Data from: Swimming against the tide: resilience of a riverine turtle to recurrent extreme environmental events

Authors

Abigail M. Jergenson, Iowa State University
David A. Miller, Pennsylvania State University
Lorin A. Neuman-Lee, Utah State University
Daniel A. Warner, University of Alabama at Birmingham
Fredric Janzen, Iowa State University

Publication Date

2-24-2014

Abstract

Extreme environmental events (EEE) are likely to exert deleterious effects on populations. From 1996-2012 we studied the nesting dynamics of a riverine population of painted turtles (Chrysemys picta) that experienced seven years with significantly definable spring floods. We used capture-mark-recapture methods to estimate the relationships between >5-m and >6-m flood events and population parameters. Contrary to expectations, flooding was not associated with annual differences in survival, recruitment, or annual population growth rates of the adult female segment of the population. These findings suggest that female C. picta exhibit resiliency to key EEE, which are expected to increase in frequency under climate change.

Keywords

population alteration, turtles, floods, Chrysemys picta

Related Datasets

Is cited by: 10.1098/rsbl.2013.0782

Repository

Dryad

Distribution License

CC0 1.0 Universal - No copyright; this work is in the public domain

Access Instructions and Link

This data is public domain under the CC-0.0 License

Recommended Citation

Jergenson, Abigail M.; Miller, David A.; Neuman-Lee, Lorin A.; Warner, Daniel A.; and Janzen, Fredric, "Data from: Swimming against the tide: resilience of a riverine turtle to recurrent extreme environmental events" (2014). UAB Research Data Catalog. 10.
https://digitalcommons.library.uab.edu/datasets/10