A. Chytridiomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
B. Zygomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
C. Ascomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
D. Basidiomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
A. Chytridiomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
B. Zygomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
C. Ascomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
D. Basidiomycota
1. Name of fruiting body(if present).
2. Name(s) of unique structure(s)
3. Name of structure produced by meiosis
4. Habitat
5. Ecological Role
6. Possess flagellated cells?
7. Parasitic? (Y/N)
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Related textbook solutions
Related questions
QUESTION 1
These include simultaneous consideration of tolerance ranges for all conditions, resource requirements (of all biotic and abiotic resources), and habitat preferences.
a. | Fundamental ecological niches | b. | Hutchinsonian ecological niches | c. | . Realized ecological niches | d. | Competition coefficients | e. | Competitive exclusion | f. | Coexistence | g. | Isoclines | h. | Stable equilibria | i. | Unstable equilibria |
QUESTION 2
Interspecific competition has this outcome when the effects of intraspecific competition outweigh the effects of interspecific competition.
a. | Fundamental ecological niches | b. | Hutchinsonian ecological niches | c. | Realized ecological niches | d. | Competition coefficients | e. | Competitive exclusion | f. | Coexistence | g. | Isoclines | h. | Stable equilibria | i. | Unstable equilibria |
QUESTION 3
The range of places that species could occupy based on suitability; a hypothetical location and ecological/trophic role in the absence of ecological interactions such as competition.
a. | Fundamental ecological niches | b. | Hutchinsonian ecological niches | c. | Realized ecological niches | d. | Competition coefficients | e. | Competitive exclusion | f. | Coexistence | g. | Isoclines | h. | Stable equilibria | i. | Unstable equilibria |
QUESTION 4
Graphs of the Lotka-Volterra interspecific competition model illustrate coexistence of two species with one of these features.
a. | Fundamental ecological niches | b. | Hutchinsonian ecological niches | c. | . Realized ecological niches | d. | Competition coefficients | e. | Competitive exclusion | f. | Coexistence | g. | . Isoclines | h. | . Stable equilibria | i. | Unstable equilibria |
QUESTION 5
When a particular species always outcompetes a second species in the Lotka-Volterra model of interspecific competition, these features will never intersect.
a. | Fundamental ecological niches | b. | Hutchinsonian ecological niche | c. | Realized ecological niches | d. | Competition coefficients | e. | Competitive exclusion | f. | Coexistence | g. | Isoclines | h. | Stable equilibria | i. | Unstable equilibria |
QUESTION 6
When prey/foods increase in abundance, the predator population increases through reproduction and/or immigration.
a. | Amensilism | b. | Commensilism | c. | Functional response | d. | Mutualism | e. | Numerical response | f. | Parasite | g. | Parasitoid | h. | True predator | i. | This is not an answer- don't choose it! |
QUESTION 7
Endomycorrhizae, ectomycorrhizae, gut âmicrofloraâ and lichens are examples of this type of ecological interaction.
a. | Amensilism | b. | Commensilism | c. | Functional response | d. | Mutualism | e. | Numerical response | f. | Parasite | g. | Parasitoid | h. | True predator |
QUESTION 8
Prey switching, prey mechanisms to avoid predation (via increased group size), and formation of search images generate variations of this phenomenon.
a. | Amensilism | b. | Commensilism | c. | Functional response | d. | Mutualism | e. | Numerical response | f. | Parasite | g. | Parasitoid | h. | True predator |
QUESTION 9
Generally do not kill their prey, and consume only one (or perhaps a few) individual prey during a particular developmental phase or lifetime.
a. | Amensilism | b. | Commensilism | c. | . Functional response | d. | Mutualism | e. | Numerical response | f. | Parasite | g. | Parasitoid | h. | True predator |
QUESTION 10
Extremely asymmetric competition and âaccidentsâ can result in this ecological interaction.
a. | Amensilism | b. | . Commensilism | c. | Functional response | d. | Mutualism | e. | Numerical response | f. | Parasite | g. | Parasitoid | h. | True predator |
1.A mycologist visits your biology class and discusses herresearch on a particular fungus that lives on the bark of damagedspruce trees. She explains that the fungal hyphae of her researchorganism is heterokaryotic. You raise your hand and request thatshe define that word. Her correct response is
heterokaryotic means that thenuclei of the fungal hyphae are genetically the same. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
heterokaryotic means that eachcompartment of the hyphae contain two distinct nuclei. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
heterokaryotic means that thenuclei of each compartment of the hyphae are geneticallydistinct. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
heterokaryotic means that each compartment of the hyphaecontains only one nucleus. 2. Select the true statements concerning reproduction ofbasidiomycetes. (Check all that apply.)
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