Question:
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) :
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) :
Updated On: Apr 3, 2024
- When N nears the carrying capacity of the habitat
- When N/K equals zero.
- When death rate is greater than birth rate
- When N/K is exactly one.
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The Correct Option is D
Solution and Explanation
In logistic growth model population growth equation is described as
$\frac{dN}{dt} = rN ( \frac{K - N}{K}) $
where,
N = Population density at time t
r = Intrinsic rate of natural increase
K = Carrying capacity
When, N/K = 1 then
$\frac{K- N}{K} = 0 $
$\therefore \, \frac{dN}{dt} =0 $
$\frac{dN}{dt} = rN ( \frac{K - N}{K}) $
where,
N = Population density at time t
r = Intrinsic rate of natural increase
K = Carrying capacity
When, N/K = 1 then
$\frac{K- N}{K} = 0 $
$\therefore \, \frac{dN}{dt} =0 $
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