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WHAT MAKES FUNGI DIFFERENT FROM PLANTS AND ANIMALS

Key Features of Fungi. Fungal Bodies Consist of Slender ThreadsFungi Obtain Their Nutrients from Other OrganismsFungi Propagate by SporesMost Fungi Can Reproduce Both Sexually and Asexually. . Be thinking about.. What Are the Key Features of Fungi? What Are the Major Groups of Fungi? How Do

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WHAT MAKES FUNGI DIFFERENT FROM PLANTS AND ANIMALS

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    1. Figure: 20-CO Title: The Diversity of Fungi Caption: These honey mushrooms are part of the visible portion of the largest organism on Earth.Figure: 20-CO Title: The Diversity of Fungi Caption: These honey mushrooms are part of the visible portion of the largest organism on Earth.

    2. Key Features of Fungi Fungal Bodies Consist of Slender Threads Fungi Obtain Their Nutrients from Other Organisms Fungi Propagate by Spores Most Fungi Can Reproduce Both Sexually and Asexually

    3. Be thinking about……. What Are the Key Features of Fungi? What Are the Major Groups of Fungi? How Do Fungi Interact with Other Species? How Do Fungi Affect Humans?

    5. MMOLD IN YOUR KITCHEN

    8. Without fungus your beer would be flat and your bread would be really tough

    10. Fungal Body Structure Most fungi are multicellular Cells are surrounded by cell walls composed of chitin, a nitrogen-containing polysaccharide

    11. Fungal Body Structure Body of almost all fungi is a mycelium, an interwoven mass of threadlike filaments called hyphae (singular, hypha)

    12. FIGURE 22-1 (part 1) The filamentous body of a fungus (a) A fungal mycelium spreads over decaying vegetation. The mycelium is composed of (b) a tangle of microscopic hyphae, only one cell thick, portrayed in cross section (c) to show their internal organization.FIGURE 22-1 (part 1) The filamentous body of a fungus (a) A fungal mycelium spreads over decaying vegetation. The mycelium is composed of (b) a tangle of microscopic hyphae, only one cell thick, portrayed in cross section (c) to show their internal organization.

    13. Fungal Body Structure Hyphae of most species are divided into many cells by partitions called septa (singular, septum); each cell possesses one or more nuclei Pores in the septa allow cytoplasm to stream from one cell to the next

    14. FIGURE 22-1 (part 2) The filamentous body of a fungus (a) A fungal mycelium spreads over decaying vegetation. The mycelium is composed of (b) a tangle of microscopic hyphae, only one cell thick, portrayed in cross section (c) to show their internal organization.FIGURE 22-1 (part 2) The filamentous body of a fungus (a) A fungal mycelium spreads over decaying vegetation. The mycelium is composed of (b) a tangle of microscopic hyphae, only one cell thick, portrayed in cross section (c) to show their internal organization.

    15. Fungal Body Structure Hyphae of some fungi lack septa, consisting of single elongated cells with hundreds or thousands of nuclei The nuclei of most species are haploid

    16. Nutrition and Fungal Lifestyles All are heterotrophic Secrete enzymes outside their bodies and absorb the digested nutrients

    17. Nutrition and Fungal Lifestyles Have diverse lifestyles Fungal decomposers (saprobes) feed on dead organic material and wastes Fungal parasites absorb nutrients from cells of living hosts and may cause disease Some symbiotic fungi live in mutually beneficial relationships with other organisms Fungal predators consume living organisms

    18. Propagate by Spores Spores are haploid reproductive cells capable of developing into an adult fungus Usually produced in large numbers Dispersed by animals or air currents

    19. FIGURE 22-2 Some fungi can eject spores A ripe earthstar mushroom, struck by a drop of water, releases a cloud of spores that will be dispersed by air currents.FIGURE 22-2 Some fungi can eject spores A ripe earthstar mushroom, struck by a drop of water, releases a cloud of spores that will be dispersed by air currents.

