Use of singular spectral analysis in geomorphological studies in the Southern Primorye and the Peter the Great Bay of the Sea of Japan

This paper presents the results of geomorphological studies carried out using the singular spectral analysis (SSA) complemented with geological and geophysical data. The SSA method was used to study the topography of the shelf and adjacent  land areas in two scales. The large scale study covered the whole territory  of the Southern  Primorye and the Peter the Great Bay, the small scale — a major part of the Peter the Great Bay and the adjacent land in the northwest-ern direction. This technique of the relief analysis gives an opportunity to select different groups of elevations (modes in the relief), isolating them among the others,  and to carry out geomorphological studies based on discrete  changes in the relief levels. Based on the geological and geophysical data, it was determined  that the area is located on a massive granite block. By analyzing the first (“older”) modes of the decomposition  of the relief of the studied area, contouring  of the massive block was carried out, and the choice of the location of the experimental hydrophysical ground was explained.

1. Dolgikh G. I. and Chupin V. A. Eksperimental’naya ocenka preobrazovaniya gidroakusticheskogo izluche niya v sejsmicheskuyu volnu (Experimental evaluation of the conversion of hydroacoustic radiation into a seismic wave). Akusticheskij zhurnal. 2005. Vol. 51. No. 5. P. 538-542. (in Russ.)

2. Dolgikh G. I., Dolgikh S. G., Pivovarov A. A., Samchenko A. N., Shvyryov A. N., Chupin V. A., Yakovenko S. V., Yaroshchuk I. O. Izluchayushchaya gidroakusticheskaya sistema na chastotah 19-26 Gc (Radiating hydroacoustic system at frequencies of 19-26 Hz.) Pribory i tekhnika eksperimenta. 2017. Vol. 60. Is. 4. P. 596-599. (in Russ.)

3. Leontyev A. P., Yaroshchuk I. O., Smirnov S. V., Kosheleva A. V., Pivovarov A. A., Samchenko A. N., Shvyryov A. N. Prostranstvenno-raspredelennyj izmeritel’nyj kompleks dlya monitoringa gidrofizicheskih processov na okeanicheskom shel’fe (Spatially distributed measuring system for monitoring hydrophysical processes of the ocean shelf). Pribory i tekhnika eksperimenta. 2017. Vol. 60. No. 1. P. 130-136. (in Russ.)

4. Devdariani A. S. Matematicheskiy analiz v geomorfologii (Mathematical analysis in geomorphology). V. V. Longinov. Ed. Moscow: Nedra (Publ.), 1967. 156 p. (in Russ.)

5. Glukhovskii A. B. and Fortus M. I. Ocenka statisticheskoj nadezhnosti empiricheskih ortogonal’nyh funkcij (Evaluation of the statistical reliability of empirical orthogonal functions). Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 1982. 18 (5). P. 451-459. (in Russ.)

6. Chernikov A. G. and Libina N. V. Ispol’zovanie markovskoj gipsotomografii pri geologicheskih issledovaniyah v okeanologii (The use of Markov hypsotomography for geological research in oceanology). Okeanologiya. 2011. Vol. 51. No. 3. P. 561-565. (in Russ.)

7. Golyandina N. E., Usevich K. D., and Florinsky I. V. Filtering of Digital Terrain Models by Two Dimensional Singular Spectrum Analysis. International Journal of Ecology & Development. 2007. Vol. 8. No. F07. P. 81-94. (in Russ.)

8. Navarra A. and Simoncini V. A Guide to Empirical Orthogonal Functions for Climate Data Analisis. Springer, 2010. 152 p.

9. Kazanskii B. A. Batimetriya morej Zapadno-Tihookeanskoj perekhodnoj zony po cifrovym dannym ETOPO 2 (Bathymetry of the seas of the west pacific transition zone from the ETOPO 2 digital data). Tihookeanskaya geologiya. 2007. Vol. 1. No. 3. P. 249-256. (in Russ.)

10. Kazansky B. A. Pryamoj raschet potencial’noj energii rel’efa poverhnosti zemli po cifrovym dannym (Direct calculation of the Earth’s topography-related potential energy from digital data). Izvestiya fiziki Zemli. 2005. Vol. 41. No. 12. P. 1023-1026. (in Russ.)

11. Korotchenko R. A., Samchenko A. N., and Yaroshchuk I. O. Primenenie mnogomernogo ЕOF-analiza v geoinformatike (Application of multidimensional EOF analysis in geoinformatics). Tsifrovaya obrabotka signalov. 2013. No. 3. P. 17-20. (in Russ.)

12. Korotchenko R. A., Samchenko A. N., and Yaroshchuk I. O. Primenenie statisticheskih metodov v izuchenii rel’efa shel’fovoj zony na primere zaliva Pos’eta YAponskogo morya (The use of statistical methods in the study of the relief of the shelf zone on the example of Posiet Bay, the Sea of Japan). Vestn. Dal’nevost. Otd. Ross. Akad. Nauk (Vestnik of the Far East Branch of the Russian Academy of Sciences). 2011. No. 6. P. 54-59. (in Russ.)

13. Korotchenko R. A., Samchenko A. N., and Yaroshchuk I. O. Prostranstvenno-vremennoj analiz geomorfologii okeanicheskogo dna zaliva Petra Velikogo YAponskogo morya (Spatiotemporal analysis of the sea bottom geomorphology of Peter the Great Bay, Sea of Japan). Okeanologiya. 2014. Vol. 54. No. 4. P. 497-504. (in Russ.)

