Presentation is loading. Please wait.

Presentation is loading. Please wait.

This is unchecked growth:

Published byHoward Howard Modified over 8 years ago

Similar presentations

Presentation on theme: "This is unchecked growth:"— Presentation transcript:

1 Deriving a model that expresses density-dependent limitations to growth.

2 This is unchecked growth:
where r is a constant In “checked” population growth, the factor multiplied with N can’t be a constant:

3 rmax s N K

4 The Logistic Growth Model
2 parameters: rmax: the intrinsic (or maximal) per capita rate of growth K: the carrying capacity

5 d or b bmax dmin N K Birth rates can decline with population size.
Death rates can increase with population size. d or b bmax K dmin N

6 The Logistic Growth Model
Pierre-François Verhulst Belgian mathematician (1804 – 1849)

7 Plug & Play Excel Worksheets: Logistic Growth

8 Three graphical representations of the Logistic Growth Model
dN dt dN N dt K rmax K N N K “Time series” or N vs. time absolute population growth rate vs. N relative population growth rate vs. N

9 dN dt Identify on this graph all population sizes where the population growth rate is zero. Identify the range of population sizes over which population size increases. Identify the range of population sizes over which population size decreases. K N

10 dN dt Growth rates are positive here. Population change in this direction: Growth rates are negative here. Population change in this direction: N Zero Growth K

11 Definition of an “equilibrium state”:
The equilibium state of a population is the population size (N*) where the population neither increases nor decreases.

12 Calculate the equilibria of the logistic growth model:

13 The Logistic Growth Model has two equilibria:
N* = 0, also called the “trivial equilibrium”. N* = K is not trivial. A population of size K will neither decline of increase.

14 Definition of a “stable equilibrium state”:
An equilibrium N* is said to be locally stable if population sizes that are slightly smaller or slightly bigger move back towards the equilibium.

15 Definition of a “stable equilibrium state”:
An equilibrium N* is said to be globally stable if population sizes that have any other size than N* move towards the equilibium.

16 dN dt (equilibria) N K

17 This equilibrium is unstable! dN dt This equilibrium is
globally stable! Growth rates are positive here. Population change in this direction: Growth rates are negative here. Population change in this direction: (equilibria) N K

18 The Logistic Growth Model has two equilibria:
N* = 0, the “trivial equilibrium” is unstable! N* = K is globally stable! That means populations following the logistic growth model will always approach the carrying capacity K.

19 Summary: The logistic model is the simplest model that expresses limits to population growth. It assumes that the per capita population growth rate (dN/(Ndt)) declines linearly with population size N. The logistic model has two parameters: rmax is called the intrinsic rate of growth. It expresses the maximal growth rate a population can achieve when at low density. K is called the carrying capacity. It expresses the stable population size where birth rates = death rates. The logistic model has one non-trivial, globally stable equilibrium in K.

Download ppt "This is unchecked growth:"

Similar presentations

Ch. 53 Exponential and Logistic Growth

Ch. 53 Exponential and Logistic Growth
1. Which of the following statements about conventional life tables is NOT true? They were first used by life insurance companies to estimate human survival.

1. Which of the following statements about conventional life tables is NOT true? They were first used by life insurance companies to estimate human survival.
LURE 2009 SUMMER PROGRAM John Alford Sam Houston State University.

LURE 2009 SUMMER PROGRAM John Alford Sam Houston State University.
Chapter 11 Population Growth

Chapter 11 Population Growth
Population Review. Exponential growth N t+1 = N t + B – D + I – E ΔN = B – D + I – E For a closed population ΔN = B – D.

Population Review. Exponential growth N t+1 = N t + B – D + I – E ΔN = B – D + I – E For a closed population ΔN = B – D.
Fisheries Management using a population model bm.

Fisheries Management using a population model bm.
CHAPTER 52 POPULATION ECOLOGY Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section C: Population Growth 1.The exponential.

CHAPTER 52 POPULATION ECOLOGY Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings Section C: Population Growth 1.The exponential.
Other patterns in communities Macroecology: relationships of –geographic distribution and body size –species number and body size Latitudinal gradients:

Other patterns in communities Macroecology: relationships of –geographic distribution and body size –species number and body size Latitudinal gradients:
Continuous Models Chapter 4. Bacteria Growth-Revisited Consider bacteria growing in a nutrient rich medium Variables –Time, t –N(t) = bacteria density.

Continuous Models Chapter 4. Bacteria Growth-Revisited Consider bacteria growing in a nutrient rich medium Variables –Time, t –N(t) = bacteria density.
9. 1 Modeling with Differential Equations Spring 2010 Math 2644 Ayona Chatterjee.

9. 1 Modeling with Differential Equations Spring 2010 Math 2644 Ayona Chatterjee.
Populations I: a primer Bio 415/615. 5 questions 1. What is exponential growth, and why do we care about exponential growth models? 2. How is the parameter.

Populations I: a primer Bio 415/ questions 1. What is exponential growth, and why do we care about exponential growth models? 2. How is the parameter.
Measuring and Modeling Population Changes Homework: p664 #1, p 665 #2, and p 668 #3,4.

Measuring and Modeling Population Changes Homework: p664 #1, p 665 #2, and p 668 #3,4.
This WEEK: Lab: last 1/2 of manuscript due Lab VII Life Table for Human Pop Bring calculator! Will complete Homework 8 in lab Next WEEK: Homework 9 = Pop.

This WEEK: Lab: last 1/2 of manuscript due Lab VII Life Table for Human Pop Bring calculator! Will complete Homework 8 in lab Next WEEK: Homework 9 = Pop.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Population Ecology.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Population Ecology.
Population Ecology. Population A group of individuals of a single species in a given area Density Dispersion.

Population Ecology. Population A group of individuals of a single species in a given area Density Dispersion.
Spartina alterniflora (Smooth cordgrass), native to the Altlantic coast, now invading Pacific coast estuaries:

Spartina alterniflora (Smooth cordgrass), native to the Altlantic coast, now invading Pacific coast estuaries:
Population Modeling Mathematical Biology Lecture 2 James A. Glazier (Partially Based on Brittain Chapter 1)

Population Modeling Mathematical Biology Lecture 2 James A. Glazier (Partially Based on Brittain Chapter 1)
Population Biology: Demographic Models Wed. Mar. 2.

Population Biology: Demographic Models Wed. Mar. 2.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Population ecology is the study of populations in relation to environment,

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings Population ecology is the study of populations in relation to environment,
Overview of population growth:

Overview of population growth:

Similar presentations

Ads by Google