Chapter 31

1. Chapter 31 Fungi

2. Characteristics • eukaryotic • mostly multicellular, yeasts unicellular • no locomotion • sexual & asexual reproduction in most • heterotrophic by absorption (digestion extracellular) • > 100,000 species • saprophytes (also parasites, mutualistic symbionts) • some pathogenic • decomposers • classified by sexual reproduction • cell walls of chitin (polysaccharide)

3. Structure • hyphae – rootlike structures for absorption which collectively form a network, mycelium • cell walls: • septate – with cross walls with large pores • aseptate(coenocytic)–no cross walls; multinucleate • haustoria – nutrient-absorbing threads that penetrate tissues of host in some parasitic types • hyphae may grow as fast as 1km/day • mycelia have haploid nuclei, some dikaryons- 2 separate nuclei that are dissimilar

4. Fungal mycelia

5. Cell wall types

6. Figure 31.2x Septate hyphae (left) and nonseptate hyphae (right)

7. Haustoria

8. Reproduction • spores (usu. haploid), diploid in brief sexual reproductive cycles, then meiosis returns these to haploid • syngamy – nuclear union in fertilization usu. involves some form of conjugation • usu. asexually in optimal condtions, sexually in harsh conditions

9. Generalized life cycle

10. Classification Division Zygomycota – conjugation fungi -common molds, incl. Rhizopus stolonifer, Pilobilus ~600 sp. mostly terrestrial in soil or on decaying plants/animals -coenocytic hyphae -asexually produce sporangia -sexually by zygosporangia formed during conjugation (+ and – strains fuse)

11. Zygomycete life cycle

12. Conjugation

13. Rhizopus

14. Pilobilus

15. Division Ascomycota– sac fungi ~30,000 sp. -yeasts (Saccharomyces, Candida), Peziza (cup fungus), morels, Ceratocystis ulmi – causes Dutch elm disease -septate hyphae -asexually by conidia on conidiophores -sexually by haploid ascospores in asci -most fungal symbionts in this group

16. Ascomycete life cycle

17. Peziza, truffle, morel

18. Yeast

19. Penicillium

20. apothecia

21. Division Basidiomycota – club fungi ~25,000 sp. -mushrooms, puffballs, shelf fungi -produce > 10 billion spores -septate hyphae -asexually none, or conidia in some -sexually by basidiospores in basidium

22. Basidiomycete life cycle

23. basidiomycetes

24. Gills of a basidiomycete

25. Stinkhorn,Phallis impudicus

26. Amanita (death cap)

27. Fairy ring

28. Division Deuteromycota – imperfect fungi ~25,000 sp. -ringworm, athlete’s foot fungus, Arthrobotrys – prey on roundworms in soil -asexually by conidia -sexually none observed

29. Symbioses 1) lichens – algae (filamentous green) – Chlorophyta or blue green (cyanobacteria) & fungus (ascomycete) -may reproduce asexually either from fragments or by dispersing tiny airborne starters, soredia

30. Lichen structure

31. each organism also reproduces either sexually or asexually • alga provides food for fungus, fungus provides moisture, minerals, protection to alga perhaps • thought to be more of a controlled parasitism, than mutualism

32. Lichens • usu. given genus & specific name • 3 types: a) crustose – crusty b) foliose – leafy c) fruticose – shrubby *air pollutant indicators

33. Crustose, fruticose, & folliose lichens

34. Symbioses 2) mycorrhizae – plant roots & fungus -plant provides nutrients, fungus provides more surface area to absorb water -usu. basidiomycetes, may also be ascomycetes or zygomycetes *found in ~90% of tree species

35. Benefits of mycorrhizae

36. Mycorrhizae

37. Importance Beneficial: • decomposers • food source • source of antibiotics • used in food and alcohol industries

38. Fungal production of an antibiotic

39. Importance Harmful: • decay products • cause disease • destroy crops • spoil food

40. wheat rust, ergot on rye

41. pink ear disease of corn