Abstract
The geodynamics of the Tajik Depression, the junction zone of the Pamirs and Tien Shan, is typically considered in the context of plate tectonic concept, which implies intense subhorizontal compression of the zone resulting from the subduction of the Indian and Eurasian lithospheric plates. This convergence has been reliably confirmed by the GPS measurements. However, the joint analysis of the geological structure, seismicity, and geodimeter measurements conducted during a few years at the Garm geodynamical testing site of the Schmidt Institute of Physics of the Earth, Russian Academy of Sciences, demonstrates a widening of the Tajik Depression instead of its shortening, as should be expected from the subhorizontal compression predominant in the present-day stress-state of this region. This conclusion, together with the data from the other regions, suggests that, along with the plate tectonic mechanisms, there are also other, local, autonomous drivers that contribute to the tectogenesis of this region. Besides, the probable existence of these autonomous sources within the Tajik Depression directly follows from the seismology data. Among them is the crustal spreading within the depression suggested by the seismotectonic displacements in the focal mechanisms of the earthquakes. These displacements are directed in different azimuths off the axial’s most subsided part of the depression at a depth of 20–30 km. Above this region the distribution of seismotectonic deformations (STD) is chaotic. This pattern of deformation is barely accounted for by a simple model of subhorizontal compression of the Earth’s crust in the region. In our opinion, these features of the seismotectonic deformation in the crust within the studied part of the Tajik Depression is probably associated with the gain in the volume of the rocks due to the inflow of the additional material, which is supplied from the bottom crust or upper mantle by the deep fluids. This increase in the rock volume produces the state of horizontal compression (or, more exactly, outward all-round pressure). We suggest considering the subvertical pillar-like object, identified as a cluster of the earthquake hypocenters in the northern part of the region with chaotic STD, as one of the probable channels of fluid supply. This structure’ plane is isometric and has a diameter of about 20 km. It stretches downwards to a depth of 40 km, where the seismicity ceases. The suggested scenario of generation of the outward all-round pressure (autonomous geodynamics) can be considered as an independent driver of tectogenesis along with the traditional mechanisms relating the emergence of the stressstate of subhorizontal compression to the plate-tectonic convergence of the Eurasian and Indian lithospheric plates.
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References
Andreev, S.S., On the interpretation methods of the close earthquakes, Tr. Inst. Fiz. Zemli Akad. Nauk SSSR, 1962, vol. 192, no. 25, pp. 226–311.
Belokopytov, V.A., Guseva, T.V., Lukk, A.A., et al., Geodynamics of the Pamir and Tien Shan junction zone, Izv. Akad. Nauk SSSR, Ser. Geol., 1990, no. 11, pp. 127–134.
Belokopytov, V.A., Guseva, T.V., Lukk, A.A., et al., Presentday geodynamics and seismicity in the Garm test area, Tadjikistan, Tectonophysics, 1992, vol. 202, nos. 2–4, pp. 163–167.
Glazovskii, N.F., Hydrothermal alterations of the rocks in the present-day discharge sources of hydrogen sulfide thermal solutions, Izv. Akad. Nauk SSSR, Ser. Geol., 1976, no. 5, pp. 129–135.
Gol’dshtein, R.I. and Popov, A.I., On the origin of deep solutions in the water-pressure system of Central Asia and their role in ore formation, Nauch. Trudy Tashkent. Univ., 1972, vol. 432, pp. 67–73.
Guseva, T.V., Lukk, A.A., Pevnev, A.K., et al., Main features of the tectonics of the Garm Research Area (Tajikistan), in Tektonika Tyan’ Shanya i Pamira (Tectonics of the Tien Shan and Pamirs), Moscow: Nauka, 1983a, pp. 133–139.
Guseva, T.V., Lukk, A.A., Pevnev, A.K., et al., Geodynamics of the Garm Research Area in Tajikistan, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1983b, no. 7, pp. 10–26.
Guseva, T.V., Lukk, A.A., Pevnev, A.K., et al., Complex geodynamic studies in the Pamir–Tien Shan transition zone, in Sovremennaya tektonicheskaya aktivnost’ Zemli i seismichnost’ (Present-Day Tectonic Activity of the Earth and Seismicity), Moscow: Nauka, 1987,pp. 81–96.
Guseva, T.V., Lukk, A.A., Trapeznikov, Yu.A., and Shevchenko, V.I., Geodynamics of the Garm geodynamical testing area, Tajikistan, from the rangefinder measurements, Geotektonika, 1993a, no. 3, pp. 47–54.
