A Matrix Population Model for Marine Mammals

Many species have been at increasing risk due to human influences. Mathematical models have allowed for understanding population demographics which assists in understanding risk factors for populations. A stage-classified matrix population model was used to estimate current population size of the No...

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Bibliographic Details
Main Author: Pence, Alexis
Format: Text
Language:unknown
Published: InSPIRe @ Redlands 2018
Subjects:
Humpback whales
math model
matrix
growth rates
Other Mathematics
Population Biology
Goodman
Lambda
Pacific
Humpback Whale
Online Access:https://inspire.redlands.edu/cas_honors/175
Description
Summary:Many species have been at increasing risk due to human influences. Mathematical models have allowed for understanding population demographics which assists in understanding risk factors for populations. A stage-classified matrix population model was used to estimate current population size of the North Pacific humpback whale. Demographic parameters were estimated from existing literature. According to this model, the population growth rate is lambda = 1.0399, which means the population is increasing. Sensitivity and elasticity analysis showed that population growth rate for the North Pacific humpback whale population is most influenced by mature female survival followed by juvenile survival, which aligns with typical results for long-lived species (Goodman, 1981; Crouse et al., 1987; Trites, 1989). Therefore, factors that cause a small change in these survival rates will have an extensive impact on the population growth rate.

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