Abstract
The ability of random environmental variation to stabilize competitor coexistence was pointed out long ago and, in recent years, has received considerable attention. Analyses have focused on variations in the log abundances of species, with mean logarithmic growth rates when rare, (Formula presented.), used as metrics for persistence. However, invasion probabilities and the times to extinction are not single-valued functions of (Formula presented.) and, in some cases, decrease as (Formula presented.) increases. Here, we present a synthesis of stochasticity-induced stabilization (SIS) phenomena based on the ratio between the expected arithmetic growth (Formula presented.) and its variance (Formula presented.). When the diffusion approximation holds, explicit formulas for invasion probabilities and persistence times are single-valued, monotonic functions of (Formula presented.). The storage effect in the lottery model, together with other well-known examples drawn from population genetics, microbiology, and ecology (including discrete and continuous dynamics, with overlapping and non-overlapping generations), are placed together, reviewed, and explained within this new, transparent theoretical framework. We also clarify the relationships between life-history strategies and SIS, and study the dynamics of extinction when SIS fails.
| Original language | English (US) |
|---|---|
| Article number | e03098 |
| Journal | Ecology |
| Volume | 101 |
| Issue number | 9 |
| DOIs | |
| State | Published - Sep 1 2020 |
Bibliographical note
Funding Information:Both authors contributed equally to the ideas and writing in this manuscript. N. M. Shnerb acknowledges helpful discussions with Eli Barkai, David Kessler, Jayant Pande, and Niv de-Malach. We thank Peter Chesson for several frank and thorough reviews that helped us greatly improve the manuscript. This research was supported by the ISF-NRF Singapore joint research program (grant number 2669/17).
Funding Information:
Both authors contributed equally to the ideas and writing in this manuscript. N. M. Shnerb acknowledges helpful discussions with Eli Barkai, David Kessler, Jayant Pande, and Niv de‐Malach. We thank Peter Chesson for several frank and thorough reviews that helped us greatly improve the manuscript. This research was supported by the ISF‐NRF Singapore joint research program (grant number 2669/17).
Publisher Copyright:
© 2020 by the Ecological Society of America
Keywords
- bet-hedging
- coexistence
- community dynamics
- competition
- diffusive trapping
- environmental stochasticity
- lottery model
- stochasticity-induced stabilization
- storage effect
PubMed: MeSH publication types
- Journal Article
- Research Support, Non-U.S. Gov't
