1 / 66

Basidiomycota

Basidiomycota. Mushrooms, bracket fungi, puffballs, rusts and smuts. Basidiomycota. Large phylum – 16,000 spp of higher fungi All produce a basidium – club shaped structure (site of karyogamy & meiosis) that produces haploid basidiospores. Basidia.

carmelaa
Download Presentation

Basidiomycota

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Basidiomycota Mushrooms, bracket fungi, puffballs, rusts and smuts

  2. Basidiomycota • Large phylum – 16,000 spp of higher fungi • All produce a basidium – club shaped structure (site of karyogamy & meiosis) that produces haploid basidiospores

  3. Basidia • Basidia divided into two types depending on whether they are septate • Septate basidia – phragmobasidia • Septa can be transverse or longitudinal • Aseptate basidia - holobasidia

  4. Hyphae • Hyphae are regularly septate • Specialized type of pore can occur – dolipore septum with parenthosome • Allows cytoplasmic movement but prevents nuclear migration from one compartment to the next

  5. Basidiomycota • Three classes • Basidiomycetes – produce a basidioma, (multicellular fruiting body), includes the mushrooms, brackets, puffballs, jelly fungi, stinkhorns • Uredinomycetes – no basidioma, teliospore produces basidia, obligate plant parasites, the rusts • Ustomycetes – no basidioma, teliospore produces basidia, facultative plant parasites, the smuts

  6. Class - Basidiomycetes • Produce macroscopic basidiomata • Most produce holobasidia, phragmobasidia produced by some jelly fungi • Large and diverse class • In life cycle, dikaryotic mycelium becomes the major vegetative mycelium – dikaryotic phase is extended over the Ascomycota

  7. Life cycle • Haploid basidiospores germinate to produce haploid mycelium = primary mycelium • In some species, the primary mycelium contains one nucleus in each compartment, in others, there may be multiple nuclei/compartment – also called monokaryon since it contains nuclei of one genotype • Primary mycelium exhibits limited growth

  8. Life cycle • Plasmogamy occurs shortly after basidiospore germination • Most Basidiomycetes are heterothallic • Plasmogamy occurs between two compatible hyphae (somatogamy) – no specialized sex cells • Plasmogamy initiates dikaryotic phase or the secondary mycelium (dikaryon) • After plasmogamy, nuclei migrate into monokaryotic cells to establish dikaryotic condition

  9. Dikaryon • As mycelium grows, nuclei divide conjugately to maintain dikaryotic condition in cells • Dolipore septum prevents nuclear migration so that each compartment contains two nuclei, pore is 0.1-0.2 μm in diameter • Under certain conditions (e.g. after plasmogamy), dolipore septum breaks down to allow nuclear migration

  10. Dikaryon • Secondary mycelium is the major vegetative phase of Basidiomycota • Many Basidiomycetes also form clamp connections (formation is reminiscent of crozier formation in Ascomycota)

  11. Clamp connections • Branch that grows back

  12. Clamp connections • Thought to be a mechanism to maintain dikaryotic condition • Only found in dikaryotic hyphae, but not all dikaryotic hyphae form them

  13. Dikaryon • Dikaryon grows – may reproduce asexually, but asexual reproduction is not widespread in Basidiomycetes • Favorable environmental conditions stimulate formation of basidiomata • Multiple basidiomata can be produced from mycelium - one plasmogamy

  14. Basidioma • Composed entirely of dikaryotic hyphae (unlike ascoma) • May be considerable tissue differentiation • Typically macroscopic, forms button then expands

  15. Basidioma • Within the basidioma, cells in fertile regions – the hymenium - will develop into basidia and produce basidiospores • As the basidium develops, karyogamy and meiosis take place meiosis karyogamy

  16. Basidium • Sterigma (pl. –mata) – projections from basidium to basidiospores • Basidia may or may not produce sterigmata

  17. Basidioma • Basidia are produced in hymenia – fertile regions in the basidioma (will discuss position in different basidiomata)

  18. Basidia • Basidia with sterigmata can actively discharge basidiospores • Basidiospores are positioned at a 45 angle • 5-10 seconds before discharge a droplet forms

  19. Basidia • Thought that force to discharge spore comes from droplet flowing around the spore form a hydrophobic region to a wettable region • Change in center of mass of spore rapidly is thought to provide the force to discharge it • Drop of fluid accompanies the spore

