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Fungi

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Fungi Chapter 19 Se ora Ettinger Answer these questions: How do fungi differ from other organisms? How does the lifestyle of a fungus enable it to obtain food? – PowerPoint PPT presentation

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Title: Fungi


1
Fungi
  • Chapter 19
  • Señora Ettinger

2
  • Answer these questions
  • How do fungi differ from other organisms?
  • How does the lifestyle of a fungus enable it to
    obtain food?
  • What factors make each phylum of fungi
    distinctive?
  • How do fungi affect humans?

3
  • Look at page 406 of your textbook
  • What do you see in the main picture on this page?
  • Read the caption. What is really shown in the
    picture?
  • Are fungus flowers made of fungus?
  • Why would a fungus go to all the trouble of
    making a plant imitate a flower?

4
Page 406 continued
  • Do you think this fungus hurts or helps the rock
    cress plant?
  • Would you guess that fungi could flower on its
    own?

5
Characteristics of Fungi
  • Cell structure
  • Lifestyle
  • Food acquisition
  • Habitat
  • Cell walls

6
Fungiplants?
  • Cell wall
  • Mitosis
  • Chlorophyll
  • Dikaryon stage

7
Other characteristics of Fungi
  • Heterotrophs
  • Digest food outside its body by secreted enzymes
    then absorb the nutrients
  • Typically terrestrial
  • Key decomposers of plant material
  • Most derive their nutrition from plants
  • Cell walls made of chitin

8
Fungal Niches
  • Saprobes-
  • Parasites-
  • Symbiotic
  • Mutuals

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10
Fungi Structures, page 408, draw and label figure
19-2 here
11
Hyphae structure, draw Figure 19-3, page 408 here
12
Hyphae
  • The dominant structure of fungi
  • Long, multinucleated, typically multicelled,
    one-cell thick fungal tissue
  • Typically hidden from sight since fungi grow
    their hyphae into their food
  • Serve as vascular channels along which nutrients
    are passed

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14
Mycelium
  • What is it?

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Septa
  • What is it?

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Septate
21
coenocytic
22
RecessRead Armillaria ostoyae
23
Part 2
  • Reproduction
  • Fungal Divisions

24
Reproduction
  • All nuclei are haploid except for zygote nuclei
    (except some Chytridiomycota)
  • In the sexual reproduction, hyphae of two
    different mating strains meet and fuse but the
    two types of nuclei may coexist without fusion
    for most of the life of the fungus
  • Fungi reproduce by relasin spores

25
Reproduction
  • Monokaryotic compartment has a single nucleus
  • Dikaryotic compartment has two genetically
    distinct nuclei
  • Heterokaryotic hyphae have two kinds of
    genetically different nuclei
  • Homokaryotic hyphae have genetically similar
    nuclei

26
Reproductive Structures
  • Sporangia
  • Gametangia
  • Conidia

27
Fungal Divisions
  • Plant-like, this groupings are called divisions
    instead of phyla
  • Presently differentiated from slime molds and
    water molds

28
Chytridiomycota
29
Fungal Divisions
  • Chytridiomycota
  • Zygomycota
  • Ascomycota
  • Basidiomycota
  • Deuteromycota (Fungi imperfecti) Your book
    doesnt mention this one.

30
Chytridiomycota
31
Chytridiomycota
32
Read
  • Modern Genetics Versus Ancient Frog-Killing
    Fungus.
  • Write a synopsis in the space provided.
  • Be ready to answer questions

33
Chytridiomycota
Zygomycota
34
Zygomycota What does the name imply?
  • What does the name imply?

35
Zygomycota some characteristics
36
Zygomycota
  • Non-reproductive hyphae lack septa
  • Include the common bread molds
  • Produce zygospores

37
Life Cycle and Sexual Reproduction
  • Sexual reproduction is via fusion of
    multinucleate gametangia
  • May occur between same or different mating types
  • Massive, haploid zygospore forms around diploid
    zygote nuclei
  • Meisois occurs during germination

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Asexual Reproduction
  • Haploid spores are produced within sporangia
  • Sporangium forms at the tip of erect hypha, with
    separating septum
  • Spores shed above substrate, dispersed by wind

