TY  - JOUR
A1  - Toke, Nathan A.
A1  - Arrowsmith, J. Ramon
A1  - Rymer, Michael J.
A1  - Landgraf, Angela
A1  - Haddad, David E.
A1  - Busch, Melanie
A1  - Coyan, Joshua
A1  - Hannah, Alexander
T1  - Late Holocene slip rate of the San Andreas fault and its accommodation by creep and moderate-magnitude earthquakes at Parkfield, California
JF  - Geology
N2  - Investigation of a right-laterally offset channel at the Miller's Field paleoseismic site yields a late Holocene slip rate of 26.2 +6.4/-4.3 mm/yr (1 sigma) for the main trace of the San Andreas fault at Parkfield, California. This is the first well-documented geologic slip rate between the Carrizo and creeping sections of the San Andreas fault. This rate is lower than Holocene measurements along the Carrizo Plain and rates implied by far-field geodetic measurements (similar to 35 mm/yr). However, the rate is consistent with historical slip rates, measured to the northwest, along the creeping section of the San Andreas fault (<30 mm/yr). The paleoseismic exposures at the Miller's Field site reveal a pervasive fabric of clay shear bands, oriented clockwise oblique to the San Andreas fault strike and extending into the uppermost stratigraphy. This fabric is consistent with dextral aseismic creep and observations of surface slip from the 28 September 2004 M6 Parkfield earthquake. Together, this slip rate and deformation fabric suggest that the historically observed San Andreas fault slip behavior along the Parkfield section has persisted for at least a millennium, and that significant slip is accommodated by structures in a zone beyond the main San Andreas fault trace.
Y1  - 2011
U6  - https://doi.org/10.1130/G31498.1
SN  - 0091-7613
VL  - 39
IS  - 3
SP  - 243
EP  - 246
PB  - American Institute of Physics
CY  - Boulder
ER  - 
TY  - JOUR
A1  - Stein, Seth
A1  - Liu, Mian
A1  - Camelbeeck, Thierry
A1  - Merino, Miguel
A1  - Landgraf, Angela
A1  - Hintersberger, Esther
A1  - Kübler, Simon
ED  - Landgraf, Angelika
ED  - Kübler, Simon
ED  - Hintersberger, Esther
ED  - Stein, Seth
T1  - Challenges in assessing seismic hazard in intraplate Europe
JF  - Seismicity, fault rupture and earthquake hazards in slowly deforming regions
N2  - Intraplate seismicity is often characterized by episodic, clustered and migrating earthquakes and extended after-shock sequences. Can these observations - primarily from North America, China and Australia - usefully be applied to seismic hazard assessment for intraplate Europe? Existing assessments are based on instrumental and historical seismicity of the past c. 1000 years, as well as some data for active faults. This time span probably fails to capture typical large-event recurrence intervals of the order of tens of thousands of years. Palaeoseismology helps to lengthen the observation window, but preferentially produces data in regions suspected to be seismically active. Thus the expected maximum magnitudes of future earthquakes are fairly uncertain, possibly underestimated, and earthquakes are likely to occur in unexpected locations. These issues particularly arise in considering the hazards posed by low-probability events to both heavily populated areas and critical facilities. For example, are the variations in seismicity (and thus assumed seismic hazard) along the Rhine Graben a result of short sampling or are they real? In addition to a better assessment of hazards with new data and models, it is important to recognize and communicate uncertainties in hazard estimates. The more users know about how much confidence to place in hazard maps, the more effectively the maps can be used.
Y1  - 2017
SN  - 978-1-86239-745-3
SN  - 978-1-86239-964-8
U6  - https://doi.org/10.1144/SP432.7
SN  - 0305-8719
VL  - 432
SP  - 13
EP  - 28
PB  - The Geological Society
CY  - London
ER  - 
TY  - JOUR
A1  - Rosenwinkel, Swenja
A1  - Landgraf, Angela
A1  - Schwanghart, Wolfgang
A1  - Volkmer, Friedrich
A1  - Dzhumabaeva, Atyrgul
A1  - Merchel, Silke
A1  - Rugel, Georg
A1  - Preusser, Frank
A1  - Korup, Oliver
T1  - Late Pleistocene outburst floods from Issyk Kul, Kyrgyzstan?
