Kingdom Fungi

1. Kingdom Fungi • Continued......

2. Fungal Phyla • 3 phyla but 4 groups: • Phylum Zygomycota (zygomycetes or bread molds): Meiospores made by zygosporangium (resistant microscopic structure). • Phylum Ascomycota (ascomycetes or sac fungi): Meiospores made in sac-like ascus. Asci (plural) containing in fruiting body called ascoma (plural ascomata). • Phylum Basidiomycota (basidiomycetes or club fungi): Meiospores made on club-like basidium. Basidia (plural) contained in fruiting body called basidioma (plural basidiomata).

3. Fungal Phyla • 3 phyla but 4 groups • 4th group? Fungi that don’t make meiospores (to our knowledge) • Called Imperfect Fungi • Reproduce only asexually (by mitospores) • Not a true phylum but a temporary holding group.

4. Fungal Phyla: Zygomycota • Small group (1,000 species)

5. Fungal Phyla: Zygomycota • Small group (1,000 species) • Make coenocytic hyphae (no crosswalls).

6. Fungal Phyla: Zygomycota • Zygosporangium is key trait: often thick-walled and stress-resistant • No dikaryotic hyphae: karyogamy followed by meiosis. Zygosporangium photo Zygosporangia of 3 genera of zygomycetes

7. Fungal Phyla: Zygomycota • Make two types of spores: • meiospores from zygosporangium • mitospores (asexual) from mitosporangia. These help fungus to spread rapidly. mitospores meiospores

8. Fungal Phyla: Ascomycota • Largest group of fungi (32,000 species) Scarlet cup Morel Carbon fungus

9. Fungal Phyla: Ascomycota • Hyphae septate

10. Ascoma • Meiospores (called ascospores) made in ascus in ascoma (fruiting body) • Dikaryotic hyphae and monokaryotic hyphae together form ascoma.

11. Fungal Phyla: Ascomycota • Mitospores often made by pinching off cells at tips of hyphae. These called conidia. Each can start new mycelium.

12. Fungal Phyla: Ascomycota • Yeasts: an important group of (mostly) ascomycetes • Fermentation by yeasts useful for making alcoholic beverages and in baking. Worth billions of dollars a year to industry. Modern industrial wine-making

13. Fungal Phyla: Ascomycota • Yeasts: an important group of (mostly) ascomycetes • Some yeasts can cause disease: yeast infections and others. Yeast infection between toes

14. Fungal Phyla: Ascomycota Morel • Some ascomata are edible and highly prized by gourmets • Truffles (worth up to $320/pound) • Morels Truffle cut open Pile of truffles

15. Fungal Phyla: Basidiomycota • Large group (22,000 species) Earth stars Inky caps

16. Fungal Phyla: Basidiomycota • Hyphae septate

17. Fungal Phyla: Basidiomycota • Meiospores made on club-shaped basidium in basidioma (fruiting structure) • Dikaryotic hyphae predominate in life of organism, and basidioma made only of these hyphae.

18. Fungal Phyla: Basidiomycota A mushroom • Basidiomata commonly observed. A jelly fungus A stinkhorn A shelf or bracket fungus

19. Fungal Phyla: Basidiomycota • Sometimes form circle as fungus grows from initial point: “fairy ring”

20. Fungal Phyla: Basidiomycota • Sexual reproduction: Usually do not make mitospores, but mycelium can become fragmented to form separate individuals.

21. Fungal Phyla: Basidiomycota • Humongous fungus! • Largest organism on planet? • Armillaria in National Forest in Oregon reported to be 3.5 miles across, cover 2,200 acres. May be 2,400 yr old. Fig. 36.6 Aerial view of smaller forest patches infected by Armillaria in Montana

22. Fungal Phyla: Basidiomycota • Importance: • decomposers Rotting log with basidiomata on it

23. Fungal Phyla: Basidiomycota • Importance: • food (basidioma eaten, but beware of poisonous ones) Amanita (death cap fungus: A poisonous basidioma

24. Fungal Phyla: Basidiomycota • Importance: • pathogens of plants (smuts and rusts cause billions of dollars in damage to grain crops). Corn smut Stem rust on wheat Ergot on wheat or rye Ergotism, LSD, Salem witch trials

25. Fungal Groups: Fungi Imperfecti • Large group (17,000 species) • Hyphae septate • Reproduction asexual only, by conidia • Most thought to be Ascomycota fungi, but until sexual reproduction observed we can’t be sure! Fig. 36.12, showing conidia of several genera