    20. Fungal Reproduction Both asexual and sexual reproduction involve the production of spores within fruiting bodies

    21. Asexual Reproduction Typically occurs under stable conditions Can occur either by: Fragmentation of the mycelium Asexual spore formation Haploid mycelium produces haploid asexual spores by mitosis Spores germinate and develop into a new mycelium by mitosis Results in the rapid production of genetically identical clones

    22. Sexual Reproduction Typically occurs under conditions of environmental change or stress Neighboring haploid mycelia of different, but compatible mating types come into contact with each other The two different hyphae fuse so that the nuclei share a common cell The different haploid nuclei fuse to form a diploid zygote Zygote undergoes meiosis to form haploid sexual spores

    23. Sexual Reproduction Spores germinate and develop into a new mycelium by mitosis Results in the production of genetically diverse fungal bodies

    24. Section 22.2 Outline 22.2 What Are the Major Groups of Fungi? Chytrids Produce Swimming Spores Zygomycetes Can Reproduce by Forming Diploid Spores Ascomycetes Form Spores in a Saclike Case Basidiomycetes Produce Club-Shaped Reproductive Structures Some Fungi Form Symbiotic Relationships

    25. Classification of Fungi Fungi have been assigned to four phyla based upon the way they produce sexual spores Chytridiomycota (chytrids) Zygomycota (zygote fungi) Ascomycota (sac fungi) Basidiomycota (club fungi)

    26. FIGURE 22-3 Evolutionary tree of the major groups of fungiFIGURE 22-3 Evolutionary tree of the major groups of fungi

    27. Table 22-1 The Phyla of FungiTable 22-1 The Phyla of Fungi

    28. The Chytrids The Chytrids Most are aquatic Reproduce both asexually and sexually Form flagellated spores that require water for dispersal Figure 22-4, p. 426, illustrates the chytrid fungus Allomyces in the midst of sexual reproduction

    29. FIGURE 22-4 Chytrid filaments These filaments of the chytrid fungus Allomyces are in the midst of sexual reproduction. The orange structures visible on many of the filaments will release male gametes; the clear structures will release female gametes. Chytrid gametes are flagellated, and these swimming reproductive structures aid dispersal of members of this mostly aquatic phylumFIGURE 22-4 Chytrid filaments These filaments of the chytrid fungus Allomyces are in the midst of sexual reproduction. The orange structures visible on many of the filaments will release male gametes; the clear structures will release female gametes. Chytrid gametes are flagellated, and these swimming reproductive structures aid dispersal of members of this mostly aquatic phylum

    30. The Chytrids Most feed on dead aquatic material Some species are parasites of plants and animals One chytrid species is a frog pathogen believed to be a major cause of the current worldwide die-off of frogs Primitive chytrids are believed to have given rise to the other groups of modern fungi

    31. Zygomycetes Most live in soil or on decaying plant or animal material Reproduce both asexually and sexually Sexual spores are thick-walled zygospores

    32. Zygomycetes During asexual reproduction: Haploid spores are produced via mitosis in black spore cases called sporangia Spores disperse and germinate to form new haploid hyphae

    33. FIGURE 22-5 (part 1) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.FIGURE 22-5 (part 1) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.

    34. FIGURE 22-5 (part 2) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.FIGURE 22-5 (part 2) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.

    35. FIGURE 22-5 (part 3) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.FIGURE 22-5 (part 3) The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.

    36. Figure: 20-4 inset top Title: The life cycle of a zygomycete main inset top Caption: Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. The resulting haploid hyphae may complete the asexual cycle by producing sporangia and spores. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia. The sporangia liberate haploid spores, which germinate into hyphae that can enter either the asexual or sexual cycle. Figure: 20-4 inset top Title: The life cycle of a zygomycete main inset top Caption: Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. The resulting haploid hyphae may complete the asexual cycle by producing sporangia and spores. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia. The sporangia liberate haploid spores, which germinate into hyphae that can enter either the asexual or sexual cycle.

    37. Zygomycetes During sexual reproduction Two hyphae of different mating types come into contact and fuse Nuclei fuse to form a diploid zygospore, a tough, resistant structure that can remain dormant for long periods until conditions are favorable

    38. Zygomycetes During sexual reproduction Meiosis occurs as the zygospore germinates Resulting spores disperse and germinate to form new haploid hyphae that can enter either the asexual or sexual cycle

    39. FIGURE 22-5 The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.FIGURE 22-5 The life cycle of a zygomycete Top: During asexual reproduction in the black bread mold (genus Rhizopus), haploid spores, produced within sporangia, disperse and germinate on food such as bread. Bottom: During sexual reproduction, hyphae of different mating types (designated + and - on the bread) contact one another and fuse, producing a diploid zygospore. The zygospore undergoes meiosis and germinates, producing sporangia that liberate haploid spores.

    40. Ascomycetes Live in a variety of marine, freshwater, and terrestrial habitats Reproduce both asexually and sexually Sexual spores form in saclike asci

    41. FIGURE 22-7a Diverse ascomycetes (a) The cup-shaped fruiting body of the scarlet cup fungus. (Consult an expert before sampling any wild fungus?some are deadly!)FIGURE 22-7a Diverse ascomycetes (a) The cup-shaped fruiting body of the scarlet cup fungus. (Consult an expert before sampling any wild fungus?some are deadly!)

