%0 Journal Article %T 3000 years of environmental change at Zaca Lake, California, USA %A Theodore Dingemans %A Scott A. Mensing %A Sarah J. Feakins %A Matthew E. Kirby %A Susan R. H. Zimmerman %J Frontiers in Ecology and Evolution %D 2014 %I Frontiers Media %R 10.3389/fevo.2014.00034 %X Climatic variations of the last few millennia can reveal patterns of variability beyond that recorded by the instrumental record. The purpose of this paper is to answer the question: is there evidence for periods of persistent drought in the vicinity of Zaca Lake, Santa Barbara County, California, and can the mechanisms which drive them be identified? In this study we use pollen, sediments, and hydrogen isotopes from leaf wax to generate a 3000 year record of vegetation and climate along the Southern California coast. We identify a multi-centennial scale drought between 2700 and 2000 cal yr BP in Zaca Lake, corroborating evidence from across the Great Basin and extending the regional spread of this multi-centennial drought to Southern California. Wetter conditions in the northwest during this period indicate that the modern ENSO precipitation dipole also occurred during this persistent drought. Today this dipole is associated with La Ni£¿a conditions and we note a coincidence with intriguing evidence for a change in ENSO dynamics from marine records in the tropical Pacific. This dry period is remarkably persistent and has important implications for understanding the possible durations of drought conditions in the past in California. In addition, we find evidence for 3 warm periods between 1350 and 650 cal yr BP which are identified in the record by the presence of the algae Pediastrum boryanum var. boryanum. The latter two of these periods, dating from 1070¨C900 and 700¨C650 cal yr BP correspond to droughts during the Medieval Climatic Anomaly identified in other records. A period of high Salix percentages and high pollen concentration from 500 to 250 cal yr BP represents the wettest period of the record and coincides with the Little Ice Age. An increase in Pinus and Quercus pollen found in the last 100 years of the record is a result of known planting and fire suppression by the forest service. %K drought %K Holocene %K leaf wax D/H ratio %K paleoclimate %K pollen %K Southern California %U http://www.frontiersin.org/Journal/10.3389/fevo.2014.00034/abstract