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«European Geographical Studies» – international scientific Journal.

E-ISSN 2413-7197

Publication frequency – issued once a year.
Issued from 2014.

1 December 21, 2023


Articles

1. Elizbar Sh. Elizbarashvili, Mariya E. Elizbarashvili, Shalva E. Elizbarashvili
Dangerous Weather Phenomena in Tbilisi and Associated Climate Risks

European Geographical Studies. 2023. 10(1): 3-7.
DOI: 10.13187/egs.2023.1.3CrossRef

Abstract:
The probabilities of the occurrence of individual hazardous weather phenomena and their complexes in the city of Tbilisi were studied: hot days, strong winds, heavy winds, fog, hail, blizzard. The most common of the phenomena under consideration are hot days. Even in spring and autumn their probability is quite high, and in summer it reaches 0.83. During the cold season, there is a high probability of fog. Strong winds occur at all times of the year. Their probability is not very high, but is characterized by a significant coefficient of aggressiveness. Hail is especially aggressive and occurs in the warm season. The likelihood of a snowstorm developing is negligible. Possible social and economic risks associated with these phenomena have been identified. Both social and economic risks are greatest from fog and strong winds. In winter, the economic risk from fog per incident can be more than 3.6 million US dollars, in the fall - more than 2.3 million US dollars. The social risk from strong winds is greatest in spring, although the risk is also significant in other seasons. The economic risk from strong winds in spring exceeds $2.6 million, and in winter exceeds $2 million. These phenomena occur several times throughout the year, so the economic risk can range from several to tens of millions of US dollars per year.

URL: https://egs.cherkasgu.press/journals_n/1706524415.pdf
Number of views: 49      Download in PDF


2. Elizbar Sh. Elizbarashvili, Otar Sh. Varazanashvili, Avtandil G. Amiranashvili, S. Fuchs, Tsisana Z. Basilashvili
Statistical Characteristics of Hurricane Winds over Georgia for the Period 1961–2022

European Geographical Studies. 2023. 10(1): 8-18.
DOI: 10.13187/egs.2023.1.8CrossRef

Abstract:
A catalog of hurricanes over the territory of Georgia for the period 1961–2022 has been compiled, containing the period of onset, geographical coordinates of the epicenter, speed, magnitude, intensity, area of distribution, material damage, human casualties. Over the entire study period, about 1600 cases of hurricane winds were recorded. During the year, hurricanes occur on average 20 times, with the highest number of cases recorded in 2002 – 81. The average speed of hurricane winds in general for Georgia is 36 m/s, the highest speed reached 56 m/s. The average hurricane area is about 1200 sq. km, and the maximum hurricane area exceeds 10000 sq. km. There is no clear relationship between the hurricane area and the corresponding material damage, which can most likely be explained by the heterogeneity of the level of urbanization of comparable areas that experience varying degrees of damage. The long-term changes in hurricane activity reveal a cyclical nature, which can be explained by the peculiarities of atmospheric circulation. In general, over the entire period there has been a tendency for hurricane activity to weaken.

URL: https://egs.cherkasgu.press/journals_n/1706525285.pdf
Number of views: 55      Download in PDF


3. Thi Hoai Thu Trinh, Quang Van Nguyen
Variations in the Tropopause Temperature and Height over the Vu Gia-Thu Bon River Basin in Vietnam: Insights from GNSS Radio Occultation Observations

European Geographical Studies. 2023. 10(1): 19-27.
DOI: 10.13187/egs.2023.1.19CrossRef

Abstract:
This study presents a comprehensive analysis of the tropopause height and temperature over the Vu Gia-Thu Bon river basin using multi GNSS-RO (Global Navigation Satellite System Radio Occultation) data. The findings reveal an average tropopause temperature and height are 195.341K (±0.166K) and 16.467 km (±0.079 km), respectively. Monthly fluctuations in tropopause altitude range from 15.898 km (min) in July 2008 to 17.208 km (max) in February 2010. The highest temperatures and lowest altitudes occur from May to September, while the lowest temperatures and highest altitudes are observed from October to April. Tropopause height varies from 15.848 km to 17.208 km, with deviations from the mean ranging from -0.079 km to 0.232 km. Tropopause temperature ranges from 192.647K to 197.797K, with deviations from the mean ranging from -0.166K to 1.893K. The multi-regression analysis shows a significant upward trend in both tropopause temperature and height from 2002 to 2017. The Tropopause temperature increases approximately by +0.2K with an average yearly increase of 0.013K, while the tropopause height shows an upward trend of about +0.1km with an average yearly increase of 0.008km. The annual and semi-annual periods display sinusoidal variations in both temperature and height, with the annual cycle showing a larger amplitude. These findings highlight the impact of global temperature change on troposphere dynamics, emphasizing the importance of monitoring and understanding these changes for climate forecasting in the Vu Gia-Thu Bon river basin.

URL: https://egs.cherkasgu.press/journals_n/1706524650.pdf
Number of views: 43      Download in PDF


4.
full number
URL: https://egs.cherkasgu.press/journals_n/1706525300.pdf
Number of views: 42      Download in PDF





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