    42. FIGURE 22-7b Diverse ascomycetes (b) The morel, an edible delicacy. (Consult an expert before sampling any wild fungus?some are deadly!)FIGURE 22-7b Diverse ascomycetes (b) The morel, an edible delicacy. (Consult an expert before sampling any wild fungus?some are deadly!)

    43. FIGURE 22-6 The life cycle of a typical ascomycete Top: In ascomycete asexual reproduction, haploid hyphae give rise to stalked structures that produce haploid spores. Bottom: In sexual reproduction, haploid nuclei of different mating types fuse to form diploid zygotes that divide and give rise to haploid ascospores.FIGURE 22-6 The life cycle of a typical ascomycete Top: In ascomycete asexual reproduction, haploid hyphae give rise to stalked structures that produce haploid spores. Bottom: In sexual reproduction, haploid nuclei of different mating types fuse to form diploid zygotes that divide and give rise to haploid ascospores.

    44. Basidiomycetes Live in a variety of marine, freshwater, and terrestrial habitats Usually reproduce sexually Sexual spores form in club-shaped basidia Figure 22-9, p. 429, depicts an overview of sexual reproduction in a basidiomycetes

    45. FIGURE 22-9c Diverse basidiomycetes (c) The spores of stinkhorns are carried on the outside of a slimy cap that smells terrible to humans, but appeals to flies. The flies lay their eggs on the stinkhorn, and inadvertently disperse the spores that stick to their bodies.FIGURE 22-9c Diverse basidiomycetes (c) The spores of stinkhorns are carried on the outside of a slimy cap that smells terrible to humans, but appeals to flies. The flies lay their eggs on the stinkhorn, and inadvertently disperse the spores that stick to their bodies.

    46. FIGURE 22-9b Diverse basidiomycetes (b) Shelf fungi, some the size of dessert plates, are conspicuous on trees.FIGURE 22-9b Diverse basidiomycetes (b) Shelf fungi, some the size of dessert plates, are conspicuous on trees.

    47. FIGURE 22-9a Diverse basidiomycetes (a) The giant puffball Lycopedon giganteum may produce up to 5 trillion spores.FIGURE 22-9a Diverse basidiomycetes (a) The giant puffball Lycopedon giganteum may produce up to 5 trillion spores.

    48. FIGURE 22-8 The life cycle of a typical basidiomyceFIGURE 22-8 The life cycle of a typical basidiomyce

    49. Basidiomycetes During sexual reproduction: Two hyphae of different mating types come into contact and fuse, resulting in the formation of a fruiting body

    50. Basidiomycetes Each fruiting body contains numerous club-shaped structures called basidia (singular, basidium) Nuclei within each basidium fuse, forming a diploid zygote

    51. Basidiomycetes Zygote divides by meiosis producing four basidiospores (haploid sexual spores) Basidiospores disperse and germinate to form new haploid hyphae that enter the sexual cycle (asexual reproduction is rare)

    52. Basidiomycetes Better known examples include Mushrooms (some are edible, others are poisonous) Puffballs Shelf fungi (decomposers of wood) Stinkhorns Rusts and smuts (plant parasites) Yeasts

    53. Fairy Rings A fairy ring is a circular pattern of mushroom growth Fairy rings form at the leading edge of an expanding underground fungal mycelium The wider the diameter of the ring, the older the mycelium Some fairy rings are estimated to be 700 years old

    54. FIGURE 22-10 A mushroom fairy ring Mushrooms emerge in a fairy ring from an underground fungal mycelium, growing outward from a central point where a single spore germinated, perhaps centuries ago.FIGURE 22-10 A mushroom fairy ring Mushrooms emerge in a fairy ring from an underground fungal mycelium, growing outward from a central point where a single spore germinated, perhaps centuries ago.

    55. Section 22.3 Outline 22.3 How Do Fungi Interact with Other Species? Lichens Are Formed by Fungi That Live with Photosynthetic Algae or Bacteria Mycorrhizae Are Fungi Associated with Plant Roots Endophytes Are Fungi That Live Inside Plant Stems and Leaves Some Fungi Are Important Recyclers

    56. Symbiotic Relationships A symbiosis is a close interaction between organisms of different species over an extended period of time The fungal member of a symbiotic relationship may be harmful (a parasite of plants or animals) or beneficial (lichens and mycorrhizae)

    57. Lichens Lichens are symbiotic associations between fungi (usually an ascomycete) and algae or cyanobacteria Fungus provides photosynthetic partner with shelter and protection Photosynthetic partner provides fungus with food (sugar)

