Abstract

Migratory patterns of bats are not well understood and traditional methods to study this, like capture-mark-recapture, may not provide enough detail unless there are many records. Stable isotope profiles of many animal species have been used to make inferences about migration. Each year Myotis lucifugus and M. septentrionalis migrate from summering roosts to swarming caves and mines in the fall, but the pattern of movement between them is not well understood. In this study, fur δ13C and δ15N values of 305 M. lucifugus and 200 M. septentrionalis were analyzed to make inferences about migration patterns between summering areas and swarming sites in Nova Scotia, Canada. We expected that there would be greater variability in δ13C and δ15N among individuals at swarming sites because it was believed that these sites are used by individuals originating from many summering areas. There was extensive overlap in the standard ellipse area, corrected for small sample sizes (SEAc), of bats at swarming sites and much less overlap in SEAc among groups sampled at summering areas. Meaningful inference could not be made on M. septentrionalis because their low variation in SEAc may have been the result of sampling only 3 summering areas. However, for M. lucifugus, swarming sites had larger SEAc than summering areas and predictive discriminant analysis assigned swarming bats to multiple summering areas, supporting the contention that swarming bats are mixed aggregations of bats from several summering areas. Together, these data support the contention that swarming sites have catchment areas for bats from multiple summering areas and it is likely that the catchment areas for swarming sites overlap. These data suggest that δ13C and δ15N profiling of bat fur offer some potential to make inferences about regional migration in bats.

Highlights

  • Migration is a key life history strategy among animals to cope with seasonal variation in resource abundance [1,2]

  • There was no correlation between SEAc overlap and distance between sites for M. lucifugus (Mantel test: 999 replicates, R2: -0.067, P = 0.649) or M. septentrionalis (Mantel test: 999 replicates, R2: 0.336, P = 0.509)

  • Bayesian statistics indicated a 100% probability that the SEAc of all sampled M. lucifugus is larger than the SEAc of all sampled M. septentrionalis (Fig 2)

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Summary

Objectives

The goal of this study was to test whether δ13C and δ15N in the fur of bats may be used to make inferences about their migration patterns

Methods
Results
Conclusion

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