Pacific Southwest United States Holocene Droughts and Pluvials Inferred From Sediment δ18O (calcite) and Grain Size Data (Lake Elsinore, California)

Authors

Matthew E.C. Kirby, California State University, FullertonFollow
William Paul Patterson, University of Saskatchewan
Matthew Lachniet, University of Nevada, Las VegasFollow
James A. Noblet, California State University, San Bernardino
Michael A. Anderson, University of California, Riverside
Kevin Nichols, California State University, Fullerton
Judith Avila, California State University, Fullerton

Document Type

Article

Publication Date

4-11-2019

Publication Title

Frontiers in Earth Science

Publisher

Frontiers Media

Volume

7

First page number:

1

Last page number:

14

Abstract

Records of past climate can inform us on the natural range and mechanisms of climate change. In the arid Pacific southwestern United States (PSW), which includes southern California, there exist a variety of Holocene records that can be used to infer past winter conditions (moisture and/or temperature). Holocene records of summer climate, however, are rare from the PSW. In the future, climate changes due to anthropogenic forcing are expected to increase the severity of drought in the already water stressed PSW. Hot droughts are of considerable concern as summer temperatures rise. As a result, understanding how summer conditions changed in the past is critical to understanding future predictions under varied climate forcings. Here, we present a c. 10.9 kcal BP δ18O(calcite) record from Lake Elsinore, California, interpreted to reflect δ18O(lake water) values as controlled by over-water evaporation from summer-to-early fall. Our results reveal three millennial scale intervals: (1) the highly evaporative Early Holocene (10.55–6.65 kcal BP), (2) the less evaporative Mid-Holocene (6.65–2.65 kcal BP); and (3) the evaporative Late Holocene (2.65–0.55 kcal BP). These results are coupled with an inferred winter precipitation runoff (sand content) record from Kirby et al. (2010). Using these data together, we estimate the duration and severity of centennial-scale Holocene droughts and pluvials (e.g., high δ18O(calcite) values plus low sand content = drought and vice versa). Furthermore, the coupled δ18O(calcite) and sand data provide a generalized Holocene lake level history. The most severe, long-lasting droughts (i.e., maximum summer-to-early fall evaporation and minimum winter precipitation runoff) occur in the Early Holocene. Fewer, less severe, and shorter duration droughts occurred during the Mid-Holocene as pluvials became more common. Droughts return with less severity and duration in the Late Holocene. Notably, the Little Ice Age is characterized as the wettest period during the Late Holocene.

Keywords

Lake Elsinore; Isotopes; Holocene; Evaporation; Drought

Disciplines

Geology | Hydrology | Sedimentology

File Format

pdf

File Size

3,431 KB

Language

English

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Repository Citation

Kirby, M. E., Patterson, W. P., Lachniet, M., Noblet, J. A., Anderson, M. A., Nichols, K., Avila, J. (2019). Pacific Southwest United States Holocene Droughts and Pluvials Inferred From Sediment δ18O (calcite) and Grain Size Data (Lake Elsinore, California). Frontiers in Earth Science, 7 1-14. Frontiers Media.
http://dx.doi.org/10.3389/feart.2019.00074