JF  - Earth surface processes and landforms : the journal of the British Geomorphological Research Group
KW  - outburst flood
KW  - lake-level changes
KW  - Issyk Kul
KW  - Kyrgyzstan
KW  - cosmogenic nuclides
Y1  - 2017
U6  - https://doi.org/10.1002/esp.4109
SN  - 0197-9337
SN  - 1096-9837
VL  - 42
SP  - 1535
EP  - 1548
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Rosenwinkel, Swenja
A1  - Korup, Oliver
A1  - Landgraf, Angela
A1  - Dzhumabaeva, Atyrgul
T1  - Limits to lichenometry
JF  - Quaternary science reviews : the international multidisciplinary research and review journal
N2  - Lichenometry is a straightforward and inexpensive method for dating Holocene rock surfaces. The rationale is that the diameter of the largest lichen scales with the age of the originally fresh rock surface that it colonised. The success of the method depends on finding the largest lichen diameters, a suitable lichen-growth model, and a robust calibration curve. Recent critique of the method motivates us to revisit the accuracy and uncertainties of lichenometry. Specifically, we test how well lichenometry is capable of resolving the ages of different lobes of large active rock glaciers in the Kyrgyz Tien Shan. We use a bootstrapped quantile regression to calibrate local growth curves of Xanthoria elegans, Aspicilia tianshanica, and Rhizocarpon geographicum, and report a nonlinear decrease in dating accuracy with increasing lichen diameter. A Bayesian type of an analysis of variance demonstrates that our calibration allows discriminating credibly between rock-glacier lobes of different ages despite the uncertainties tied to sample size and correctly identifying the largest lichen thalli. Our results also show that calibration error grows with lichen size, so that the separability of rock-glacier lobes of different ages decreases, while the tendency to assign coeval ages increases. The abundant young (<200 yr) specimen of fast-growing X elegans are in contrast with the fewer, slow-growing, but older (200-1500 yr) R. geographicum and A. tianshanica, and record either a regional reactivation of lobes in the past 200 years, or simply a censoring effect of lichen mortality during early phases of colonisation. The high variance of lichen sizes captures the activity of rock-glacier lobes, which is difficult to explain by regional climatic cooling or earthquake triggers alone. Therefore, we caution against inferring palaeoclimatic conditions from the topographic position of rock-glacier lobes. We conclude that lichenometry works better as a tool for establishing a relative, rather than an absolute, chronology of rock-glacier lobes in the northern Tien Shan. (C) 2015 Elsevier Ltd. All rights reserved.
KW  - Lichenometry
KW  - Rock glacier
KW  - Absolute age dating
KW  - Kyrgyzstan
KW  - Tien Shan
Y1  - 2015
U6  - https://doi.org/10.1016/j.quascirev.2015.10.031
SN  - 0277-3791
VL  - 129
SP  - 229
EP  - 238
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Patyniak, Magda
A1  - Landgraf, Angela
A1  - Dzhumabaeva, Atyrgul
A1  - Abdrakhmatov, Kanatbek E.
