Examples of density-dependent in the following topics:
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- Population regulation is a density-dependent process, meaning that population growth rates are regulated by the density of a population.
- In population ecology, density-dependent processes occur when population growth rates are regulated by the density of a population.
- An example of density-dependent regulation is shown with results from a study focusing on the giant intestinal roundworm (Ascaris lumbricoides), a parasite of humans and other mammals.
- The actual cause of the density-dependence of fecundity in this organism is still unclear and awaiting further investigation.
- In real-life situations, population regulation is very complicated and density-dependent and independent factors can interact.
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- Humans have exceeded density-dependent limits on population by enacting various environmental changes to accommodate our needs for hygiene, shelter, and food.
- This capability is an underlying reason for human population growth as humans are able to overcome density-dependent limits on population growth, in contrast with all other organisms.
- Describe ways in which humans overcome density-dependent regulation of population size
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- The first variable is K (the carrying capacity of a population; density dependent), and the second variable is r (the intrinsic rate of natural increase in population size, density independent).
- In some years, oaks may produce an exceptionally large number of acorns; these years may be on a two- or three-year cycle depending on the species of oak (r-selection).
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- Van der Waals attractions can occur between any two or more molecules and are dependent on slight fluctuations of the electron densities, which are not always symmetrical around an atom.
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- Density and size are useful measures for characterizing populations.
- Patterns are often characteristic of a particular species; they depend on local environmental conditions and the species' growth characteristics (as for plants) or behavior (as for animals).
- In this way, the dispersion pattern of the individuals within a population provides more information about how they interact with each other and their environment than does a simple density measurement.
- Just as lower density species might have more difficulty finding a mate, solitary species with a random distribution might have a similar difficulty when compared to social species clumped together in groups.
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- Molecules move constantly in a random manner at a rate that depends on their mass, their environment, and the amount of thermal energy they possess, which in turn is a function of temperature.
- Solvent density: As the density of a solvent increases, the rate of diffusion decreases.
- Because cells primarily use diffusion to move materials within the cytoplasm, any increase in the cytoplasm's density will inhibit the movement of the materials.
- The rate of diffusion in this instance is almost totally dependent on pressure.
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- (b) If the container is sealed, evaporation will continue until there is enough vapor density for the condensation rate to equal the evaporation rate.
- This vapor density and the partial pressure it creates are the saturation values.
- They depend only on the vapor pressure of water.
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- Its density is the number of individuals within a given area or volume.
- Individuals in a low-density population are thinly dispersed; hence, they may have more difficulty finding a mate compared to individuals in a higher-density population.
- On the other hand, high-density populations often result in increased competition for food.
- Many factors influence density, but, as a rule-of-thumb, smaller organisms have higher population densities than do larger organisms .
- Scientist uses a quadrat to measure plant population size and density
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- This preferential adaptation means that the Karner blue butterfly is highly dependent on the presence of wild lupine plants for its continued survival .
- However, the distribution and density of this species is highly influenced by the distribution and abundance of wild lupine.
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- If uptake of a compound is dependent on receptor-mediated endocytosis and the process is ineffective, the material will not be removed from the tissue fluids or blood.
- For example, the form of cholesterol termed low-density lipoprotein or LDL (also referred to as "bad" cholesterol) is removed from the blood by receptor-mediated endocytosis.