Guseva, T.V., Lukk, A.A., Trapeznikov, Yu.A., and Shevchenko, V.I., Rangefinder measurements at the Garm geodynamical testing area, Tajikistan, Dokl. Russ. Akad. Nauk, Geol., 1993b, vol. 330, no. 4, pp. 476–479.
Hill, R., The Mathematical Theory of Plasticity, New York: Oxford Univ. Press, 1950.
Ivankin, P.F., Ore columns as the elements of hydrothermal flows, in Problemy obrazovaniya rudnykh stolbov (Ore Column Formation Problems), Novosibirsk: Nauka, 1972, pp. 6–12.
Kholodov, V.N. and Reimov, M.R., Relics of “carbonate columns” as markers of fault intersection zones, Dokl. Russ. Akad. Nauk, 1994, vol. 335, no. 5, pp. 630–633.
Leonova, V.G. and Lukk, A.A., Time variations in the type of seismotectonic deformation in the eastern Garm testing area, in Federal’naya sistema seismologicheskikh nablyudenii i prognoza zemletryasenii (Federal System for Seismological Observations and Earthquake Preduction), Moscow: OIFZ RAN, 1996, nos. 3–4, pp. 56–67.
Lukk, A.A., Pivovarova, N.B., and Pukhnacheva, T.P., On the location accuracy of the sources of local earthquakes, in Matematicheskie problemy geofiziki (Mathematical Problems of Geophysics), Novosibirsk: Nauka, 1973,pp. 159–167.
Lukk, A.A., Yunga, S.L., and Leonova, V.G., The general form of nodal surface at crustal earthquakes, in Sbornik sovetsko-amerikanskikh rabot po prognozu zempletryasenii (Collection of the Russian–American Works on Earthquake Prediction), Dushanbe–Moscow: Donish, 1976, vol. 1, no. 2, pp. 60–72.
Lukk, A.A. and Leonova, V.G., Joining of the Earth’s crust in the Garm region from the statistics of the focal mechanisms of the weak earthquakes, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1978, no. 8, pp. 33–45.
Lukk, A.A. and Yunga, S.L., Seismotectonic deformation of the Garm region, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1979, no. 10, pp. 24–43.
Lukk, A.A. and Shevchenko, V.I., The character of crustal deformation in the Garm region, Tajikistan, from the geological and seismological data, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1986, no. 7, pp. 16–33.
Lukk, A.A. and Shevchenko, V.I., Geodynamics of the Garm test area in Tadjikistan and the convergence of the Eurasian and Indian lithospheric plates, J. Geodyn., 1988, vol. 9, nos. 2–4, pp. 239–246.
Lukk, A.A. and Yunga, S.L., Geodinamika i napryazhennodeformirovannoe sostoyanie litosfery Srednei Azii (Geodynamics and Stress–Strain State of the Lithosphere in Central Asia), Dushanbe: Donish, 1988a.
Lukk, A.A. and Yunga, S.L., The stress–strain state of the Earth’s crust in the Garm region: 1. General questions and methods, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1988b, no. 6, pp. 14–26.
Lukk, A.A. and Yunga, S.L., The stress–strain state of the Earth’s crust in the Garm region: 2. The results of the reconstructions, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1988c, no. 7, pp. 10–22.
Lukk, A.A. and Shevchenko, V.I., The stress–strain state of the upper crust in the Garm testing area, Tajikistan, Dokl. Akad. Nauk SSSR, 1989a, vol. 306, no. 2, pp. 317–321.
Lukk, A.A. and Shevchenko, V.I., Geodynamics of the Garm testing area in Tajikistan and the convergence between the Eurasian and Indian lithospheric plates, Geol. Geofiz. Tajikistana, Dushanbe: Donish, 1989b, no. 2, pp. 285–296.
Lukk, A.A. and Shevchenko, V.I., The structure of seismic field and fault tectonics of the Garm region in Tajikistan, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1990, no. 1, pp. 5–20.
Lukk, A.A., Yunga, S.L., Shevchenko, V.I., and Hamburger, M.W., Earthquake focal mechanisms, deformation state, and seismotectonics of the Pamir–Tien Shan region, Central Asia, J. Geophys. Res., 1995, vol. 100, no. B10, pp. 20321–20343.
Lukk, A.A. and Shevchenko, V.I., Specific features of seismotectonic deformation of the Earth’s crust in the axial section of the Tajik Depression, Dokl. Earth Sci., 2003, vol. 393, no. 9, pp. 1276–1280.
