Fig Organismal ecology Population ecology Community ecology Ecosystem ecology Landscape ecology Global ecology
Introduction to Ecology Populations Population ecology – Abundance – Dynamics Density, dispersion, demographics, interrelationships with other populations
Population density The number of individuals per unit area or volume
Fig. 52-1a, p (a) Random dispersion Pattern of dispersion Refers to how individuals are spaced relative to one another
Fig. 52-1b, p (b) Clumped dispersion Pattern of dispersion Patchiness in resources Family groups Reduce risk of predation
Fig. 52-1c, p (c) Uniform dispersion Pattern of dispersion Aggressive interactions Competition
Population dynamics 4 primary factors that influence population size – Births – Deaths – Immigration – Emigration How do these factors affect the rate at which populations change?
Fig Births Births and immigration add individuals to a population. Immigration Deaths and emigration remove individuals from a population. Deaths Emigration
Fig Births Births and immigration add individuals to a population. Immigration Deaths and emigration remove individuals from a population. Deaths Emigration
– The age at which reproduction begins – How often the organism reproduces – How many offspring are produced during each reproductive cycle evolutionary outcomes reflected in the development, physiology, and behavior of an organism – based on trade-offs Life History
Age (years) , Number of survivors (log scale) Males Females A survivorship curve is a graphic way of representing the data in a life table relatively constant death rate
Fig , II III Percentage of maximum life span Number of survivors (log scale) I
Fig (a) Dandelion (b) Coconut palm
Fig. 52-2, p Number of bacteria (N) Hours Dynamics - Population growth r = unchecked population growth
Fig , p : 6.5 billion Human population (billions) Black Death Time (years)
Fig. 52-3, p Carrying capacity of the environment (K) Number of individuals (N) Time
The Logistic Model and Life Histories Life history traits favored by natural selection may vary with population density and environmental conditions K-selection, or density-dependent selection, selects for life history traits that are sensitive to population density r-selection, or density-independent selection, selects for life history traits that maximize reproduction
Density-dependent – Density of population alters the affect of an environmental condition Density-independent – Effect of an environmental factor is not affected by the density of a population Factors influencing population size
Density-dependent factors
Competition – interaction in which individuals try to use the same resource – Intraspecific – Interspecific Density-dependent factors
Density-independent factors
Metapopulations Environments are heterogeneous – Resources are patchy – Several small populations rather than 1 large Not all patches are equal – Less desirable may result in lower b or higher d – More productive may lead to higher b and lower d
Fig , p. 1138