A1  - Rosenwinkel, Swenja
A1  - Korup, Oliver
A1  - Preusser, Frank
A1  - Fohlmeister, Jens Bernd
A1  - Arrowsmith, J. Ramon
A1  - Strecker, Manfred
T1  - Paleoseismic Record of Three Holocene Earthquakes Rupturing the Issyk-Ata Fault near Bishkek, North Kyrgyzstan
JF  - Bulletin of the Seismological Society of America
N2  - The northern edge of the western central Tien Shan range is bounded by the Issyk-Ata fault situated south of Bishkek, the capital of Kyrgyzstan. Contraction in this thick-skinned orogen occurs with low-strain accumulation and long earthquake recurrence intervals. In the nineteenth to twentieth centuries, a sequence of large earthquakes with magnitudes between 6.9 and 8 affected the northern Tien Shan but left nearly the entire extent of the Issyk-Ata fault unruptured. Here, the only known historic earthquake ruptured in A.D. 1885 (M6.9) along the western end of the Issyk-Ata fault. Because earthquakes in low-strain regions often tend to cluster in time and may promote failure along nearby structures, the earthquake history of the northern Tien Shan represents an exceptional structural setting for studying fault behavior affected by an intraplate earthquake sequence. We present a paleoseismological study from one site (Belek) along the Issyk-Ata fault located east of the A.D. 1885 epicentral area. Our analysis combines a range of tools, including photogrammetry, differential Global Positioning System, 3D visualization, and age modeling with different dating methods (infrared stimulated luminescence, radiocarbon, U-series) to improve the reliability of an event chronology for the trench stratigraphy and fault geometry. We were able to distinguish three different surfacerupturing paleoearthquakes; these affected the area before 10.5 +/- 1.1 cal ka B.P., at similar to 5.6 +/- 1.0 cal ka B.P., and at similar to 630 +/- 100 cal B.P., respectively. Associated paleomagnitudes for the last two earthquakes range between M6.7 and 7.4, with a cumulative slip rate of 0.7 +/- 0.32 mm/yr. We did not find evidence for the A.D. 1885 event at Belek. Our study yielded two main overall results: first, it extends the regional historic and paleoseismic record; second, the documented rupture events along the Issyk-Ata fault suggest that this fault was not affected in its entirety; instead, these events indicate segmented rupture behavior.
Y1  - 2017
U6  - https://doi.org/10.1785/0120170083
SN  - 0037-1106
SN  - 1943-3573
VL  - 107
SP  - 2721
EP  - 2737
PB  - Seismological Society of America
CY  - Albany
ER  - 
TY  - JOUR
A1  - Macaulay, Euan A.
A1  - Sobel, Edward
A1  - Mikolaichuk, Alexander
A1  - Landgraf, Angela
A1  - Kohn, Barry
A1  - Stuart, Finlay
T1  - Thermochronologic insight into late Cenozoic deformation in the basement-cored Terskey Range, Kyrgyz Tien Shan
JF  - Tectonics
N2  - Basement-cored ranges formed by reverse faulting within intracontinental mountain belts are often composed of poly-deformed lithologies. Geological data capable of constraining the timing, magnitude, and distribution of the most recent deformational phase are usually missing in such ranges. In this paper, we present new low temperature thermochronological and geological data from a transect through the basement-cored Terskey Range, located in the Kyrgyz Tien Shan. Using these data, we are able to investigate the range's late Cenozoic deformation for the first time. Displacements on reactivated faults are constrained and deformation of thermochronologically derived structural markers is assessed. These structural markers postdate the earlier deformational phases, providing the only record of Cenozoic deformation and of the reactivation of structures within the Terskey Range. Overall, these structural markers have a southern inclination, interpreted to reflect the decreasing inclination of the reverse fault bounding the Terskey Range. Our thermochronological data are also used to investigate spatial and temporal variations in the exhumation of the Terskey Range, identifying a three-stage Cenozoic exhumation history: (1) virtually no exhumation in the Paleogene, (2) increase to slightly higher exhumation rates at similar to 26-20Ma, and (3) significant increase in exhumation starting at similar to 10Ma.
KW  - Thermochronology
KW  - Basement-cored ranges
KW  - Tien Shan
KW  - Structural geology
Y1  - 2013
U6  - https://doi.org/10.1002/tect.20040
SN  - 0278-7407
VL  - 32
IS  - 3
SP  - 487
EP  - 500
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Landgraf, Angela
A1  - Zielke, Olaf
A1  - Arrowsmith, J. Ramón
A1  - Ballato, Paolo
A1  - Strecker, Manfred
A1  - Schildgen, Taylor F.