    58. FIGURE 22-11 The lichen: A symbiotic partnership Most lichens have a layered structure bounded on the top and bottom by an outer layer formed from fungal hyphae. The fungal hyphae emerge from the lower layer, forming attachments that anchor the lichen to a surface, such as a rock or a tree. An algal layer in which the alga and fungus grow in close association lies beneath the upper layer of hyphae.FIGURE 22-11 The lichen: A symbiotic partnership Most lichens have a layered structure bounded on the top and bottom by an outer layer formed from fungal hyphae. The fungal hyphae emerge from the lower layer, forming attachments that anchor the lichen to a surface, such as a rock or a tree. An algal layer in which the alga and fungus grow in close association lies beneath the upper layer of hyphae.

    59. Lichens Grow on a wide variety of materials (soils, tree trunks and branches, rocks, fences, roofs, and walls) Are able to survive environmental extremes (newly formed volcanic islands, deserts) Are very diverse in form

    60. FIGURE 22-12a Diverse lichens (a) A colorful encrusting lichen, growing on dry rock, illustrates the tough independence of this symbiotic combination of fungus and algae.FIGURE 22-12a Diverse lichens (a) A colorful encrusting lichen, growing on dry rock, illustrates the tough independence of this symbiotic combination of fungus and algae.

    61. FIGURE 22-12b Diverse lichens (b) A leafy lichen grows from a dead tree branch.FIGURE 22-12b Diverse lichens (b) A leafy lichen grows from a dead tree branch.

    62. Mycorrhizae Mycorrhizae (singular, mycorrhiza) are symbiotic associations between fungi and plant roots Fungus provides plant with water, minerals, and organic nutrients it absorbs from the soil Plant provides fungus with food (sugar)

    63. FIGURE 22-13 Mycorrhizae enhance plant growth Hyphae of mycorrhizae entwining about the root of an aspen tree. Plants grow significantly better in a symbiotic association with these fungi, which help make nutrients and water available to the roots.FIGURE 22-13 Mycorrhizae enhance plant growth Hyphae of mycorrhizae entwining about the root of an aspen tree. Plants grow significantly better in a symbiotic association with these fungi, which help make nutrients and water available to the roots.

    64. Endophytes Endophytes are fungi that live inside the above-ground tissues of plants Some are parasites that cause plant diseases Some are beneficial to host plants Some ascomycete species live inside grasses and produce substances that are distasteful or toxic to insects and grazing mammals, protecting the grasses from predation

    65. Recyclers Fungi are Earth’s undertakers, feeding on the dead of all kingdoms Fungal saprophytes (feeding on dead organisms) release extracellular substances that digest the tissues of the dead and liberate carbon, nitrogen, phosphorus compounds, and minerals that can be reused by plants

    66. Section 22.4 Outline 22.4 How Do Fungi Affect Humans? Fungi Attack Plants That Are Important to People Fungi Cause Human Diseases Fungi Can Produce Toxins Many Antibiotics Are Derived from Fungi Fungi Make Important Contributions to Gastronomy Fungal Ingenuity

    67. Fungi Attack Plants Fungal parasites cause the majority of plant diseases Ascomycete parasites cause Dutch elm disease and Chestnut blight Rusts and smuts are basidiomycete parasites that cause considerable damage to grain crops

    68. FIGURE 22-14 Corn smut This basidiomycete pathogen destroys millions of dollars' worth of corn each year. Even a pest like corn smut has its admirers, though. In Mexico this fungus is known as huitlacoche and is considered to be a great delicacy.FIGURE 22-14 Corn smut This basidiomycete pathogen destroys millions of dollars' worth of corn each year. Even a pest like corn smut has its admirers, though. In Mexico this fungus is known as huitlacoche and is considered to be a great delicacy.

    69. Fungi Attack Plants Fungi can destroy plant material that has been harvested for human use Cause wooden structures to rot Damage cotton and wool fabrics

    70. Fungi Attack Plants Some fungi benefit agriculture Used to control insect pests such as rice weevils, tent caterpillars, aphids, citrus mites, and grasshoppers Fungi identified that attack mosquitoes that transmit malaria

    71. FIGURE 22-15a Helpful fungal parasites Fungal pathogens can be helpful to humans. For example, fungi such as (a) the Cordyceps species that has killed this grasshopper are used by farmers to control insect pests.FIGURE 22-15a Helpful fungal parasites Fungal pathogens can be helpful to humans. For example, fungi such as (a) the Cordyceps species that has killed this grasshopper are used by farmers to control insect pests.

