Large-scale climate variation modifies winter group size in the endangered Indiana bat

Upper Midwest Environmental Sciences Center

Home

Who We Are

Director's Overview

History of Center

Staff Directory

Map to Center

Organization Chart

Center Phone List

Center Video

Cooperators

Employment

State Field Stations

Lake City, Minnesota

La Crosse, Wisconsin

Bellevue, Iowa

Great Rivers, Illinois

Open River, Missouri

Havana, Illinois

Field Station Directory

Science Programs

Amphibian and Reptiles

Aquatic Invasive Species Control

Conservation Ecology

Fisheries Restoration

Long Term Resource Monitoring

Native Mussels

Resource Mapping and Spatial Analysis

River Productivity

Spatial Ecology

Wildlife Toxicology

Maps, Tools, and Databases

Aquatic Features and Navigation Structure

Data Visualization Tools

Decision Support Systems

Fisheries and Macroinvertebrates

Land Cover/Use Data

LTRM Sampling Data

Maps, Quadrangles, and Figures

Photography and Video

Sediments, Contaminants, and Nutrients

Bathymetry and Elevation

Products and Publications

UMESC Publications

UMESC Reports

UMESC USGS Reports

UMESC Fact Sheets

LTRM Reports and Publications

Outreach and Education

News and Events

Education

Contact Us

Staff Directory

UMESC Phone List

Contact the U.S. Geological Survey

Search

Large-scale climate variation modifies winter group size in the endangered Indiana bat

Thogmartin, W.E. and McKann, P.C., 2014, Large-scale climate variation modifies winter group size in the endangered Indiana bat. Journal of Mammalogy, v95, n 1, p 117-127.doi: http://dx.doi.org/10.1644/13-MAMM-A-098

Abstract

Power laws describe the functional relationship between 2 quantities, such as the frequency of a group as the multiplicative power of group size. We examined whether the annual size of well-surveyed wintering populations of endangered Indiana bats (Myotis sodalis) followed a power law, and then leveraged this relationship to predict whether the aggregation of Indiana bats in winter was influenced by global climate processes. We determined that Indiana bat wintering populations were distributed according to a power law (mean scaling coefficient α = −0.44 [95% confidence interval {95% CI} = −0.61, −0.28). The antilog of these annual scaling coefficients ranged between 0.67 and 0.81, coincident with the three-fourths power found in many other biological phenomena. We associated temporal patterns in the annual (1983–2011) scaling coefficient with the North Atlantic Oscillation (NAO) index in August (βNAOAugust = −0.017 [90% CI = −0.032, −0.002]), when Indiana bats are deciding when and where to hibernate. After accounting for the strong effect of philopatry to habitual wintering locations, Indiana bats aggregated in larger wintering populations during periods of severe winter and in smaller populations in milder winters. The association with August values of the NAO indicates that bats anticipate future winter weather conditions when deciding where to roost, a heretofore unrecognized role for prehibernation swarming behavior. Future research is needed to understand whether the three-fourths–scaling patterns we observed are related to scaling in metabolism.

Keywords

detectability, endangered species, Metabolic Theory of Ecology, Myotis sodalis, power law, scaling, white-nose syndrome

Accessibility FOIA Privacy Policies and Notices

U.S. Department of the Interior | U.S. Geological Survey
URL: http://www.umesc.usgs.gov/documents/publications/2014/thogmartin_b_2014.html
Page Contact Information: Contacting the Upper Midwest Environmental Sciences Center
Page Last Modified: January 29, 2016