A1  - Friedrich, Anke M.
A1  - Tabatabaei, Sayyed-Hassan
T1  - Differentiating simple and composite tectonic landscapes using numerical fault slip modeling with an example from the south central Alborz Mountains, Iran
JF  - Journal of geophysical research : Earth surface
N2  - The tectonically driven growth of mountains reflects the characteristics of the underlying fault systems and the applied tectonic forces. Over time, fault networks might be relatively static, but stress conditions could change and result in variations in fault slip orientation. Such a tectonic landscape would transition from a simple to a composite state: the topography of simple landscapes is correlated with a single set of tectonic boundary conditions, while composite landscapes contain inherited topography due to earlier deformation under different boundary conditions. We use fault interaction modeling to compare vertical displacement fields with topographic metrics to differentiate the two types of landscapes. By successively rotating the axis of maximum horizontal stress, we produce a suite of vertical displacement fields for comparison with real landscapes. We apply this model to a transpressional duplex in the south central Alborz Mountains of Iran, where NW oriented compression was superseded by neotectonic NE compression. The consistency between the modeled displacement field and real landforms indicates that the duplex topography is mostly compatible with the modern boundary conditions, but might include a small remnant from the earlier deformation phase. Our approach is applicable for various tectonic settings and represents an approach to identify the changing boundary conditions that produce composite landscapes. It may be particularly useful for identifying changes that occurred in regions where river profiles may no longer record a signal of the change or where the spatial pattern of uplift is complex.
KW  - fault interaction
KW  - landscape evolution
KW  - numerical modeling
KW  - Alborz Mountains
KW  - Iran
Y1  - 2013
U6  - https://doi.org/10.1002/jgrf.20109
SN  - 2169-9003
SN  - 2169-9011
VL  - 118
IS  - 3
SP  - 1792
EP  - 1805
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Landgraf, Angela
A1  - Kübler, Simon
A1  - Hintersberger, Esther
A1  - Stein, Seth
T1  - Active tectonics, earthquakes and palaeoseismicity in slowly deforming continents
JF  - Seismicity, fault rupture and earthquake hazards in slowly deforming regions
Y1  - 2016
SN  - 978-1-86239-745-3
SN  - 978-1-86239-964-8
U6  - https://doi.org/10.1144/SP432.13
SN  - 0305-8719
VL  - 432
IS  - 1
SP  - 1
EP  - 12
PB  - The Geological Society
CY  - London
ER  - 
TY  - JOUR
A1  - Landgraf, Angela
A1  - Dzhumabaeva, A.
A1  - Abdrakhmatov, Kanatbek E.
A1  - Strecker, Manfred
A1  - Macaulay, E. A.
A1  - Arrowsmith, J. Ramón
A1  - Sudhaus, Henriette
A1  - Preusser, F.
A1  - Rugel, Georg
A1  - Merchel, Silke
T1  - Repeated large-magnitude earthquakes in a tectonically active, low-strain continental interior: The northern Tien Shan, Kyrgyzstan
JF  - Journal of geophysical research : Solid earth
N2  - The northern Tien Shan of Kyrgyzstan and Kazakhstan has been affected by a series of major earthquakes in the late 19th and early 20th centuries. To assess the significance of such a pulse of strain release in a continental interior, it is important to analyze and quantify strain release over multiple time scales. We have undertaken paleoseismological investigations at two geomorphically distinct sites (Panfilovkoe and Rot Front) near the Kyrgyz capital Bishkek. Although located near the historic epicenters, both sites were not affected by these earthquakes. Trenching was accompanied by dating stratigraphy and offset surfaces using luminescence, radiocarbon, and Be-10 terrestrial cosmogenic nuclide methods. At Rot Front, trenching of a small scarp did not reveal evidence for surface rupture during the last 5000 years. The scarp rather resembles an extensive debris-flow lobe. At Panfilovkoe, we estimate a Late Pleistocene minimum slip rate of 0.2 +/- 0.1 mm/a, averaged over at least two, probably three earthquake cycles. Dip-slip reverse motion along segmented, moderately steep faults resulted in hanging wall collapse scarps during different events. The most recent earthquake occurred around 3.6 +/- 1.3 kyr ago (1 sigma), with dip-slip offsets between 1.2 and 1.4 m. We calculate a probabilistic paleomagnitude to be between 6.7 and 7.2, which is in agreement with regional data from the Kyrgyz range. The morphotectonic signals in the northern Tien Shan are a prime example of deformation in a tectonically active intracontinental mountain belt and as such can help understand the longer-term coevolution of topography and seismogenic processes in similar structural settings worldwide.