  20. Basidia • Spore is discharged less than a mm, then drops straight down • Hymenia must be vertical with respect of gravity

  21. Basidioma • Many basidiomata exhibit geotropism • Hymenium exhibits positive geotropism • Basidioma exhibits negative geotropism

  22. Basidioma • Basidiospores fall out of basidioma, into turbulent air current and are carried away

  23. Basidioma • Composed entirely of dikaryotic hyphae • Basidioma is generally divided into 3 zones • Hymenium – layer of basidia with basidiospores • Subhymenium – distinct area that gives rise to hymenium • Trama – comprises the bulk of the basidioma, separates hymenia • May also have cuticle – skin like layer on surface of some

  24. Overall life cycle

  25. Representative Basidiomycetes • Jelly Fungi - Basidiomycetes that can be grouped into the “jelly fungi” belong to 6 orders • Basidioma of these fungi is typically gelatinous – during development hyphae in some tissues disintegrate and leave a gelatinous mass

  26. Jelly fungi • Most are saprotrophic on wood, some may be parasitic • Most of little economic value • Some used as food – wood ear • Shape of basidiomata varies – cushion shaped, ear shaped • May dry out to a hard, horny texture and then become rewetted to become gelatinous again • Most produce phragmobasidia, those that produce holobasidia have a unique morphology

  27. Auricularia– ear fungus, wood ear • Hymenium on surface of basidoma

  28. Tremella • cushion shaped basidioma that can vary in color (white, yellow, brown, black)

  29. Dacrymyces • cushion shaped basidiomata that are frequently bright yellow

  30. Aphyllophorales • Large order - ~2000 spp. • Includes species that primarily produce dry, woody, corky basidiomata (some may be fleshy) • Produce holobasidia • Hymenium is on the surface of the basidioma in some; surface may be smooth, ridged or spiny • Hymenium may line tubes or gills – if the hymenium lines tubes or gills then the basidioma is always woody, never fleshy

  31. Wood decomposition • White rots – lignin preferentially decomposed • Brown rots – cellulose preferentially decomposed

  32. Corticium • Simplest type of basidioma – thin, flattened, resupinate basidiomata that are on the surface of wood or bark • Hymenium is flat and covers the surface of the basidioma (resembles paint)

  33. Clavaria – coral fungi • Produce club shaped or branched basidiomata • Hymenium covers surface of branches except at base • Resemble coral, brightly colored, yellow, orange, violet

  34. Coral fungi • Other species

  35. Toothed or hedgehog fungi • Hymenium formed on surface of spines or teeth like projections that point down

  36. Toothed fungi • Others

  37. Chanterelles • Form a funnel shaped basidioma with hymenium on ridges on lower surface

  38. Chanterelles

  39. Polypores – bracket fungi • Hymenium lines the surface of pores in woody basidiomata • Some may be perennial

  40. Polypores • Bracket fungi

  41. Polypores

  42. Agaricales • Large order - ~5000 spp • Hymenium lines surfaces of tubes or gills in fleshy basidiomata • Includes the mushrooms and boletes • Primarily saprotrophs in soil, litter or wood • Many are biotrophic – form mycorrhizal associations with trees • Economically important as cultivated mushrooms and mycorrhizae (used in forestry)

  43. Agaricales • Basidiomata arise from extensive perennial mycelia • Overall structure of basidioma

  44. Basidioma structure • Basidia produced in hymenia on gills – flat plate like structures • Cystidia extend out from hymenia • In many, the gills are geotropic – parallel to force of gravity so that basidiospores can fall out once they leave the basidia

  45. Gills • Increased surface area for greater number of basidia

  46. Basidioma development • Hemiangiocarpic development – button is surrounded by a layer of tissue, the universal veil (forms the volva and scales) , also contains a partial veil (forms the annulus and cortina)

  47. Basidioma development • Pseudoangiocarpic development – button has only a partial veil (forms annulus and cortina)

  48. Gymnocarpic development

  49. Gasteroid Basidiomycetes • Many Basidiomycetes bear their basidiospores internally – gasteroid • May or may not form a hymenium • If a hymenium is formed, the basidioma remains closed until basidia form basidiospores • All produce holobasidia

More Related