Cartographic Extrapolation as Method for Forecasting Natural Phenomena and Processes

All known forecasting methods cannot do without the help of maps when it comes to natural phenomena and processes. Geographic forecasting can be considered as predicting geographic phenomena or processes that cannot  be explored. Identity of the methodology for forecasting the dynamics of phenomena in time and their propagation in space makes it possible to transfer the patterns that are true for time sequences to spatial series. In contrast to specialized forecasting methods developed by individual sciences, cartography provides a researcher with a general forecasting method called cartographic extrapolation. In this case the extrapolation is understood as the spread of patterns obtained in the course of cartographic analysis of  a  phenomenon  or  a  process to an unexplored part of  this  phenomenon or process to another territory, for the future. The foregoing is considered on the example of a map of Modern vertical movements of the Earth’s crust in the Republic of Belarus which is compiled according to geophysical data and repeated leveling. Predictive patterns and expectations are highlighted while applying the method of cartographic extrapolation on the map. The efficiency of cartographic extrapolation is increased with the complex use of different methods. The interaction of cartographic and remote methods is of particular importance. Joint analysis of maps, aerial and satellite images obtained from different heights and in different ranges helps to predict general global, regional or local patterns. An example of this is geological and geomorphological research. Maps of different contents and the results of interpretation of aerial photographs have been used to predict the neo-tectonic structure of the territory in the zone of junction of the Mikashevich ledge of the crystalline basement and the Turov depression in the Belarusian Polesie.

1. Berlyant A. M. (1978) Cartographic Research Method. Moscow, Publishing House of Moscow State University. 257 (in Russian).

2. Mikhailov V. I. (2006) Cartographic Extrapolation – a Way of Forecasting Phenomena and Processes. Nauka – Obrazovaniiu, Proizvodstvu, Ekonomike. Materialy 3-i Mezh-dunar. Nauch.-Tekhn. Konf. T. 1 [Science to Education, Industry, Economics. Proceedings of 3th International Science and Technical Conference. Vol. 1]. Minsk, BNTU, 410–412 (in Russian).

3. Khotko Zh. P. (1974) Deep Structure of the Territory of Belarus and the Baltic States According to Geophysical Data. Minsk, Nauka i Tekhnika Publ. 91 (in Russian).

4. Avotinya I. Ya., Boborykin A. M., Emelyanov A. P. (1988) Catalog of Historical Earthquakes in Belarus and the Baltic States. Seismic Bulletin of Stations “Minsk” (Pleschenitsy) and “Naroch” for 1983. Minsk, 126–137 (in Russian).

5. Garetsky R. G., Boborykin A. M., Emelyanov A. P. (1990) Assessment of Possible Seismic Impacts of Strong Earthquakes in the Baltic States and Belarus in Connection with the Construction and Operation of Particularly Critical Facilities. Problems of Ecological Geology in the Baltics and Belarus. Vilnius, 41–43 (in Russian).

6. Aronova T. I. (2006) Specific Features in Manifestation of Seismic Processes in Belarus. Litasfera [Lithosphere], (2), 103–110 (in Russian).

7. Sharoglazova G. A. (2012) Design of Geodynamic Studies in the Areas of the Interdependent Influence of Tectonic and Technogenic Factors on the State of the Earth’s Crust. Vestnik Polotskogo Gosudarstvennogo Universiteta. Seriya F. Prikladnye Nauki. Stroitel'stvo = Vestnik of Polotsk State University. Part F. Constructions. Applied Sciences, (8), 166–171 (in Russian).

8. Mikhailov V. I. (2001) Analysis of Maps for Modern Vertical Movements of the Earth’s Crust in Belarus for Construction and Operation of Engineering Structures. Byulleten' Belorusskoi Gornoi Akademii [Bulletin of the Belarusian Mining Academy], 5 (1), 50–53 (in Russian).

9. Mikhailov V. I. (2007) Study of Earthquakes in Belarus in Connection with the Construction and Operation of Engineering Structures. Vestnik BNTU [Bulletin of the Belarusian National Technical University], (6), 50–53 (in Russian).

10. Mikhailov V. I., Gubin V. N. (1989) Cartographic and Aerospace Method for Studying the Latest Tectonics in Forecasting Brown Coal Deposits. Razvedka i Okhrana Nedr = Prospect and Protection of Mineral Resources, (4), 31–37 (in Russian).

11. Mikhailov V. I., Myslivchik E. Yu., Kabatsky A. V. (2019) Study of Technogenic Subsidence in the Soligorsk Industrial Region by Aerospace and Geodetic Methods. Geomatika: Obrazovanie, Teoriya i Praktika: Materialy Mezhdunar. Nauch.-Prakt. Konf., Posvyashch. 50-letiyu Kaf. Geodezii i Kosmoaerokartografii i 85-letiyu Fak. Geografii i Geoinformatiki BGU [Geomatics: Education, Theory and Practice: Proceedings of International Scientific and Practical Conference Dedicated to 50th Anniversary of Geodesy and Aerospace Cartography Department and 85th Anniversary of Geography and Geo-Informatics Faculty of Belarusian State University]. Minsk, Publishing House of Belarusian State University, 9–12 (in Russian)