Lukk, A.A. and Shevchenko, V.I., Implications of local tectogenesis for the deformation of layered sequences in the Tajik Depression, Izv., phys. Solid Earth, 2004, vol. 40, no. 11, pp. 897–916.
Lukk, A.A., Leonova, V.G., and Shevchenko, V.I., Seismotectonics of the Darvaz Fault Zone (the Pamirs), Izv., phys. Solid Earth, 2005, vol. 41, no. 9, pp. 704–717.
Lukk, A.A., Leonova, V.G., and Shevchenko, V.I., Seismotectonic characteristics of the northern flank and axial part of the Tajik Depression (the Garm geodynamic research area), Izv., phys. Solid Earth, 2008, vol. 44, no. 12, pp. 965–1001.
Luk’yanova, V.T., Katagenez v orogennykh oblastyakh (Catagenesis in Orogenic Regions), Moscow: KMK Scientific Press Ltd., 1995.
Minster, J.B. and Jordan, T.H., Present-day plate motions, J. Geophys. Res., 1978, vol. 83, pp. 5331–5354.
Papadopoulos, G.A., Earthquake hypocenter location at the Garm geophysical testing area, in Zemletryaseniya i protsessy ikh podgotovki (Earthquakes and their Preparatory Processes), Moscow: Nauka, 1991, pp. 1–23.
Papadopoulos, G.A., The method for simultaneous earthquake epicenter location and seismic velocity estimation, in Eksperimental’naya seismologiya (Experimental Seismology), Moscow: Nauka, pp. 109–118.
Rautian, T.G., Seismic attenuation and energy of the earthquakes, Tr. Inst. Seismostoik. Stroit. i Seismol., Akad. Nauk Tadzh. SSR, 1960, vol. 7, pp. 41–86.
Rulev, B.G., Earthquake source location in the conditions of time-varying properties of the medium, in Zemletryaseniya i protsessy ikh podgotovki (Earthquakes and their Preparatory Processes), Moscow: Nauka, 1991,pp. 24–35.
Rulev, B.G., Seismicity of the Garm area: some aspects of the spatial pattern, Izv., phys. Solid Earth, 1999, vol. 35, no. 11, pp. 924–936.
Sadovskii, M.A., Natural lumpiness of rocks, Dokl. Akad. Nauk SSSR, 1979, vol. 247, no. 4, pp. 829–831.
Sadovskii, M.A. and Pisarenko, V.F., Randomness and instability in geophysical processes, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1989, no. 2, pp. 3–12.
Sadovskii, M.A. and Pisarenko, V.F., Seismicheskii protsess v blokovoi srede (Seismic Process in a Block Medium), Moscow: Nauka, 1991.
Shevchenko, V.I., proiskhozhdensie strucktur gorizontal’nogo szhatiya v skladchatom sooruzhenii (Origin of the structures resulting from horizontal compression in a folded edifice), Moscow: Nauka, 1984.
Shevchenko, V.I., A probable role of some processes of lithogenesis in the formation of tectonic dislocations caused by subhorizontal compression, Byull. Mosk. O-va. Ispyt. Prir., Otd. Geol., 1999, no. 3, pp. 14–25 or 16–27.
Shevchenko, V.I., Lukk, A.A., and Prilepin, M.T., The Sumatra earthquake of December 26, 2004, as an event unrelated to the plate-tectonic process in the lithosphere, Izv., phys. Solid Earth, 2006, vol. 42, no. 12, pp. 1018–1037.
Shevchenko, V.I., Lukk, A.A., and Prilepin, M.T., Autonomous and plate-tectonic geodynamics of the Alpine–Himalayan mobile belt, in Fundamental’nye problemy geotektoniki, Materialy XL Tektonicheskogo soveschaniya (Basic Problems of Geotectonics. Proc. XL Tectonic Conference), vol. 2, Moscow: GEOS, 2007, pp. 359–362.
Shevchenko, V.I., Dobrovol’skii, I.P., and Lukk, A.A., Uniaxial extension deformation in the lithosphere and its geodetic interpretation, in Tektonofizika i aktual’nye voprosy nauk o Zemle (Tectonophysics and Topical Questions in the Earth Sciences), Moscow: IFZ RAN, 2009, vol. 1, pp. 421–432.
Shevchenko, V.I., Dobrovolsky, I.P., and Lukk, A.A., Seismotectonic deformation of the uniaxial elongation and anomalous mechanisms of earthquakes in the Earth’s crust of Tajik depression, Geofiz. Issled., 2010, vol. 11, no. 1, pp. 15–26.
