OOS 45-7 - Adaptation to slow host plants prevents rapid insect responses to climate change

Thursday, August 5, 2010: 3:40 PM
303-304, David L Lawrence Convention Center
Shannon L. Pelini, Harvard Forest, Harvard University, MA, Jessica A. Keppel, Biology, University of North Carolina, Chapel Hill, NC, Ann E. Kelley, School of Natural Resources and Environment, University of Michigan, Ann Arbor, MI and Jessica J. Hellmann, Department of Biological Sciences, University of Notre Dame
Background/Question/Methods

We must consider the role of multitrophic interactions when examining species’ responses to climate change. Many plant species, particularly trees, are limited in their ability to shift their geographic ranges quickly under climate change. Consequently, for herbivorous insects, geographic mosaics of host plant specialization could prohibit range shifts and adaptation when insects become spatially separated from suitable host plants. In this study, we examined larval growth and survival of an oak specialist butterfly (Erynnis propertius) on different oaks (Quercus spp.) that occur across its geographic range to determine if these butterflies can switch host plants if they move into new areas under climate change.

Results/Conclusions

Erynnis propertius individuals from Oregon and northern California, USA that feed on Q. garryana and Q. kelloggii in the field experienced increased mortality on Q. agrifolia, a southern species with low nutrient content. In contrast, E. propertius individuals from southern California that normally feed on Q. agrifolia performed well on Q. agrifolia and Q. garryana and poorly on the northern, high elevation Q. kelloggii. Therefore, colonization of southern E. propertius in higher elevations and some northern locales may be prohibited under climate change, but latitudinal shifts onto Q. garryana may be possible. Where range shifts are precluded due to maladaptation to hosts, E. propertius populations at higher latitudes and elevations may not accrue warm-adapted genotypes. Our study suggests that, when interacting species experience asynchronous range shifts, historical local adaptation may preclude populations from colonizing new locales under climate change.

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