Y1  - 2016
U6  - https://doi.org/10.1002/2015JB012714
SN  - 2169-9313
SN  - 2169-9356
VL  - 121
SP  - 3888
EP  - 3910
PB  - American Geophysical Union
CY  - Washington
ER  - 
TY  - JOUR
A1  - Landgraf, Angela
A1  - Ballato, Paolo
A1  - Strecker, Manfred
A1  - Friedrich, Anke M.
A1  - Tabatabaei, Saeid H.
A1  - Shahpasandzadeh, Majid
T1  - Fault-kinematic and geomorphic observations along the North Tehran Thrust and Mosha Fasham Fault, Alborz mountains Iran : implications for fault-system evolution and interaction in a changing tectonic regime
N2  - Neighbouring faults can interact, potentially link up and grow, and consequently increase the seismic and related natural hazards in their vicinity. Despite evidence of Quaternary faulting, the kinematic relationships between the neighbouring Mosha Fasham Fault (MFF) and the North Tehran Thrust (NTT) and their temporal evolution in the Alborz mountains are not well understood. The ENE-striking NTT is a frontal thrust that delimits the Alborz mountains to the south with a 2000 m topographic front with respect to the proximal Tehran plain. However, no large instrumentally recorded earthquakes have been attributed to that fault. In contrast, the sigmoidally shaped MFF is a major strike-slip fault, located within the Alborz Mountains. Sinistral motion along the eastern part of the MFF is corroborated by microseismicity and fault kinematic analysis, which documents recent transtensional deformation associated with NNE-SSW oriented shortening. To better understand the activity of these faults on different timescales, we combined fault- kinematic analysis and geomorphic observations, to infer the kinematic history of these structures. Our fault kinematic study reveals an early dextral shear for the NTT and the central MFF, responsible for dextral strike-slip and oblique reverse faulting during NW-oriented shortening. This deformation regime was superseded by NE-oriented shortening, associated with sinistral-oblique thrusting along the NTT and the central-western MFF, sinistral strike-slip motion along subsidiary faults in the central MFF segment, and folding and tilting of Eocene to Miocene units in the MFF footwall. Continued thrusting along the NTT took place during the Quaternary. However, folding in the hanging wall and sinistral stream-offsets indicate a left-oblique component and Quaternary strike-slip reactivation of the eastern NTT- segment, close to its termination. This complex history of faulting under different stress directions has resulted in a composite landscape with inherited topographic signatures. Our study shows that the topography of the hanging wall of the NTT reflects a segmentation into sectors with semi-independent uplift histories. Areas of high topographic residuals and apparent high uplift underscore the fault kinematics. Combined, our data suggest an early mechanical linkage of the NTT and MFF fault systems during a former dextral transpressional stage, caused by NW-compression. During NE-oriented shortening, the NTT and MFF were reactivated and incorporated into a nascent transpressional duplex. The youngest manifestation of motion in this system is sinistral transtension. However, this deformation is not observed everywhere and has not yet resulted in topographic inversion.
Y1  - 2009
UR  - http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1365-246X
U6  - https://doi.org/10.1111/j.1365-246X.2009.04089.x
SN  - 0956-540X
ER  -