Organisms with very high intrinsic growth rates have:
1. Long generation times
2. Short generation times
3. No courtship behaviour
4. No carrying capacities
Intraspecific competition is strongest when the:
1. Species overlap in their distribution
2. Populations overlap in their ranges
3. Population is at its carrying capacity
4. Reproductive rate is at its maximum
No predator can become proficient at acquiring prey because:
1. | Predators are not as intelligent as prey. |
2. | Predators are too large to be fast enough. |
3. | Prey populations evolve more rapidly than predator populations. |
4. | Prey populations evolve anti-predatory traits. |
Asymptote in a logistic growth curve is obtained, when
(1) The value of 'r' approaches zero
(2) K = N
(3) K > N
(4) K < N
Mycorrhizae are the example of
(1) fungistasis
(2) amensalism
(3) antibiosis
(4) mutualism
Which of the following is correct for r-selected species?
(1) Large number of progeny with small size
(2) Large number of progeny with large size
(3) Small number of progeny with small size
(4) Small number of progeny with large size
If '+' sign is assigned to beneficial interaction, '-' sign to detrimental and '0' sign to neutral interaction, then the population interaction represented by '+' '-' refers to
(1) Mutualism
(2) Amensalism
(3) Commensalism
(4) Parasitism
The principle of competitive exclusion was stated by
(1) C Darwin
(2) GF Gause
(3) MacArthur
(4) Verhuisd and Pearl
When does the growth rate of a population following the logistic model equal zero? The logistic model is given as dN/dt = rN(1-N/K)
(1) when N nears the carrying capacity of the habitat
(2) when N/K equals zero
(3) when death rate is greater than birth rate
(4) when N/K is exactly one
Gause's principle of competitive exclusion states that
1. | Competition for the same resources excludes species having different food preferences |
2. | No two species can occupy the same niche indefinitely for the same limiting resources |
3. | Larger organisms exclude smaller ones through competition |
4. | More abundant species will exclude the less abundant species through competition |