quiz 9

Question 1

Major classes within the Pezizomycotina

Answer 1

Sordariomycetes

Question 2

Sordariomycetes- morphological traits

Answer 2

• perithecial ascomata
  - (flask-shaped with a pore that releases spores)
  - form on or in a stroma
• ~fusion~ between distinct gametangia
• hermaphroditic with few female traits
  - “female traits”- ascogonium production
  - different from mating types

Question 3

Sordariomycetes- what distinguishes them from other classes?

Answer 3

• diverse anamorphs
• major group of plant pathogens and endophytes (economically important)
• many produce toxins, also making them economically important

Question 4

how many taxonomic groupings of Sordariomycetes are we learning?

Answer 4

six orders within three subclasses

Question 5

Gametangia of Sordariomycetes

Answer 5

spermatia (male gametes)
- essentially conidia on an antheridia (which is like a conidiophore)
- ASEXUAL

ascogonia or protoperithecia
- with trichogynes
- SEXUAL- occurs at the same time as asexual stages

Question 6

the three major subclasses within the Sordariomycetes

Answer 6

Sordariomycetidae
Hypocreomycetidae

Question 7

Sordariomycetidae- characteristics

Answer 7

• perithecial (flask-shaped) ascomata with colors that range light to dark
• Stroma producing the perithecium: small or non-existent

Question 8

Four major orders of subclass Sordariomycetidae

Answer 8

Sordariales
Diaporthales
Ophiostomales
Magnaporthales

Question 9

Sordariales characteristics

Answer 9

• generally saprophytic
• habitat: wood, dung, other saprophytes
• ascospores dark w appendages
• asci w distinct apical ring

Question 10

Diaporthales

Answer 10

• plant parasites
• stromatic ascomata with long perithecial necks (unlike the rest of the groups of sordariomycetidae)

Question 11

Ophiostomales

Answer 11

• long perithecial with long necks OR
• prototunicate asci
• associated w insects

Question 12

Magnaporthales

Answer 12

• sexual stage almost never seen (asexual stage allows spread of disease to happen very quickly)
• infect grasses, rice, turf
• necrotrophic
• infects leaves via penetration of appresorium
• turgid pressure helps it punch thru the leaf

Question 13

Name the pathogen responsible for Chestnut Blight. Provide its taxonomic grouping (order, subclass and class)

Answer 13

• Cryphonectria parasitica
• class sordariomycetes, subclass sordariomycetidae, order diaporthales

Question 14

describe/illustrate & label the major components of the asexual and sexual stages of Cryphonectria parasitica

Answer 14

kills phloem cells, clogs xylem, erupts thru bark on cankers
- sexual: perithecia from stroma
- asexual: pycnidia (look very similar to perithecia but produce conidia instead of ascospores)

Question 15

Describe hypovirulence and how it’s applied to Cryphonectria parasitica.

Answer 15

• researches found that infecting this species with a double stranded RNA virus reduces its virulence

Question 16

What is anastomosis and how does it play a role in hypovirulence in Cryphonectria parasitica?

Answer 16

• anastomosis allows spread of disease by different strains: hyphae of different strains fuse
• anastomosis isn’t possible for all strains, only those within the same VCG, so all VCGs must be infected

Question 17

Differentiate between the relationship between bark beetles & fungi, and the relationship between ambrosia beetles and fungi. Which order of fungi are most commonly associated with both of these beetles.

Answer 17

• both in ophistiomatales
• bark beetles spread diseases
• ambrosia beetles aid in fungus farming

Question 18

Name the pathogen(s) associated with Dutch Elm Disease. Illustrate/describe in detail the disease cycle, be sure to label all appropriate asexual and sexual fungal structures.

Answer 18

Ophiostoma lumi and novo-ulmi
- beetles lay eggs under bark of dead trees
- beetle galleries created
- produce synnema that produce spores that are spread by beetles to healthy trees
- fungus develops in tree xylem
- produce both ascospores and conidia
- can spread btwn roots

Question 19

families within the order Hypocreales

Answer 19

Nectriaceae
Hypocreaceae

Question 20

List and describe three major plant diseases caused by Fusarium, and identify the species responsible for these diseases, and any toxins they may produce.

