Depensation
In population dynamics, depensation is the effect on a population (such as a fish stock[1]) whereby, due to certain causes, a decrease in the breeding population (mature individuals) leads to reduced production and survival of eggs or offspring.[2] The causes may include predation levels rising per offspring (given the same level of overall predator pressure) and the Allee effect, particularly the reduced likelihood of finding a mate.
Critical depensation
When the level of depensation is high enough that the population is no longer able to sustain itself, it is said to be a critical depensation. This occurs when the population size has a tendency to decline when the population drops below a certain level (known as the "Critical depensation level").[2] Ultimately this may lead to the population or fishery's collapse (resource depletion), or even local extinction.[3]
The phenomenon of critical depensation may be modelled or defined by a negative second order derivative of population growth rate with respect of population biomass, which describes a situation where a decline in population biomass is not compensated by a corresponding increase in marginal growth per unit of biomass.
See also
- Abundance (ecology)
- Conservation biology
- Local extinction
- Overexploitation
- Overfishing
- Small population size
- Threatened species
References
- ^ Maroto, Jose M.; Moran, Manuel. "Detecting the presence of depensation in collapsed fisheries: The case of the Northern cod stock". Ecological Economics. 97.
- ^ a b Quinn, Terrance (25 March 1999). Quantitative Fish Dynamics. Oxford University Press. p. 99. ISBN 9780195360400.
- ^ Kar, Tapan Kumar; Misra, Swarnakamal. "Optimal Control of a Fishery under Critical Depensation". Journal of Fisheries and Aquatic Science. 1.
External links
- Optimal harvesting in the presence of critical depensation
- On line source of definitions and other fish info
- v
- t
- e
- Abiotic component
- Abiotic stress
- Behaviour
- Biogeochemical cycle
- Biomass
- Biotic component
- Biotic stress
- Carrying capacity
- Competition
- Ecosystem
- Ecosystem ecology
- Ecosystem model
- Keystone species
- List of feeding behaviours
- Metabolic theory of ecology
- Productivity
- Resource
- Restoration
- Ascendency
- Bioaccumulation
- Cascade effect
- Climax community
- Competitive exclusion principle
- Consumer–resource interactions
- Copiotrophs
- Dominance
- Ecological network
- Ecological succession
- Energy quality
- Energy systems language
- f-ratio
- Feed conversion ratio
- Feeding frenzy
- Mesotrophic soil
- Nutrient cycle
- Oligotroph
- Paradox of the plankton
- Trophic cascade
- Trophic mutualism
- Trophic state index
counter
This biology article is a stub. You can help Wikipedia by expanding it. |
- v
- t
- e