14. GEBCO Gridded Bathymetry Data [Electronic resource]. Access mode: URL: http://www.gebco.net/data_and_products/gridded_dathymetry_data. Appeal date: 01/25/2018.

15. ETOPO1 Global Relief | NCEI [Electronic resource]. Access mode: URL: http://www.ngdc.noaa.gov/mgg/global/global.html. Appeal date: 25.01.2018.

16. ASTER Global Digital Elevation Map [Electronic resource]. Access mode: URL: https://asterweb.jpl. nasa.gov/gdem.asp. Appeal date: 25.01.2018.

17. Karnaukh V. N., Karp B.Ya., and Tsoy I. B. Struktura fundamenta i sejsmostratigrafiya osadochnogo chekhla severnoj chasti Yaponskoj kotloviny v rajone vozvyshennosti Tarasova (Yaponskoe more) (Basement structure and sedimentary cover seismostratigraphy of the northern part of the Japan basin in the area of the Tarasov Rise (Sea of Japan). Okeanologiya. 2007. Vol. 47. No. 5. P. 691-704. (in Russ.)

18. Kulinich R. G. and Stroyev P. A. O stroenii zemnoj kory v yugo-zapadnoj chasti Primorskogo shel’fa i kontinental’nogo sklona (On the structure of the earth’s crust of the southwestern part of the Primorsky shelf and the continental slope). Okeanologicheskie issledovaniya. 1973. No. 23. P. 97-101. (in Russ.)

19. Kulinich R. G. and Valitov M. G. Moshchnost’ i tipy zemnoj kory YAponskogo morya po dannym morskoj i sputnikovoj gravimetrii (Thickness and types of the earth’s crust of the Sea of Japan inferred from marine and satellite gravimetric investigations). Russian Journal of Pacific Geology. 2011. Vol. 5. No. 6. P. 481-491. (in Russ.)

20. Lipkina M. I. Tipy porod neogenovykh otlozheniy materikovogo sklona Yaponskogo morya i beregov Yuzhnogo Primor’ya. Geologiya okrainnykh morey Tikhogo okeana. (Types of Neogene sediments of the continental slope of the Sea of Japan and of the coast of the Southern Primorye. Geology of the Pacific Ocean marginal seas). Vladivostok: DVNTS AN SSSR (Publ.), 1975. P. 46-60. (in Russ.)

21. Likht F. R., Astakhov A. S., Botsul A. I. et al. Struktura osadkov i fatsiy Yaponskogo morya (Structure of sediments and facies of the Sea of Japan). Vladivostok: DVNTS AN SSSR (Publ.), 1983. 286 p. (in Russ.)

22. Markov Yu. D. Yuzhno-Primorskiy shel’f Yaponskogo morya v pozdnem pleystotsene i golotsene (Southern Prymorye Shelf of the Sea of Japan in the Late Pleistocene and Holocene). Vladivostok: DVNTS AN SSSR (Publ.), 1983. 128 p. (in Russ.)

23. Markov Yu. D. and Tarishkina M. P. Sostav i nekotoryye fizicheskiye svoystva chetvertichnykh i neogenovykh otlozheniy kontinental’nogo sklona zaliva Petra Velikogo. Voprosy geologii dna Yaponskogo morya. (Composition and some physical properties of Quaternary and Neogene deposits of the continental slope of Peter the Great Bay. Geology issues of the Sea of Japan bottom). Vladivostok: DVNTS AN SSSR (Publ.), 1973. P. 129-134. (in Russ.)

24. Otsenka perspektiv na neftegazonosnosti neraspredelennykh akvatoriy Dal’nevostochnykh morey i ikh konkretnykh uchastkov na osnove sovremennykh tekhnologiy sbora, obrabotki geofizicheskikh dannykh i modelirovaniya neftegazonosnykh (Estimation of prospects for the oil and gas potential of unallocated water areas of the Far Eastern seas and their specific areas based on modern technologies for collecting, processing geophysical data and modeling oil and gas bearing systems). Research report, GK No. 16.420/2011-DMNG-2, P. 100-118. (in Russ.)

25. Belyanskii G. S., Rybalko V. I., Syasko A. A., et al. Geologicheskaya karta Primorskogo kraya (Geological map of the Primorsky Region). Scale 1:1 000 000 Bazhanov V. A., Oleinik Yu. N. Ed. Vladivostok: VSEGEI (Publ.), 2007. (in Russ.)

26. Syasko A. A., Kutub-Zade T. K., and Korotky A. M. Gosudarstvennaya geologicheskaya karta Rossiyskoy Federatsii, seriya Khankayskaya (State Geological Map of the Russian Federation, Khankai Series). 2 nd ed. Sheets K-52-XII, K-52-XVIII, m-b 1:200 000. Kovalenko S. V. Ed. Vladivostok: FGUP (Publ.), 2002. (in Russ.)

27. Dolgikh G. I., Novotryasov V. V., Samchenko A. N., and Yaroshchuk I. O. Ob odnom mekhanizme obrazovaniya osadochnyh voln na shel’fe Yaponskogo morya (On a mechanism for the formation of sedimentary waves of the shelf of the Sea of Japan). Doklady Akademii Nauk. 2015. Vol. 465. Part 2. P. 1278-1282. (in Russ.)