Scale-Dependent Population Drivers Inform Avian Management in a Declining Saline Lake Ecosystem

Authors

• Aimee M. Van Tatenhove, Utah State UniversityFollow
• John Neill, Great Salt Lake Ecosystem Program
• Russell E. Norvell, Utah Division of Wildlife Resources
• Erica F. Stuber, Utah State UniversityFollow
• Clark S. Rushing, University of Georgia

Document Type

Article

Journal/Book Title/Conference

Ecological Applications

Author ORCID Identifier

Aimee M. Van Tatenhove https://orcid.org/0000-0003-2483-1055

Erica F. Stuber https://orcid.org/0000-0002-2687-6874

Clark Rushing https://orcid.org/0000-0002-9283-6563

Volume

34

Issue

7

Publisher

John Wiley & Sons, Inc.

Publication Date

9-1-2024

First Page

1

Last Page

14

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Abstract

Shrinking saline lakes provide irreplaceable habitat for waterbird species globally. Disentangling the effects of wetland habitat loss from other drivers of waterbird population dynamics is critical for protecting these species in the face of unprecedented changes to saline lake ecosystems, ideally through decision-making frameworks that identify effective management options and their potential outcomes. Here, we develop a framework to assess the effects of hypothesized population drivers and identify potential future outcomes of plausible management scenarios on a saline lake-reliant waterbird species. We use 36 years of monitoring data to quantify the effects of environmental conditions on the population size of a regionally important breeding colony of American white pelicans (Pelecanus erythrorhynchos) at Great Salt Lake, Utah, US, then forecast colony abundance under various management scenarios. We found that low lake levels, which allow terrestrial predators access to the colony, are probable drivers of recent colony declines. Without local management efforts, we predicted colony abundance could likely decline approximately 37.3% by 2040, although recent colony observations suggest population declines may be more extreme than predicted. Results from our population projection scenarios suggested that proactive approaches to preventing predator colony access and reversing saline lake declines are crucial for the persistence of the Great Salt Lake pelican colony. Increasing wetland habitat and preventing predator access to the colony together provided the most effective protection, increasing abundance 145.4% above projections where no management actions are taken, according to our population projection scenarios. Given the importance of water levels to the persistence of island-nesting colonial species, proactive approaches to reversing saline lake declines could likely benefit pelicans as well as other avian species reliant on these unique ecosystems.

Recommended Citation

Van Tatenhove, Aimee M., John Neill, Russell E. Norvell, Erica F. Stuber, and Clark S.Rushing. 2024. “Scale-Dependent Population Drivers Inform Avian Management in a Declining Saline Lake Ecosystem.” Ecological Applications 34(7): e3021. https://doi.org/10.1002/eap.3021