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|a Ergintav, S.
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|a Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences
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|a McClusky, Simon C
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|a Reilinger, Robert Eric
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|a Herring, Thomas A
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|a Hearn, E.
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|a Cakmak, R.
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|a Ozener, H.
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|a Lenk, O.
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|a Tari, E.
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|a McClusky, Simon C
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|a Reilinger, Robert Eric
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|a Herring, Thomas A
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|a Seven years of postseismic deformation following the 1999, M = 7.4 and M = 7.2, Izmit-Düzce, Turkey earthquake sequence
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|b American Geophysical Union (AGU)/Wiley,
|c 2017-01-19T19:56:11Z.
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|z Get fulltext
|u http://hdl.handle.net/1721.1/106538
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|a We report the results of nearly 7 years of postseismic deformation measurements using continuously recorded and survey mode GPS observations for the 1999 Izmit-Düzce earthquake sequence. Resolvable, time-dependent postseismic changes to the preearthquake interseismic velocity field extend at least as far as the continuous GPS station in Ankara, ∼200 km southeast of the Izmit rupture. Seven years after the earthquake sequence, the relative postseismic velocity across the North Anatolian Fault (NAF) reaches ∼10-12 mm/a, roughly 50% of the steady state interseismic rate, with the highest postseismic velocities within 40 km of the coseismic ruptures. We use a sequence of logarithmic time functions to fit GPS site motions. Up to three logarithmic terms with decay constants of 1, 150, and 3500 days are necessary to fit all the transient motion observed at the continuous GPS stations. The first term is required for the component of site motion parallel to the NAF at near-field sites strongly implicating rapid, shallow afterslip. The intermediate and longer-term postseismic velocity components reflect more broadly distributed strain with a symmetric double-couple pattern suggestive of either localized, deep afterslip or viscoelastic relaxation of the upper mantle and/or lower crust. In two areas (including the Marmara Sea) this pattern is superimposed on north-south extension centered on the NAF. We speculate that this extension may result from aseismic dip slip along coseismically weakened faults, driven by the background tectonic stress.
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|a Scientific and Technological Research Council of Turkey (CAYADAG Project 103Y100, EU 6)
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|a European Training Foundation (Frame FORESIGHT Project contract 511139)
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|a Scientific and Technological Research Council of Turkey (TARAL 1007 Project 105G019)
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|a National Science Foundation (U.S.) (grant EAR-0337497)
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|a National Science Foundation (U.S.) (grant EAR-0305480)
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|a National Science Foundation (U.S.) (grant INT-0001583)
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|a Natural Sciences and Engineering Research Council of Canada (Discovery grant RGPIN 261 458-07)
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|a en_US
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|a Article
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|t Journal of Geophysical Research: Solid Earth
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