Propagule size and sex ratio influence colonisation dynamics after introduction of a non‐native lizard

The composition of founding populations plays an important role in colonisation dynamics and can influence population growth during early stages of biological invasion. Specifically, founding populations with small propagules (i.e. low number of founders) are vulnerable to the Allee effect and have...

Full description

Saved in:
Bibliographic Details
Published in:The Journal of animal ecology 2022-04, Vol.91 (4), p.845-857
Main Authors: Fargevieille, Amélie, Reedy, Aaron M., Kahrl, Ariel F., Mitchell, Timothy S., Durso, Andrew M., Delaney, David M., Pearson, Phillip R., Cox, Robert M., Warner, Daniel A.
Format: Article
Language:English
Subjects:
Allee effect
Animals
Anolis sagrei
biological invasion
Colonization
Composition
Dynamics
Fecundity
Female
Indigenous species
Introduced species
invasive species
Islands
Life span
Lizards
Male
Offspring
Population Dynamics
Population ecology
population establishment
population estimation
Population growth
Propagules
Seasons
Sex
Sex Ratio
Survival
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The composition of founding populations plays an important role in colonisation dynamics and can influence population growth during early stages of biological invasion. Specifically, founding populations with small propagules (i.e. low number of founders) are vulnerable to the Allee effect and have reduced likelihood of establishment compared to those with large propagules. The founding sex ratio can also impact establishment via its influence on mating success and offspring production. Our goal was to test the effects of propagule size and sex ratio on offspring production and annual population growth following introductions of a non‐native lizard species (Anolis sagrei). We manipulated propagule composition on nine small islands, then examined offspring production, population growth and survival rate of founders and their descendants encompassing three generations. By the third reproductive season, per capita offspring production was higher on islands seeded with a relatively large propagule size, but population growth was not associated with propagule size. Propagule sex ratio did not affect offspring production, but populations with a female‐biased propagule had positive growth, whereas those with a male‐biased propagule had negative growth in the first year. Populations were not affected by propagule sex ratio in subsequent years, possibly due to rapid shifts towards balanced (or slightly female biased) population sex ratios. Overall, we show that different components of population fitness have different responses to propagule size and sex ratio in ways that could affect early stages of biological invasion. Despite these effects, the short life span and high fecundity of A. sagrei likely helped small populations to overcome Allee effects and enabled all populations to successfully establish. Our rare experimental manipulation of propagule size and sex ratio can inform predictions of colonisation dynamics in response to different compositions of founding populations, which is critical in the context of population ecology and invasion dynamics. An experimental approach that tries to understand the important parameters explaining success or failure of establishment during the early phase of invasion. The background image is from Google Earth.
ISSN:0021-8790
1365-2656
1365-2656
DOI:10.1111/1365-2656.13671