EGU23-2519
https://doi.org/10.5194/egusphere-egu23-2519
EGU General Assembly 2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Mean, variance, and trends of Levant precipitation over the past 4500 years from reconstructed Dead Sea levels and stochastic modeling

Efrat Morin1, Tamar Ryb2, Ittai Gavriely3, and Yehouda Enzel1
Efrat Morin et al.
  • 1Hebrew University of Jerusalem, Institute of Earth Sciences, Jerusalem, Israel (efrat.morin@mail.huji.ac.il)
  • 2Hebrew University of Jerusalem, Department of Geography, Israel
  • 3Geological Survey of Israel, Israel

A novel quantitative assessment of late Holocene precipitation in the Levant is presented, including mean and variance of annual precipitation and their trends. A stochastic framework was utilized and allowed, possibly for the first time, linking high-quality, reconstructed rises/declines in Dead Sea levels with precipitation trends in its watershed. We determined the change in mean annual precipitation for 12 specific intervals over the past 4500 yr, concluding that: (1) the twentieth century was substantially wetter than most of the late Holocene; (2) a representative reference value of mean annual precipitation is 75% of the present-day parameter; (3) during the late Holocene, mean annual precipitation ranged between −17 and +66% of the reference value (−37 to +25% of present-day conditions); (4) the driest intervals were 1500–1200 BC and AD 755–890, and the wettest intervals were 2500–2460 BC, 130–40 BC, AD 350–490, and AD 1770–1940; (5) lake-level rises and declines probably occurred in response to trends in precipitation means and are less likely to occur when precipitation mean is constant; (6) average trends in mean annual precipitation during intervals of ≥200 yr did not exceed 15mm per decade. The precipitation trends probably reflect shifts in eastern Mediterranean cyclone tracks.

How to cite: Morin, E., Ryb, T., Gavriely, I., and Enzel, Y.: Mean, variance, and trends of Levant precipitation over the past 4500 years from reconstructed Dead Sea levels and stochastic modeling, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-2519, https://doi.org/10.5194/egusphere-egu23-2519, 2023.

Supplementary materials

Supplementary material file