Shevchenko, V.I., Aref’ev, S.S., and Lukk, A.A., Subvertical clusters of earthquake hypocenters unrelated to the tectonic structure of the Earth’s crust, Izv., phys. Solid Earth, 2011a, vol. 47, no. 4, pp. 276–298.
Shevchenko, V.I., Guseva, T.V., Lukk, A.A., and Prilepin, M.T., The Urals: plate tectonic or autonomous geodynamics?, Byull. Mosk. O-va. Ispyt. Prir., Otd. Geol., 2011b, no. 3, pp. 11–20.
Shevchenko, V.I., Guseva, T.V., and Lukk, A.A., Autonomous and plate-tectonic geodynamics of Tajik Depression (Garm geophysical testing area), Sovremennaya geodinamika Tsentral’noi Azii i opasnye prirodnye protsessy: rezul’taty issledovanii na kolichestvennoi osnove. Materialy Vseross. soveshchaniya i molodezhnoi shkoly (Recent Geodynamics of Central Asia and Hazardous Natural Processes: Results of Quantitative Studies. Proc. All-Russ. Conference and Youth School), Irkutsk, 2012, vol. 1, pp. 125–128.
Teitel’baum, Yu.M. and Ponomarev, V.S., Variations in the activity of weak crustal earthquakes with different source depths, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1979, no. 12, pp. 23–35.
Trifonov, V.G., Late Quaternary faults in the Western and Central Asia from the air-space photo interpretation and ground observations, Izv. Vyssh. Uchebn. Zaved., Geol. Razved., 1976, no. 11, pp. 54–64.
Tsekhovskii, Yu.G., Murav’ev, V.I., Muzylev, N.G., and Akhmet’ev, M.A., Early Cenozoic sedimentation on the ancient and young platforms of central Eurasia in the settings of crustal extension and topographic peneplanation: 2. Accumulation of silicites and hydrothermal activity, Byull. Mosk. O-va. Ispyt. Prir., Otd. Geol., 1996, no. 3, pp. 31–41.
Vadkovskii, V.N., Nature and mechanism of seismic “nails,” Lomonosovskie chteniya 1996. Tezisy dokladov (Lomonosov Readings 1996. Book of Abstracts), Moscow: MGU, 1996, pp. 63–64.
Vadkovskii, V.N., Subvertical congestions of the earthquake hypocenters—seismic “nails,” Vestn. Otd. Nauk Zemle RAN, 2012, no. 4, NZ1001. doi 10.2205/2012NZ000110
Vesson, R.L., Leonova, V.G., Maksimov, A.B., et al., Results of the joint field seismological studies in 1975 in the Peter the First Range region, in Sbornik sovetsko-amerikanskikh rabot po prognozu zempletryasenii (Collection of the Russian–American Works on Earthquake Prediction), Dushanbe–Moscow: Donish, 1976, vol. 1, no. 1, pp. 43–69.
Yunga, S.L., Identifying the earthquake mechanism from the arrivals of seismic Pand S-waves, Dokl. Akad. Nauk SSSR, 1977, vol. 233, no. 6, pp. 1076–1078.
Yunga, S.L., On the deformation mechanism of seismoactive crustal domain, Izv. Akad. Nauk SSSR, Fiz. Zemli, 1979, no. 10, pp. 14–23.
Yunga, S.L., Metody i rezul’taty izucheniya seismotektonicheskikh deformatsii (Methods and Results of Studying Seismotectonic Deformations), Moscow: Nauka, 1990.
Zakharov, V.S., Karpenko, A.I., and Zavyalov, S.P., Seismic nails in various geodynamic conditions, Moscow Univ. Geol. Bull., 2013, vol. 68, no. 1, pp. 10–16.
Zakharov, V.S., On the mechanism of the generation of seismic “nails,” Moscow Univ. Geol. Bull., 2013, vol. 68, no. 5, pp. 282–288.
Zarifi, Z. and Havskov, J., Characteristics of dense nests of deep and intermediate-depth seismicity, Adv. Geophys., 2003, vol. 46, pp. 237–276.
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Original Russian Text © A.A. Lukk, V.I. Shevchenko, V.G. Leonova, 2015, published in Fizika Zemli, 2015, No. 6, pp. 63–82.
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Lukk, A.A., Shevchenko, V.I. & Leonova, V.G. Autonomous geodynamics of the Pamir–Tien Shan junction zone from seismology data. Izv., Phys. Solid Earth 51, 859–877 (2015). https://doi.org/10.1134/S1069351315040060
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DOI: https://doi.org/10.1134/S1069351315040060