Prolonged california aridity linked to climate warming and pacific sea surface temperature
MacDonald, Glen M. ; Moser, Katrina A. ; Bloom, Amy M. ; Potito, Aaron P. ; Porinchu, David F. ; Holmquist, James R. ; Hughes, Julia ; Kremenetski, Konstantine V.
MacDonald, Glen M.
Moser, Katrina A.
Bloom, Amy M.
Potito, Aaron P.
Porinchu, David F.
Holmquist, James R.
Hughes, Julia
Kremenetski, Konstantine V.
Repository DOI
Publication Date
2016-09-15
Type
Article
Downloads
Citation
MacDonald, Glen M. Moser, Katrina A.; Bloom, Amy M.; Potito, Aaron P.; Porinchu, David F.; Holmquist, James R.; Hughes, Julia; Kremenetski, Konstantine V. (2016). Prolonged california aridity linked to climate warming and pacific sea surface temperature. Scientific Reports 6 ,
Abstract
California has experienced a dry 21st century capped by severe drought from 2012 through 2015 prompting questions about hydroclimatic sensitivity to anthropogenic climate change and implications for the future. We address these questions using a Holocene lake sediment record of hydrologic change from the Sierra Nevada Mountains coupled with marine sediment records from the Pacific. These data provide evidence of a persistent relationship between past climate warming, Pacific sea surface temperature (SST) shifts and centennial to millennial episodes of California aridity. The link is most evident during the thermal-maximum of the mid-Holocene (similar to 8 to 3 ka; ka = 1,000 calendar years before present) and during the Medieval Climate Anomaly (MCA) (similar to 1 ka to 0.7 ka). In both cases, climate warming corresponded with cooling of the eastern tropical Pacific despite differences in the factors producing increased radiative forcing. The magnitude of prolonged eastern Pacific cooling was modest, similar to observed La Nina excursions of 1 degrees to 2 degrees C. Given differences with current radiative forcing it remains uncertain if the Pacific will react in a similar manner in the 21st century, but should it follow apparent past behavior more intense and prolonged aridity in California would result.
Funder
Publisher
Springer Nature
Publisher DOI
10.1038/srep33325
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland