Abstract
We used modified Leslie matrix models to explore the life history of Atlantic menhaden (Brevoortia tyrannus). By examining the sensitivity of long‐term population growth rates to changes in vital rates, we identified those life history components which can cause large population level responses. Our models subdivide the first year of life into five stages (eggs, early larvae, late larvae, juveniles, and ‘peanuts’ or subadults), and population growth rate responds most strongly to changes in juvenile and late larval stages. The relative ranking between these stages is dependent on the magnitude of mortality during the prejuvenile stages relative to juvenile mortality. An examination of low‐level model parameters indicates that the population growth rate is influenced by the growth and mortality rates during the time when young‐of‐the‐year menhaden are gaining access to and residing in the estuaries. Sensitivity to changes in many adult metrics, such as fishing mortality, were relatively low. We conclude that a better understanding of biotic and abiotic factors that influence the late larval and juvenile stages will further our understanding of population dynamics in this species.
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