EX-MARE - FORECASTING SYSTEM OF NATURAL HAZARDS IN THE AZOV SEA REGION-Reference-Cited by-同舟云学术

EX-MARE - FORECASTING SYSTEM OF NATURAL HAZARDS IN THE AZOV SEA REGION

Published:2018-06-28 Issue:2 Volume:11 Page:29-45
ISSN:2542-1565
Container-title:GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY
language:
Short-container-title:Geogr. environ. sustain.

Author:

Berdnikov Sergey V.¹,Dashkevich Liudmila V.¹,Kulygin Valerii V.¹,Sheverdyaev Igor V.¹,Tretyakova I. A.¹,Yaitskaya Natalia A.¹

Affiliation:

1. Federal Research Center - The Southern Scientific Centre of the Russian Academy of Sciences

Abstract

The paper presents approach used for the development of the forecasting system of extreme hydro-meteorological events in the region of the Sea of Azov. Due to numerous dangerous extreme events that occurred in the beginning of XXI century the issue of creation such system has become very relevant and important. The forecasting system, named EX-MARE, was started developing in 2014 as a complex of mathematical models. For each type of hydro-meteorological events, the modeling component was designed. The EX-MARE system is based on a scenario approach implied the consideration a variety of possible futures taking into account the existing uncertainty. Accurate extreme events estimation requires automated monitoring systems and longterm database application. In the paper, the detail description of the system components and the data sources is examined. Three case studies about the sea surges, flash flood and ice conditions researches demonstrate the application of the EX-MARE system and the benefits of its using. Further development of the EX-MARE system assumes adding data on exposure and vulnerability to perform the risk assessment, as well as focusing on multi-hazards exploring methodology.

Publisher

Russian Geographical Society

Subject

Environmental Science (miscellaneous),Geography, Planning and Development

Reference43 articles.

1. Alekseevskii N.I., Krylenko I.N., Belikov V.V., Kochetkov V.V., and Norin S.V. (2014). Numerial Hydrodynamic Modeling of Inundation in Krymsk on 6–7 July 2012. Power Technology and Engineering. 48(3). pp. 179-186.

2. Berdnikov S.V. (2006). Simulation of large-scale changes in oceanographic characteristics of the Sea of Azov ecosystem. In: Regularities of ecosystem processes in the Sea of Azov. Moscow: Nauka. pp. 137–229 (in Russian).

3. Borsch S.V., Simonov Yu.A., and Khristoforov A.V. (2015). Flood forecasting and early warning system for floods on the rivers of the Black Sea coast of the Caucasus and the Kuban basin. Proceedings of Hydrometcentre of Russia. 356. pp. 248 (in Russian).

4. Chikin A.L. (2009). The two-layer mathematical model of the wind currents in the basin with different level of deep. Mathematical Models and Computer Simulations. 21(12). pp. 152–160.

5. Dashkevich L.V., Nemtseva L.D., and Berdnikov S.V. (2016). Assessment of the Sea of Azov ice cover in the XXI century using Terra/Aqua MODIS images and numerical modeling. Current problems in remote sensing of the Earth from space. 13(5). pp. 91-100. DOI: 10.21046/2070-7401-2016-13-5-91-100 (in Russian with English summary).

Cited by 7 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Modeling of multi-fractional suspended particle pathways in a shallow water basin under influence of strong winds;Regional Studies in Marine Science;2024-07

2. The Don River mouth area environmental problems at the present stage: Assessment and analytical review;BIO Web of Conferences;2024

3. Wind Waves Web Atlas of the Russian Seas;Water;2023-05-27

4. Short-Term Forecast of Water Levels in Don Mouth Area Using Hydrodynamic Simulation;Water Resources;2022-09-14

5. Sufficient Conditions for the Existence and Uniqueness of the Solution of the Dynamics of Biogeochemical Cycles in Coastal Systems Problem;Mathematics;2022-06-16