40
Chytridiomycota
Ascomycota
41
Ascomycota
  • Beneficial
  • Harmful forms

42
Yeast
43
Mold
44
Morels
True Morel
False Morel
45
Truffles
46
Truffles
47
Cup Fungi
48
Chestnut Blight
49
Chestnut Blight
50
Dutch Elm Disease
51
Ascomycota
  • Has a characteristic reproductive structure
    called an ascus.
  • A diploid zygote forms within ascus.
  • Asci form on ascocarp of densely interwoven hyphae

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Sexual Reproduction
  • Ascogonia are female, have trichogyne
  • Antheridia are male, fuse with trichogyne
  • Male nuclei travel to ascogonium to pair with
    opposite nuclei
  • Heterokaryotic hyphae arise from point of fusion
  • An ascus containing two nuclei forms at the
    hyphal tip

54
Sexual Reproduction
  • Nuclei within the ascus fuse, forming diploid
    zygote which immediately undergoes meiosis
  • Four haploid daughter nuclei are the result.
  • These haploid daughter nuclei undergo mitosis to
    form 8 ascospores
  • The ascospores are then released, in most cases
    by the ascus bursting.

55
Asexual Reproduction
  • Conidia are produced at the ends of
    conidiophores. Conidiophores are the stalk-like
    vertical growths on the hyphae. Spores are formed
    at the end of the conidiophores and are separated
    by septum and are called conidia.
  • The spores are released and then germinate

56
Chytridiomycota
Basidiomycota
57
Basidiomycota
  • Includes mushrooms, jelly fungi, puffballs, rusts
    and smuts
  • Includes edible as well as poisonous varieties

58
Mushrooms
59
Mushrooms
60
Mushrooms
61
Jelly Fungus
62
Jelly Fungus
63
Puffballs
64
Rusts
65
Rusts
66
Corn Smut
67
Basidiomycota
  • Characteristic reproductive structure is called a
    basidium.
  • Syngamy occurs within basidium
  • Meiosis occurs immediately, forming four haploid
    basidiospores
  • Four basidiospores are borne on one basidium

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69
Sexual Reproduction
  • Spore germinates forming homokaryotic hyphae
  • Eventually septa form between nuclei of primary
    mycelium
  • Dikaryotic, heterokaryotic secondary mycelium
    forms when hyphae of different mating types fuse
  • Basidiocarps form of completely dikaryotic hyphae
  • Basidia line the gills of typical mushrooms

70
Deuteromycota
  • Commonly called Fungi Imperfecti because they
    exhibit only asexual reproduction
  • Mostly ascomycetes, few zygomycetes and
    basidiomycetes
  • Many are human and plant pathogens
  • Others produce important chemicals such as
    penicillin

71
Parasexuality
  • Parasexuality occurs when two different hyphae
    fuse forming heterokaryotic hyphae. The two
    different nuclei may exchange portions of
    chromosomes between nuclei.
  • Provides a certain amount of genetic
    recombination.

72
Fungal Associations
  • Lichens
  • Mycorrhizae

73
Lichens
  • Mostly ascomycetes with green algae and/or
    cyanobacterium
  • Specialized hyphae penetrate or envelop
    photosynthetic cells
  • Fungal chemical signals direct photosynthetic
    metabolism
  • Could be considered a form of controlled
    parasitism

74
Lichens
  • Reproduction of the fungal portion is via normal
    fungal sexual reproduction
  • Reproduction of the photosynthetic component is
    asexual
  • The lichen as a whole can fragment and be
    transported by wind to a new location to form a
    new individual

75
Lichens
  • Can inhabit cold, dry, generally harsh
    environments
  • Help break rock surfaces and prepare habitat for
    other organisms
  • Coloration of lichen protects photosynthetic
    partner
  • Can survive adverse conditions by nearly halting
    metabolism

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Mycorrhizae
  • Most plant roots associated with certain fungi
  • Fungus aid in transfer of soil nutrients into
    roots
  • Plant provides organic carbon to fungus
  • Arbuscular mycorrhizae and ectomycorrhizae

82
Arbuscular Mycorrhizae
  • Hyphae penetrate outer cells of root
  • More common mycorrhizae, generally a zygomycetes
  • May increase yield of crops with less energy input

83
Ectomycorrhizae
  • Hyphae surround, but do not penetrate roots
  • Less common, mostly basidiomycetes, some
    ascomycetes
  • Characteristic symbiont of shrubs and trees

84
Advantages
  • Plants more resistant to drought, cold and harsh
    conditions
  • May provide better protection against acid
    precipitation
  • Prevent accumulation of toxic metals
  • Speed germination of orchid seeds
  • Provide better growth in poor soils

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