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Article |
zmit Earthquake on the North Anatolian Fault, Turkey
William Lettis and Associates, Inc
Walnut Creek
California
lettis{at}lettis.com
(W.R.L., J.L.B., R.C.W., C.E.R.)
Istanbul Technical University
Istanbul
Turkey
(A.B.)
Pacific Gas & Electric Co.
San Francisco
California
(W.D.P.)
Dokuz Eylül Üniversity
Kaynaklar Campus, Buca
Izmir
Turkey
(A.K.)
Manuscript received 20 August 2000.
The 17 August 1999 
zmit earthquake broke four distinct structural segments of the North Anatolian fault, from east to west: the Karadere, Sakarya, Sapanca, and Gölcük fault segments. These segments are separated from one another and the adjoining Yalova and Düzce fault segments to the west and east, respectively, by distinct right-releasing step-over and/or gaps in the fault trace. These include, from east to west, the Eften Lake step-over (2-4 km wide), Akyazi gap (6-13 km long), Sapanca step-over (1-2 km wide), Gölcük step-over (1-2 km wide), and Karamursel step-over (4-5 km wide). The earthquake nucleated within or near the Gölcük step-over with bilateral rupture propagation to the west and east. To the west, about 4-5.5 m of surface rupture (up to 7 m of subsurface rupture) on the Gölcük segment was mostly, if not entirely, arrested by the 4- to 5-km-wide Karamursel step-over. To the east, about 3-4 m of surface rupture (about 4 m of subsurface rupture) propagated through the 1- to 2-km-wide Sapanca step-over, triggering up to 4.5-5.5 m of surface rupture (up to 5-6 m of subsurface rupture) on the Sakarya segment. Rupture on the Sakarya segment stepped across the Akyazi gap triggering 1-1.5 m of rupture on the Karadere segment. Rupture on the Karadere segment was arrested by the 2- to 4-km-wide Eften Lake step-over.
Modeling of the transient stress field associated with the rupture propagation agrees well with the field observations. The modeled fault rupture of 5 m on the Gölcük segment appears to decrease the transient stress on the eastern tip of the adjoining Yalova segment across the 4- to 5-km-wide Karamursel step-over, even if we allow rupture on the Gölcük segment to extend along the entire southern margin of the step-over. Our model shows that regardless of the amount of slip, in a generic sense, it is difficult to increase stress on the tip of an adjoining fault segment across a 5-km-wide step-over. On the other hand, fault rupture of 3 m on the western tip of the Sapanca fault segment significantly increases the transient stress on the adjoining Sakarya segment across the 1- to 2-km-wide Sapanca step-over, allowing rupture propagation across the basin.
An evaluation of 30 historical strike-slip earthquakes involving 59 step-over basins supports our field observations and stress modeling of the zmit fault rupture. Historical strike-slip events with small to large displacements usually propagate through step-overs less than 1-2 km wide. With increasing displacement, larger and larger step-overs can be ruptured through. The empirical data generally show a ratio ranging from 2:1 to 1:1 between step-over width (in kilometers) and strike-slip displacement (in meters) for a through-going rupture. However, step-overs of 4- to 5-km width appear to always arrest fault rupture, regardless of the amount of displacement. These results, therefore, provide important constraints for evaluating the probability of multisegment ruptures on segmented strike-slip faults.
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