One factor that did not lead to economic growth in the 1950s was the decline in agricultural employment. As industrialization advanced and urbanization increased, many workers moved from farms to cities, which, while contributing to industrial growth, also resulted in a reduction in rural economic activity. Additionally, the focus on manufacturing and consumer goods overshadowed the agricultural sector, limiting its contributions to overall economic expansion during that decade.
Logistic growth occurs when a population's growth slows and then stops, fallowing a period of exponential growthex; a lot of familiar plant and animal populations fallow a logestic growth curve.
1 demand factor, 4 supply factors, and 1 efficiency factor.
Capital Goods
Logistic growth occurs in populations when resources are limited, leading to a growth pattern that starts exponentially but slows as the population approaches the carrying capacity of the environment. This model reflects the real-world constraints on resources like food, space, and other factors that affect population dynamics. As the population nears its carrying capacity, the growth rate decreases, resulting in an S-shaped curve when graphed. This type of growth is common in natural ecosystems where competition and environmental factors play significant roles.
a limiting factor
One limiting factor in bird populations is cats.
Phosphate
A factor that limits the growth of a population.
The basic needs like food, shelter are some of the factors that affect the population's growth regardless of the size.
"In an ecosystem, a limiting nutrient constrains the growth of organisms much like how a limiting factor, such as food availability or predation, constrains the population growth of a species."
the effect of human disturbance on animal populations is
A resource that restricts the growth of populations in an ecosystem is called a limiting factor. This could include factors like food availability, water supply, shelter, or predation. When these resources become scarce, they can limit the size of a population in an ecosystem.
how to find growth rate with given growth factor
my bio book (human body systems -structure, function, and environment) says the limiting factor is Phosphate (page 124 under ecosystems)
It is called a limiting factor.
An example of a density-dependent factor is competition for resources, such as food or space, which becomes more intense as a population increases, potentially leading to decreased growth rates or population decline. Conversely, a density-independent factor is a natural disaster, like a hurricane or wildfire, which can affect a population's growth regardless of its size by causing widespread mortality or habitat destruction. Both factors can significantly influence population dynamics, either by limiting growth as density increases or by causing sudden declines irrespective of population density.