Origins of Six Species of Butterflies Migrating through Northeastern Mexico: New Insights from Stable Isotope (δ<sup>2</sup>H) Analyses and a Call for Documenting Butterfly Migrations
Keith A. Hobson | Jackson W. Kusack | Blanca X. Mora-Alvarez
Determining migratory connectivity within and among diverse taxa is crucial to their conservation. Insect migrations involve millions of individuals and are often spectacular. However, in general, virtually nothing is known about their structure. With anthropogenically induced global change, we risk losing most of these migrations before they are even described. We used stable hydrogen isotope (δ<sup>2</sup>H) measurements of wings of seven species of butterflies (<i>Libytheana carinenta</i>, <i>Danaus gilippus</i>, <i>Phoebis sennae</i>, <i>Asterocampa leilia</i>, <i>Euptoieta claudia</i>, <i>Euptoieta hegesia</i>, and <i>Zerene cesonia</i>) salvaged as roadkill when migrating in fall through a narrow bottleneck in northeast Mexico. These data were used to depict the probabilistic origins in North America of six species, excluding the largely local <i>E. hegesia</i>. We determined evidence for long-distance migration in four species (<i>L. carinenta, E. claudia, D. glippus, Z. cesonia</i>) and present evidence for panmixia (<i>Z. cesonia</i>), chain (<i>Libytheana carinenta</i>), and leapfrog (<i>Danaus gilippus</i>) migrations in three species. Our investigation underlines the utility of the stable isotope approach to quickly establish migratory origins and connectivity in butterflies and other insect taxa, especially if they can be sampled at migratory bottlenecks. We make the case for a concerted effort to atlas butterfly migrations using the stable isotope approach.
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