Population:Carrying capacity
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Published: March 11, 2010, 9:31 pm
Updated: March 25, 2013, 2:11 pm
This article has been reviewed by the following Topic Editor:
David Casagrande
In population ecology, the carrying capacity is the population size at which the population growth rate equals zero. Population size is constrained by food availability, competition with other species, and interactions with predators and diseases. When the population size is smaller than the carrying capacity, the population growth rate is positive so populations increase in size and when population size is larger than the carrying capacity, the population growth rate is negative so that populations decrease in size. Eventually, these populations will either increase or decrease in size until the population size equals the carrying capacity at which time the growth of the population will stop. The carrying capacity represents a stable equilibrium of population size.
Populations are expected to reach a carrying capacity (rather than continuing to grow exponentially) because birth rates and death rates are density dependent (i.e., depend on population size). For example, as population sizes increase the population birth rates (the number of births/individual/time) will decline, because of increased competition for resources. As population sizes increase the per capita death rates (the number of deaths/individual/time) will increase, because of competition for resources and the influence of predators and disease. The carrying capacity is reached at the population size at which the per capita birth rate equals the per capita death rate.
Carrying capacity holds a slightly different meaning when applied to human population growth. When discussing human populations, the carrying capacity often refers to the number of number of individuals that the Earth could hold at different standards of living and levels of resource consumption. Thus, Earth’s carrying capacity is smaller if everyone is to achieve the average standard of living of people in the United States than if everyone is to achieve the average standard of living of people in developing countries. Carrying capacity has also been difficult to apply to human populations because humans can change environmental constraints through technological innovation. Ecological Footprint Analysis is an attempt to compute human carrying capacity on a global basis.
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Citation
Mark McGinley (Lead Author);David Casagrande (Topic Editor) "Carrying capacity". In: Encyclopedia of Earth. Eds. Cutler J. Cleveland (Washington, D.C.: Environmental Information Coalition, National Council for Science and the Environment). [First published in the Encyclopedia of Earth March 11, 2010; Last revised Date March 25, 2013; Retrieved June 19, 2013 <http://www.eoearth.org/article/Carrying_capacity?topic=49481>
The Author
Mark McGinley is an Associate Professor in the Honors College and Department of Biological Sciences at Texas Tech University. He has conducted research in the evolutionary, behavioral, and community ecology of animals and plants. Dr. McGinley’s recent scholarly interests focus on educating the general public about scientific (particularly environmental) issues. He is currently working closely with students in an interdisciplinary degree program, Natural History and Humanities, which combine ... (Full Bio)
In population ecology, the carrying capacity is the population size at which the population growth rate equals zero. Population size is constrained by food availability, competition with other species, and interactions with predators and diseases. When the population size is smaller than the carrying capacity, the population growth rate is positive so populations increase in size and when population size is larger than the carrying capacity, the population growth rate is negative so that populations decrease in size. Eventually, these populations will either increase or decrease in size until the population size equals the carrying capacity at which time the growth of the population will stop. The carrying capacity represents a stable equilibrium of population size.
Populations are expected to reach a carrying capacity (rather than continuing to grow exponentially) because birth rates and death rates are density dependent (i.e., depend on population size). For example, as population sizes increase the population birth rates (the number of births/individual/time) will decline, because of increased competition for resources. As population sizes increase the per capita death rates (the number of deaths/individual/time) will increase, because of competition for resources and the influence of predators and disease. The carrying capacity is reached at the population size at which the per capita birth rate equals the per capita death rate.
Carrying capacity holds a slightly different meaning when applied to human population growth. When discussing human populations, the carrying capacity often refers to the number of number of individuals that the Earth could hold at different standards of living and levels of resource consumption. Thus, Earth’s carrying capacity is smaller if everyone is to achieve the average standard of living of people in the United States than if everyone is to achieve the average standard of living of people in developing countries. Carrying capacity has also been difficult to apply to human populations because humans can change environmental constraints through technological innovation. Ecological Footprint Analysis is an attempt to compute human carrying capacity on a global basis.
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