1. 1 There’s a FUNGUS among us! Mycena lux-coeli

2. 2 Historically “true fungi” Oomycetes Slime Molds

3. 3 Oomycota include the so-called water molds and downy mildews filamentous protists "Oomycota" means "egg fungi," and refers to the large round oogonia, or structures containing the female gametes (as shown)

4. 4 Oomycetes feed on decaying matter like fungi parasites on both plants and animals root rot, blister rusts, downy mildews, lesions on fish, farm animals, & humans Now placed in the Kingdom Chromista

5. 5 Oomycetes: Historical Importance Phytophthora infestans : late blight of Potato – Irish potato famine Plasmopara viticola : downy mildew of grapes – nearly wiped out French wine industry – discovery of the first fungicide

6. 6 Slime Molds (Photographs by Michel Poulain) life cycle that superficially resembles that of the true fungi life cycle Now placed in the kingdom Protista Three main groups Plasmodial Cellular Slime nets

7. 7 Plasmodial Slime Molds Basically enormous single cells with thousands of nuclei They are formed when individual flagellated cells swarm together and fuse

8. 8 Cellular Slime Molds Spend most of their lives as separate single-celled amoeboid protists Individual cells aggregate into a great swarm after release of a chemical signal

9. 9 Labyrinthulomycota little known about this group Possess a structure called a net- plasmodium during the vegetative stage have an organelle called a bothrosome capable of secreting a membrane outside their cells Cause a disease of sea grasses

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11. 11 What are True FUNGI?  Eukaryotic organisms  Heterotrophic, lacking chlorophyll  Obtain nutrients via enzyme secretion and absorption of resulting byproducts  Cells walls containing chitin and beta glucans  Glycogen as primary food storage

12. 12 More About Fungi Can reproduce both sexually and asexually Heterotrophic – as such can consume almost any carbonaceous substrate including jet fuel and wall paint Biggest role is in the recycling of dead plant material

13. 13 Relationships  More closely related to animals than to plants  Emerged onto dry land about the same time as plants. Myccorhizal relationships likely date from this time as well.  Four divisions  One form-division

14. 14 Basidiomycete Life Cycle

15. 15 Divisions Chytridiomycota Zygomycota Ascomycota Basidiomycota Dueteromycota

16. 16 Chytridiomycota Aquatic Flagellated gametes Basal group in kingdom Oldest known fungal fossil found in northern Russia – from the Devonian Period (650-543 mya)

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18. 18 Zygomycota Sexual reproduction via production of a zygospore Asexual reproduction common Occur on a wide variety of substrates May be saprophytic or parasitic

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20. 20 Ascomycota  The “Sac Fungi”  Account for ca. 75% of all described fungi  Spores produced in ASCI (ascus) – typically 8 ascospores produced  Sexual reproduction female gametangia grow toward male gametangia

21. 21 Ascomycota cont. True truffles, morels, cup fungi, most lichens Yeasts (Saccharomyces cerevisiae – used in baking and brewing) Chestnut Blight (Cryphonectria parasitica), Dutch Elm Disease (ophiostoma ulmi), Pneumonia (Pneumocystis carinii) Aspergillus flavus – produces aflatoxin (the most powerful known carcinogen and toxin)

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23. 23 Basidiomycota Gametangia not formed, nuclear material exchanged in various ways Many have clamp connections Spores produced on Basidia (basidium) Mushrooms (toadstools), puffballs, jelly fungi, bird nest fungi, bracket, smuts, rusts, and stinkhorns Oldest known fossil from New Jersey Amber dating from the Cretaceous age (90-95 mya)

24. 24 Basidiomycota cont. Play significant role in the carbon cycle Form ectomycorrhizal partnerships (principally with forest trees) and symbiotic relationships Divided into three major groups

25. 25 Clamp connection

26. 26 Fossil

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28. 28 Deuteromycota Form-group, artificial grouping Sexual reproduction stage unknown (maybe lost) Members transferred to proper group when sexual stage is observed Penicillium, Aspergillus

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30. 30 Lichens Symbiotic relationship between a fungal partner and photosynthetic autotroph (typically an alga or cyanobacterium) Fungal partners tend to be Ascomycetes Sensitive to air pollution Several forms – crustose (flat and crust-like), foliose (leaf-like, loosely attached to the substrate), fruticose (strap shaped to cylindrical, upright or pendulous); intermediate forms common Typically divided into 1 or more layers internally

31. 31 Lichens cont. Identification based on form, layers, color, chemical tests, and substrate Play a significant role in nitrogen fixation, water absorption and retention, and soil building Are a major part of the cryptobiotic soils of desert regions Slow growth rates – age often measured in decades or centuries

32. 32 Crustose Lichens

33. 33 Foliose Lichens

34. 34 Fruticose Lichens

35. 35 Fungal Ecology Saprobe decomposer of all terrestrial organic matter (and some aquatic matter) Pathogen purveyor of plant and animal disease Mycorrhizae symbiosis of plant and fungus (fungi)

36. 36 Mycorrhizae The term mycorrhiza, which literally means fungus-root first applied to fungus-tree associations described in 1885 95% of all plant species

37. 37 Mycorrhizae Cont. Symbiotic associations that form between the roots of most plant species and fungi characterized by bi-directional movement of nutrients where carbon flows to the fungus and inorganic nutrients move to the plant

38. 38 HYPHAE Twine together to form large masses called mycelium (Some even glow in the dark, as in this Mycena)

39. 39 hyphae septa

40. 40 Fruiting Bodies Ascocarp Basidiocarp Elegant designs for spore dispersal Wind dispersal Water dispersal Animal dispersal

41. 41 Ascocarp

42. 42 Basidiocarp

43. 43 Wind Dispersed

44. 44 Water Dispersed

45. 45 Animal Dispersal

46. 46 Fungal Structure Pileus Stipe Hymenium surface Ascomycete -vs- Basidiomycete

47. 47 The Pileus The mycological way of saying a cap Yes, you will need to know the proper name

48. 48 Pileus Features

49. 49 Stipe The mycological name for the stem Not always present !!!

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51. 51 volva annulus

52. 52 Hymenium Surface Where the sexually produced spores are produced Different arrangements for maximizing surface area Lamellae, pores, teeth, folds, smooth, pitted, packaged

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54. 54 Ascomycota -vs- Basidiomycota

55. 55 Photo and Text Credits Tom Volk: Boletus conferigera, Bolete pores, Dacrymyces sp., Cortinarius cortina, Hericium coralloides, Geupeniopsis alpina, Tuber gibbosum Michael Wood: Xylaria hypoxylon, Sarcoschypha coccinea, Ramariopsis kunzei, Lenzites betulina, Morchella sp., Amanita constricta, Nidula candida, Calbovista subsculpta, Sparassis crispa, Geopyxis vulcanalis, Amanita caesarea Taylor Lockwood: Hydum repandum, Aluria aurantia, clamp connection Bruce McCune: Hypogymnia enteromorpha, Hydrothyria venosa Eric B. Peterson: Letharia vulpina, Esslingeriana idahoensis Anki Camacho: Omphalina umbellifera, Nodobryoria oregana Roger Roetreter: Texosporium sanci-iacobi Kathy Merrifield Usnea filipendula Mold-Help: Aspergillus niger Malloch Lab, Univ. of Toronto: Penicillium sp. U. of Wisc. Med. School: Penicillium sp. Intermountain Herbarium, U.S.U. Michael B. Piep: text and content All photos are copy write protected by the photographer. All rights reserved.