Population Dynamics Biology I.

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Presentation transcript:

Population Dynamics Biology I

Lesson Objectives Describe characteristics of populations. Understand the concepts of carrying capacity and limiting factors. Describe the ways in which populations are distributed.

Main Idea Populations of species are described by density, spatial distribution, and growth rate.

Population Characteristics All species occur in groups called populations. Characteristics used to describe all populations population density spatial distribution growth rate Population density is the number of organisms per unit area.

Population Characteristics Dispersion (spatial distribution) is the pattern of spacing of a population within an area. 3 main types of dispersion Uniform Ex. Black bears clumped groups Ex. American bison (herds) Random Ex. White – tailed deer One of the primary factors in the pattern of dispersion for all organisms is the availability of resources.

Population Characteristics No population, not even humans, occupies all habitats in the biosphere. Biotic (living) and abiotic (nonliving) factors affect whether a species can survive in a habitat. Any change can mean no species. Biotic factors: predators, plant life, food resources, etc. Abiotic fators: temperature range, humidity, rainfall, sunlight, soil, wind currents

Population Limiting Factors All species have limiting factors. Limiting factors keep a population from continuing to increase indefinitely. 2 categories of limiting factors density-independent density-dependent Any factor in the environment that does not depend on the number of members in a population per unit area is a density-independent factor.

Population Limiting Factors These factors are usually abiotic and include natural phenomena such as weather events. EX. Flooding, drought, heat, cold, tornadoes, hurricanes. Populations can be limited by the unintended results of human alterations of the landscape, like pollution.

Population Limiting Factors Any factor in the environment that depends on the number of members in a population per unit area is a density-dependent factor. Often biotic factors like predation, disease, parasites, and competition. Outbreaks of disease tend to occur when population size has increased and population density is high.

Population Limiting Factors When the population increases to a size so that resources such as food or space become limited, individuals in this type of population must compete for the available resources. Can occur within a population or between two populations The presence of parasites is a density-dependent factor that can negatively affect population growth at higher densities.

Population Growth Rate The population growth rate explains how fast a given population grows. Important characteristics: natality, or birthrate, and mortality, or death rate. The number of individuals emigrating or immigrating also is important. Emmigration is the number of individuals moving away from a population. Immigration is the number of individuals moving into a population.

Population Growth Rate Exponential growth, also called geometric growth, occurs when the growth rate is proportional to the size of the population. All populations grow this way until a limiting factor is reached. Logistic growth occurs when the population’s growth slows or stops following exponential growth, at the population’s carrying capacity. A population stops growing when natality is less than mortality or when emmigration is higher than immigration.

Population Growth Rate

Population Growth Rate The maximum number of individuals in a species that an environment can support for the long term is carrying capacity. Limited by water, energy, oxygen, and nutrients

Reproductive Pattern Species of organisms vary in the number of births per reproduction cycle, in the age that reproduction begins, and in the life span of the organism. The rate strategy, or r-strategy, is an adaptation for living in an environment where fluctuation in biotic or abiotic factors occur. Generally a small organisms

Reproductive Pattern The reproductive strategy of an r-strategist is to produce as many offspring as possible in a short time period in order to take advantage of some environmental factor. Usually controlled by density-independent factors The carrying capacity, or k-strategy, is an adaptation for living in environments that don’t change from year to year.

Reproductive Pattern Generally a larger organism with a long life span, few offspring The reproductive strategy of a k-strategist is to produce only a few offspring that have a better chance of living to reproductive age because of the energy, resources, and time invested in the care for the young. Usually controlled by density-dependent factors.