5.1 How Populations Grow

Describing Populations Population: group of one species that interbreed and live in the same place at the same time. Examples: hydrilla population represented on this map. All the humans living in Miami in one year. All deer living in the forest in one month. All the frogs currently living in a Costa Rican rainforest. Researchers study populations’ geographic range, density and distribution, growth rate, and age structure.

Geographic Range Geographic range: Where a population lives and spends its time. A population’s range can vary enormously in size, depending on the species.

Density and Distribution Population density refers to the number of individuals per unit area. Populations of different species often have very different densities, even in the same environment. A population of ducks in a pond may have a low density, while fish and other animals in the same pond community may have higher densities.

Density and Distribution Population Distribution: refers to how individuals in a population are spaced out across the range of the population—randomly, uniformly, or mostly concentrated in clumps.

Density and Distribution An example of a population that shows random distribution is the purple lupine. These wild flowers grow randomly in a field among other wildflowers. The dots in the illustration represent individual members of a population with random distribution.

Density and Distribution An example of a population that shows uniform distribution is the king penguin. The dots in the illustration represent individual members of a population with uniform distribution.

Density and Distribution An example of a population that shows clumped distribution is the striped catfish. These fish organize into tight groups. The dots in the illustration represent individual members of a population with clumped distribution.

Growth Rate A population’s growth rate determines whether the population size increases, decreases, or stays the same.

Age Structure To fully understand a plant or animal population, researchers need to know the population’s age structure—the number of males and females of each age a population contains. Most plants and animals cannot reproduce until they reach a certain age. A population with few young members is likely to be decreasing.

Population Growth What factors affect population growth?

Population Growth What factors affect population growth? The factors that can affect population size are the birthrate, death rate, and the rate at which individuals enter or leave the population.

Population Growth Growth rate: how fast a population increase or decrease. A population will increase or decrease in size depending on how many individuals are added to it or removed from it. Depend on 4 factors: Birthrate death rate Immigration (rate at which individuals enter) Emmigration (rate at which individuals leave the population).

Birthrate and Death Rate A population can grow when its birthrate is higher than its death rate. If the birthrate equals the death rate, the population may stay the same size. If the death rate is greater than the birthrate, the population is likely to shrink.

Immigration and Emigration A population may grow if individuals move into its range from elsewhere, a process called immigration. A population may decrease in size if individuals move out of the population’s range, a process called emigration.

Exponential Growth If you provide a population with all the food and space it needs, protect it from predators and disease, and remove its waste products, the population will grow. The population will increase because members of the population will be able to produce offspring, and after a time, those offspring will produce their own offspring. Under ideal conditions with unlimited resources, a population will grow exponentially. In exponential growth, the larger a population gets, the faster it grows. The size of each generation of offspring will be larger than the generation before it.

Organisms That Reproduce Rapidly If you plot the size of this population on a graph over time, you get a J-shaped curve (exponential growth) that rises slowly at first, and then rises faster and faster. If nothing were to stop this kind of growth, the population would become larger and larger, faster and faster, until it approached an infinitely large size.

Logistic Growth What is logistic growth? Logistic growth occurs when a population’s growth slows and then stops, following a period of exponential growth. Natural populations don’t grow exponentially for long. Sooner or later, something stops exponential growth. What happens? Limiting factors: Lack of resources, competition, predation, herbivory.

Phases of Growth Suppose that a few individuals are introduced into a real-world environment. This graph traces the phases of growth that the population goes through.

The Logistic Growth Curve This curve has an S-shape that represents what is called logistic growth. Logistic growth occurs when a population’s growth slows and then stops, following a period of exponential growth. Many familiar plant and animal populations follow a logistic growth curve.

Modes of Population Growth

Carrying Capacity When the birthrate and the death rate are the same, and when immigration equals emigration, population growth stops. There is a dotted, horizontal line through the region of this graph where population growth levels off. The point at which this dotted line intersects the y-axis represents the carrying capacity.

Carrying Capacity Carrying capacity is the maximum number of individuals of a particular species that a particular environment can support. Once a population reaches the carrying capacity of its environment, a variety of factors act to stabilize it at that size. If the carrying capacity for a species reduces each year it will eventually approach zero. A carrying capacity of zero means the species cannot live in the environment , so it will become extinct there.

Carrying Capacity

Examples:

When an environment has reached its carrying capacity for a certain population, which of the following is true? A. Growth and immigration rate is equal to death and emigration rate. B. Growth and immigration rate is greater than death and emigration rate. C. Growth and immigration rate is less than death and emigration rate. D. Growth rate is exponential.

Answer: A

Angel was trying to explain carrying capacity to her mother Angel was trying to explain carrying capacity to her mother. Which of the following descriptions is accurate? Carrying capacity is : A. the maximum number of individuals that an ecosystem can sustain. B. the ability of an environment to accommodate a growing population. C. the greatest number of individuals that an area can sustain over the long term. D. the maximum number of species that can co-exist in an area.

Answer: A

A.drought B. flooding C. food shortages Jenn is studying a population of fish found in a pond that has a decreasing carrying capacity. Which of the following factors would not decrease the carrying capacity of her fish? A.drought B. flooding C. food shortages D. a freeze

Answer: B

An animal population decreases from 800 individuals to 600 individuals An animal population decreases from 800 individuals to 600 individuals. Which of the following could explain this change in population size? A. The population size of the animal’s predator increased. B. The emigration rate of the animals from the population decreased. C. The number of breeding pairs in the animal’s population increased. D. The number of species competing with the animal for food decreased.

Answer: A