    72. FIGURE 22-15b Helpful fungal parasites (b) Some fungi might one day be used to help protect humans from disease. A malaria-carrying mosquito infected by Beauveria species is transformed from a healthy animal (top) to a fungus-encrusted corpse in less than two weeks.FIGURE 22-15b Helpful fungal parasites (b) Some fungi might one day be used to help protect humans from disease. A malaria-carrying mosquito infected by Beauveria species is transformed from a healthy animal (top) to a fungus-encrusted corpse in less than two weeks.

    73. Fungi Cause Human Diseases Athlete’s foot, jock itch, and ringworm are caused by fungi that attack the skin Valley fever and histoplasmosis are caused by fungi that attack the lungs Infection occurs when victim inhales spores

    74. Fungi Cause Human Diseases Most vaginal infections are caused by the yeast Candida albicans

    75. FIGURE 22-16 The unusual yeast Yeasts are unusual, normally nonfilamentous ascomycetes that reproduce most commonly by budding. The yeast shown here is Candida, a common cause of vaginal infections.FIGURE 22-16 The unusual yeast Yeasts are unusual, normally nonfilamentous ascomycetes that reproduce most commonly by budding. The yeast shown here is Candida, a common cause of vaginal infections.

    76. Fungi Produce Toxins Molds of the genus Aspergillus produce aflatoxins, highly toxic, carcinogenic compounds Infect foods such as peanuts

    77. Fungi Produce Toxins Claviceps purpurea (an ascomycete) produces several toxins Infects rye plants and causes ergot disease Symptoms of ergot poisoning include vasoconstriction of blood vessels, vomiting, convulsive twitching, hallucinations, and death

    78. Fungi Produce Antibiotics Penicillin First antibiotic to be discovered Used to combat bacterial diseases

    79. FIGURE 22-17 Penicillium Penicillium growing on an orange. Reproductive structures, which coat the fruit's surface, are visible, while hyphae beneath draw nourishment from inside. The antibiotic penicillin was first isolated from this fungus.FIGURE 22-17 Penicillium Penicillium growing on an orange. Reproductive structures, which coat the fruit's surface, are visible, while hyphae beneath draw nourishment from inside. The antibiotic penicillin was first isolated from this fungus.

    80. Fungi Produce Other Drugs Cyclosporin Used to suppress the immune response during organ transplants

    81. Fungi Contribute to Gastronomy Certain ascomycete molds impart flavor to some of the world’s most famous cheeses Roquefort Camembert Stilton Gorgonzola

    82. Fungi Contribute to Gastronomy Yeasts are used in the production of wine, beer, and bread Wine is produced when yeasts ferment fruit sugars; ethyl alcohol is retained, while CO2 is released

    83. Fungi Contribute to Gastronomy Beer is derived when yeasts ferment sugars in germinating grains (usually barley); ethyl alcohol and CO2 are retained Bread rises when yeasts ferment sugar that has been added to bread dough; both ethyl alcohol and CO2 escape during baking

    84. Fungi Contribute to Gastronomy Some fungi are consumed directly Mushrooms (a basidiomycete) Morels (an ascomycete) Truffles (an ascomycete)

    85. FIGURE 22-18 The truffle Truffles, rare ascomycetes (each about the size of a small apple), are a gastronomic delicacy.FIGURE 22-18 The truffle Truffles, rare ascomycetes (each about the size of a small apple), are a gastronomic delicacy.

    86. Fungal Ingenuity The truffle has evolved an effective adaptation for dispersal of its spores Releases an odor which causes pigs and other animals to dig it up, scattering spores to the winds The zygomycete Pilobolus has evolved bulb tops that blast off, spreading spores

    87. FIGURE 22-19 An explosive zygomycete The delicate, translucent reproductive structures of the zygomycete Pilobolus literally blow their tops when ripe, dispersing the black caps with their payload of spores.FIGURE 22-19 An explosive zygomycete The delicate, translucent reproductive structures of the zygomycete Pilobolus literally blow their tops when ripe, dispersing the black caps with their payload of spores.

    88. Fungal Ingenuity Arthrobotrys cleverly traps and “strangles” microscopic roundworms called nematodes to obtain nutrients

    89. FIGURE 22-20 Nemesis of nematodes Arthrobotrys, the nematode (roundworm) strangler, traps its prey in a noose-like modified hypha that swells when the inside of the loop is contacted.FIGURE 22-20 Nemesis of nematodes Arthrobotrys, the nematode (roundworm) strangler, traps its prey in a noose-like modified hypha that swells when the inside of the loop is contacted.

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