Assessing impacts of climate change on species range shifts and extirpation on the local scale through Late Pleistocene fossils of Sequoia sempervirens in the Los Angeles Basin.

As the effects of climate change become more apparent, increased importance must be placed on species' response to changing environments for ecosystem management and threat mitigation. While many studies have focused on the response of ecosystem types, few venture to the species level, as true limiting factors of species can be difficult to discern. Paleoproxies provide a valuable resource for predicting responses to future change through observation of similar responses in the past. This study uses plant paleorecords of Sequoia sempervirens to more closely examine the relationship of local climate change and species response in the Los Angeles Basin during the Late Pleistocene. The modern distribution of S. sempervirens has a southern extent, today, reaching the south end of Monterey County, California. Fossilized material from the La Brea Tar Pits extends that range to the farthest known point south, 200 miles from the southernmost modern stands, and has previously not been dated. A coupled analysis of 8 S. sempervirens specimens preserved in asphalt using Accelerator Mass Spectrometry (AMS) dates paired with δC13 values will help to illuminate patterns of changing climate on a local scale, as well as provide valuable data on primary environmental factors in plant community change. Understanding the intricacies of species' range shifts and factors behind local extirpation on a local scale is necessary to interpret species response in the past as well as predicting response in the future.