Answer 20

Head scab of wheat and barley
- F. graminearum
- Deoxynivalenol aka vomitoxin
Ear rot of corn
- F. verticillioides
- fumonisin mycotoxins
Vascular wilts
- F. oxysporum
- activates plant defense in xylem
- cause of Panama disease of bananas

Question 21

Describe/illustrate how/where sexual structures are formed in Claviceps purpurea. Label the structures appropriately.

Answer 21

• salem witch trials: convulsions, hallucinations, ants crawling on skin
• produce conidia that help it spread plant to plant
• hyphae develop into sclerotium- survival structure for winter
• develop stroma that produce perithecia (containing asci)

Question 22

Describe/illustrate the disease cycle of the Zombie-Ant Fungus, Ophiocordyceps unilateralis.

Answer 22

• ants infected while foraging on forest floor: pick up asci
• germinate
• hyphae spread thru cuticle then musculature of the ant
• musculature cut off from brain- muscles are under control of the fungus
• climbs up to leaf or stem, paralyzed in place with a “death grip,” dies of starvation
• stroma and perithecia containing asci grow out of the ant and release ascospores that fall on the ground

Question 23

Describe how you would determine if the mold growing in your bathroom is the “toxic mold” Stachybotrys? What toxin does it produce, and provide its taxonomic classification from class to family.

Answer 23

• wet environment
• growing on wood
• put tape on the mold and fold it in half- look at under microscope
• spores- black, rough edge, conidiophores have spores growing directly off the hyphae

Question 24

How might you tell members of the Xylariales apart from other Sordariomycetes?

Answer 24

• black/brown ascospores with germ spore or slit
• black stromata
• asci w apical ring
• saprophytes
• parasites
• eg: dead man’s fingers

Question 25

How do the Dothideomycetes differ from the Sordariomycetes?

Answer 25

• bitunicate asci
• produce pseudothecia- similar to perithecium but more like a cavity formed/embedded within a stroma with differentiated wall tissue- not really a separate structure

Question 26

two major orders of Dothideomycetes that we covered.

Answer 26

Capnodiales
Pleosporales

Question 27

Capnodiales

Answer 27

sooty molds, leaf spot diseases

Question 28

Pleosporales

Answer 28

produce pycnidia that produce asexual spores (recall pycnidia look similar to perithecium)

leaf spots, stem cankers, tomato blights

Question 29

List the major classes of “Discomycetes”.

Answer 29

Pezizomycetes
Leotiomycetes
Lecanoromycetes
Orbiliomycetes

Question 30

Pezizomycetes

Answer 30

true truffles

Question 31

Leotiomycetes

Answer 31

non-lichenized, inoperculate

Question 32

Lecanoromycetes

Answer 32

lichenized, inoperculate

Question 33

Orbiliomycetes

Answer 33

non-lichenized, inoperculate

Question 34

In which group of “discos” would you find the Erysiphales? How do they differ from other members of this group? What are they known for?

Answer 34

non-discos
powdery mildews

Question 35

Name the pathogen responsible for White Nose Syndrome. Provide its taxonomic classification (Class and Order), and describe how it kills its bat host.

Answer 35

Pseudogymnoascus destructans

Question 36

Describe lichens, including their major structures (asexual and sexual), as well as their major thallus forms.

Question 37

Order of hypocreomycetidae

Answer 37

Hypocreales

Question 38

families in order hypocreales

Answer 38

• hypocreaceae
• nectriaceae
• ophiocordycipitaceae/ cordycipitaceae
• niessliaceae

Question 39

ophiocordycipitaceae/cordycipitaceae

Answer 39

family in order hypocreales
eg: cordyceps

Question 40

Hypocreales order- characteristics

Answer 40

• bright perithecia w or w/o stroma
• plant, animal, insect, fungal parasites
• diverse anamorphs

Question 41

Nectriaceae

Answer 41

• Nectria genera have orange/red perithecia, eg beech bark disease
• anamorph: fusarium

Question 42

Fusarium

Answer 42

• canoe shaped macroconidia
• saprophytes and endophytes
• plant parasites, human & animal pathogens, toxin producers

Question 43

Hypocreaceae characteristics

Answer 43

family in order hypocreales

• fungal parasites
• stromatic ascomata
• often lignicolous

Question 44

niessliaceae

Answer 44

black mold
require water activity
distinctive anamorph
grow on degrading cellulose