Pace and parity predict the short‐term persistence of small plant populations DOI Creative Commons
Michelle DePrenger‐Levin, Michael B. Wunder

Ecology and Evolution, Journal Year: 2024, Volume and Issue: 14(2)

Published: Feb. 1, 2024

Life history traits are used to predict asymptotic odds of extinction from dynamic conditions. Less is known about how life interact with stochasticity and population structure finite populations near-term extinction. Through empirically parameterized matrix models, we study the impact (reproduction, pace), (environmental, demographic), (existing, novel) on transient dynamics plant species. Among fast slow pace either a uniform or increasing reproductive intensity short long lifespan, slow, semelparous species at greatest risk Long lifespans buffer existing while novel decrease when effort uniformly spread across lifespan. Our highlights importance structure, pace, two distinct aspects parity for predicting

Language: Английский

Pace and parity predict the short‐term persistence of small plant populations DOI Creative Commons
Michelle DePrenger‐Levin, Michael B. Wunder

Ecology and Evolution, Journal Year: 2024, Volume and Issue: 14(2)

Published: Feb. 1, 2024

Life history traits are used to predict asymptotic odds of extinction from dynamic conditions. Less is known about how life interact with stochasticity and population structure finite populations near-term extinction. Through empirically parameterized matrix models, we study the impact (reproduction, pace), (environmental, demographic), (existing, novel) on transient dynamics plant species. Among fast slow pace either a uniform or increasing reproductive intensity short long lifespan, slow, semelparous species at greatest risk Long lifespans buffer existing while novel decrease when effort uniformly spread across lifespan. Our highlights importance structure, pace, two distinct aspects parity for predicting

Language: Английский

Citations

1