Nahal Zeelim ZA-2 - Seismite at 32 cm depth Open this page in a new tab

At Nahal Ze'elim site ZA-2, Kagan et al. (2011) identified a 10 cm thick Type IV seismite. Based on its thickness and deformation style, the feature yields an estimated intensity of 9. ZA-2 was the first site in Nahal Ze'elim to be systematically investigated for Holocene paleoseismicity and established the basic framework for correlating earthquake-generated deformation structures with the historical earthquake record of the Dead Sea region. The site occupies a relatively landward position within the Ze'elim Terrace compared with the more seaward exposures examined in later studies such as Kagan et al. (2011). As a result, ZA-1 contains a greater proportion of shoreline and nearshore facies, whereas the later studies accessed more seaward sections characterized by thicker and more continuous lacustrine deposition. These more offshore settings preserved a larger number of earthquake-induced deformation horizons, resulting in a more complete Holocene paleoseismic record than was available at ZA-1.

This seismite lies above the interval constrained by the Bayesian radiocarbon age model of Kagan et al. (2011), and its age was therefore extrapolated beyond the modeled section. Based on this extrapolation, Kagan et al. (2011) estimated an age of approximately 1525 CE ± 125 years ( 1σ and 2σ confidence intervals) and suggested that the deformation was most likely produced by either the 1458 CE or 1546 CE earthquake.

  • Fig. 1c Oblique aerial photo of SW Dead Sea showing Masada and Zeelim Plain from Agnon et al. (2006)
  • Nahal Ze'elim outcrop areas in Google Earth
  • Figure 2 Annotated Lithosection of ZA-1 with interpreted ages noted from Ken-Tor et al. (2001a)
  • Figure 8 Age Model for ZA-1 from Agnon et al. (2006)
  • Figure 3 Age Model for ZA-1 from Ken-Tor et al. (2001a)
  • Table 1 Radiocarbon Table from Ken-Tor et al. (2001b)
  • Table 1 Radiocarbon Table from Ken-Tor et al. (2001a)
  • Table 2 Refined Radiocarbon Table from Ken-Tor et al. (2001a)
  • Figure 4e Calibrated Radiocarbon Ages from Ken-Tor et al. (2001b)
  • Fig. 2 Sediment Core comparisons and Age-Depth Models for Ein Gedi, En Feshka, and Nahal Zeelim from Migowski et al. (2004)
  • Correlated Trench Logs used to Produce Composite ZA-1 Litholog from Revital Bookman (née Ken-Tor)
Left

Events B (Josephus Quake - 31 BCE) and C (Jerusalem Quake - 26-36 CE) at site ZA-1

Photo by Jefferson Williams (2000)

Right

Mixed layer B (see also Figure 2) composed of aragonite fragments suspended in fine dark detritus. The fragments are few millimeters to few centimeters long and do not show any preferred orientation. The overlying and underlying (not seen in the figure) laminated deposits are undisturbed. This layer is correlated with the 31 B.C. earthquake (see text)

Ken-Tor et al. (2001a)

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Thin Section Slide showing Event C and overlying layers from sample taken at site ZA-1

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Jefferson Williams (2000)


By Jefferson Williams