vanessa C.

Chapter 20 – Protists B $100 $100 $100 $100 $100 $200 $200 $200 $200

The Kingdom Fungi Section 21–1

Kingdom Fungi The following PPT was slightly modified from the original work found on the following site:

Fungal Characteristics 1) Fungi can be food sources or ingredients and go grow almost anywhere! 2) Scientists are not sure how fungi are.

Ch. 21 Sec. 1 The Kingdom Fungi.

CHAPTER 20.4: RED, BROWN, AND GREEN ALGAE By: Courtney Pham.

Chapter 20-5 “Funguslike Protists” By: Katharine Weeiieieiei.

Funguslike Protists By: Alice, Darwin, Tate, and Kiara

Slime Molds & Water Molds Fungus Like Protists. Funguslike Protists Heterotrophs Absorb nutrients from dead or decaying organic matter Lack the chitin.

Biology Ch. 20.

KEY CONCEPT Kingdom Protista is the most diverse of all the kingdoms.

Protists Chapter 19..

Kingdom Protista Chapter 19.

Kingdom Protista.

Kingdom Protista Anything but a prokaryote, fungus, plant or animal!

Chapter 21 Protists Do Now: Answer these in your notebooks 1- How do protists move? 2- How do protists obtain energy? 3- What domain and kingdom are they.

Algae- Plant- like Protists Textbook 17.4 pp

Chapter 20 – Protists A $100 $100 $100 $100 $100 $200 $200 $200 $200

The Kingdom Protista. What Is a Protist? Classification of Protists One way protists can be classified is by how they obtain nutrition: –Heterotrophs.

Unit 6: Microorganisms and Fungi Chapter 20: Protists.

Unit 6 Part 3 Fungi. Characteristics Eukaryotic heterotrophs Multicellular (except yeasts) Cell wall – Made of chitin.

Biology C20 test Review Notes Place these notes into your Biology Notebook. Place your first and last name in the upper right corner of your paper, followed.

Kingdom Protista Chapter 20. General Characteristics of Protists: ALL Eukaryotes that cannot be classified as a plant, animal, or fungus. They have a.

Protista and Fungi Agents of Human Disease and Health.

Mr. Chapman Biology 20.  Funguslike protists are decomposers. A decomposer is an organism that breaks down dead or decaying organisms.  Decomposers.

End Show Slide 1 of 24 Copyright Pearson Prentice Hall Biology.

Fungus-Like Protists Biology 112. General Characteristics Similar to fungi in that they are heterotrophs that absorb food from dead or decaying organic.

Fungi.  The largest living thing on Earth is a humongous fungus  This is a honey fungus that is 2.4 miles long, found in the mountains of Oregon  Lives.

Protists. 1.A protist is any organism that is not a plant, an animal, a fungus, or a prokaryote.

Unit 6 Microorganisms & Fungi Ch. 20 Protists. What Is a Protist? Protist - any organism that is not a plant, an animal, a fungus, or a prokaryote Protists.

“Plant-Like” Protists: Unicellular Algae. Chlorophyll and accessory pigments allow algae to harvest and use energy from sunlight. –Both give algae a wide.

11 C Fungus like protists ► Fungus like protists  Heterotrophic, need moist environments  Cell walls of cellulose (not chitin)  Motile  Example: water.

Characteristics of the Kingdoms. Archaea differ from the true bacteria in many important respects, as well as from the eukaryotes. These differences include:

Unit 6 Microorganisms & Fungi Ch. 21 Fungi. What are Fungi?  Fungi are eukaryotic heterotrophs that have cell walls  Chitin - makes up cell walls, a.

Protista Questions 1 of 11) Which are protista? There may be more than 1 answer. Choose all that apply. Methanogens Gram positive Basidiospores Halophiles.

Protists Section Kingdom Protista Eukaryotic – 200,000 species No simple set of common characteristics Can be unicellular or multicellular Microscopic.

CLASSIFICATION OF LOWER ORGANISMS. Remember:  There are ___ Kingdoms for all organisms  ____________, _______, _______, ________, __________, ______________.

“Plant-Like” Protists: Unicellular Algae. –Algae are photosynthetic protists whose chloroplasts support food chains in –freshwater and –marine ecosystems.

Kingdom Protista Spring 2012.

Copyright Pearson Prentice Hall

FUNGUS-LIKE PROTISTS.