26. Fungal Groups: Fungi Imperfecti • Importance • decomposers • food rotters (can make toxins: aflatoxins in peanuts) • food production (flavor cheeses: Roquefort, Bleu cheese) Bleu cheese

27. Fungal Groups: Fungi Imperfecti • Importance • produce antibiotics (ex, penicillin from Penicillium) and other drugs (cyclosporin) Note inhibited growth of Staph bacterium near fungus colony

28. Fungal Groups: Fungi Imperfecti • Importance • plant and animal diseases (human examples: athlete’s foot and ringworm) Athlete’s foot infections Ringworm on leg

29. Special Fungal Mutualisms • Mutualism: relationship between 2 species where both benefit • Lichens: partnership between fungi and unicellular photosynthesizer (green alga or cyanobacteria) Fig. 36.13

30. Special Fungal Mutualisms • Fungus forms body and protects and directs photosynthesizer, obtains materials from partner • Together, can colonize harsh environments. Fig. 36.14

31. Lichen Importance • Primary producers in harsh environments (base of food chains) • Ex, reindeer in arctic eat large amounts of lichens • Some are pollution sensitive: used as bioindicators of air quality.

32. Special Fungal Mutualisms • Mycorrhizae: Association of fungus with plant root • Common: 90% of plants do this! • Mutualism: fungus extends into soil and aids in uptake of nutrients (P, Zn, Cu in particular) for plant • Fungus obtains sugars from plant.

33. Special Fungal Mutualisms • Important in revegetation/reclamation of disturbed areas: if fungi not present, plants don’t do well!. Plant on left grown without mycorrhizal fungi

34. Special Fungal Mutualisms • Two types: endomycorrhizae in which fungus penetrates root cells • Ectomycorrhizae in which fungus penetrates between root cells. Fig. 36.15b Fig. 36.15a

35. Special Fungal Use: Biocontrol • Biocontrol: Using an organism’s natural enemies against it • Some fungi attack insect pests • Some fungi capture and consume nematodes (roundworms) that can cause agricultural problems. Nematode predator fungus showing ring-like traps holding worm Fly killed by fungus

36. Plants: Kingdom Plantae • Large: 300,000 species

37. Plants: Kingdom Plantae • Important: • Gorgeous

38. Plants: Kingdom Plantae • Important: • Major producers in terrestrial ecosystems

39. Plants: Kingdom Plantae • Important: • Vital for human food, medicines, clothing, building materials, etc. Foxglove: source of digitalin (heart med.) Cotton Corn Lumber from trees

40. Plants: Kingdom Plantae • Important: • Create much of the oxygen in atmosphere (and ozone!) Aquatic plant making oxygen bubbles during photosynthesis

41. Oxygen and Ozone • Ozone is pollutant at Earth’s surface • At outer atmosphere, oxygen gas produces ozone layer • Vital, as it absorbs lots of ultraviolet (UV) radiation • UV radiation damages DNA in skin cells • Can cause skin cancer.

42. The Ozone Hole • Some pollutants damage ozone layer • It’s getting thinner • At South Pole, a hole has started to appear • Getting larger.

43. The Ozone Hole • Some pollutants damage ozone layer (getting thinner) • At South Pole, a “hole” has started to appear.

44. The Ozone Hole • UV light is one cause of skin cancer • Australia already has highest skin cancer rate on Earth.

45. Plants: General Features • Chemistry • chlorophylls a + b, carotenoids (accessory pigments that aid photosynthesis) • energy stored as starch

46. Plants: General Features • Chemistry • cell walls of cellulose Fig. 5.9a

47. Plants: General Features • Chemistry • review: starch and cellulose are both made of glucose. Fig. 3.27

48. Plants: General Features • Water-saving features (most) • cuticle: waxy layer on body surface • stomata: specialized cells that form pores in surface (let CO2 in for photosynthesis, can close to prevent water loss when it’s dry) Glowing layer is cuticle

49. Plants: General Features • Water transport tissues: vascular tissues • Xylem: dead cells that carry water. Walls rigid with lignin (reinforcing material, resists decomposition) • Phloem: living cells that carry sugars. Xylem tissue Phloem tissue

50. Plants: General Features • Reproductive features • Sporic meiosis (form gametophyte and sporophyte bodies) • Gametes specialized (oogamy) • eggs: contain genes and stores materials (large) • sperm: contain genes. Small to be mobile • Gametangia specialized • made of many cells (multicellular) • with outside layer of protective cells (sterile jacket)