Copyright Pearson Prentice Hall

Protista & Fungi. Protista Type of Cell: Eukaryote Cell Structure: Cell walls made of cellulose in some, some have chloroplast Number of Cells: Most unicellular,

V. Fungus-like Protists Fungus-like protist – protists that feed off of dead organic matter but have centrioles & lack chitin in their cell walls. A. Characteristics.

Kingdom Fungi What do you call a mushroom who likes to party? A FUN GUY!!

KEY CONCEPT Fungi are heterotrophs that absorb their food.

Protists. Classification Formerly Kingdom Protista Formerly Kingdom Protista –Modern taxonomists now place them in many different kingdoms Essentially,

A. What Is a Protist? B. Evolution of Protists C. Classification of Protists 20–1 The Kingdom Protista.

Water Molds Phylum: Oomycota Micah Vinovskis and Jess Zelenak.

June 7, Protists are classified into three groups based on what? 2.Protozoans are classified into 4 groups based on what?

20–5 Funguslike Protists Photo Credit: ©L.West/Photo Researchers, Inc.

Biology I—Ch 20 Protists -Protist: any organism that is not a plant, animal, fungus, Or prokaryote -3 major types 1. Animal-like 2. Plant-like 3. Fungus-like.

Copyright Pearson Prentice Hall

Phylum Myxomycota Phylum Acrasiomycota Phylum Oomycota

Kingdom Protista Protists.

Classification- Fungi

Biology C20 Test Review Notes

The Funguslike Protists

Fungus – Like Protists Chapter 19 p. 540.

KEY CONCEPT Funguslike protists decompose organic matter.

Kingdom Protista What are the groups of multicellular plant-like protists? What are the similarities and differences between the fungus-like protists?

Guess who? One-celled Takes in food Has two or more flagella

Presentation transcript:

The Fungus-like Protists Dog vomit slime mold

Characteristics The Fungus-like protists are heterotrophs that absorb nutrients from dead or decaying matter. They play a key role in recycling organic material. The difference between them and true fungi is that unlike fungi they have centrioles, but lack the chitin of fungal cell walls.

Types of Fungus-like Protists cellular slime molds (Phylum Acrasiomycota) acellular slime molds (Phylum Myxomycota) water molds (Phylum Oomycota)

Water mold breakdown of a fish

Slime Molds They are found in damp places rich in organic matter, such as forest floors, or on compost.

Cellular slime molds (Phylum Acrasiomycota) They are made up of distinct individual cells separated by cell membranes during every phase of the mold’s life. They spend most of their lives as free-living cells that are not easily distinguishable from soil amoebas.

When their food supplies are exhausted, they send out chemical signals that cause the cells to aggregate into a slug-like colony that begins to function as a single organism.

Eventually it becomes a reproductive “fruiting body” that produces spores, which eventually become single amoebae. During much of their life cycle, the cellular slime molds look and behave like animal-like protists. When they aggregate, however, they act very much like multicellular organisms.

Acellular slime molds (Phylum Myxomycota) They begin their life cycle as amoeba-like cells, that eventually fuse to produce a structure with many nuclei. These structures are known as plasmodia (singular = plasmodium). The plasmodium may grow several meters in diameter.

Eventually fruiting bodies called sporangia spring up from the plasmodium to produce haploid spores by meiosis. sporangium

The spores scatter to the ground and germinate into flagellated cells, which fuse to produce diploid zygotes to repeat the cycle.

Water molds (Phylum Oomycota) If you’ve seen white fuzz growing on a dead fish in the water, it is a water mold in action.

The water molds thrive on dead or decaying organic matter in water, and are plant parasites on land. They produce fungal-like filaments called hyphae. They have cell walls made of cellulose, which is different from a fungus.

They can produce flagellated spores which swim away in search of food They can produce flagellated spores which swim away in search of food. When they find food they grow hyphae into new organisms.

THE IRISH POTATO FAMINE OF THE 1840s One water mold, Phytophthora infestans, that produces airborne spores, can destroy all parts of a potato plant. The infected potatoes appear normal at harvest time, but within a few weeks it is reduced to a sponge sac of spores and dust.

In Ireland, the summer of 1845 made ideal growing conditions for the fungus (unusually cool and wet). By the end of the growing season, the potato blight had destroyed 60% of the potato crop.

The Great Potato Famine or “Great Hunger” led to starvation of more than a million people and the mass migration of 1.5 million to the United States.