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- GIS and Remote Sensing (15)
- Human and economic geography (58)
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- Various (30)
Abstract: The purpose of this study is to identify potentially flood-prone areas in the section between the Siret hydrometric station and the confluence of the Siret River with the Suceava River.
Data related to water flow and specific flow parameters were incorporated into a dedicated hydrodynamic modeling program, in accordance with its requirements (DHI). The construction of the model focused on reproducing the field’s reality as faithfully as possible. Flow parameters were individually configured for each calculation section, taking into account their specific characteristics. Roughness values were determined non-uniformly based on the areas traversed by each cross-sectional profile.
Great emphasis was placed on model calibration, using monitored data from the Zvoriștea and Huțani hydrometric stations as reference points. A time series spanning 15 years, including two of the largest floods recorded in the sector, was used. Following the simulation of two scenarios, Q1% and Q0.1%, three types of files were generated, describing the flood boundary, water depth at each point on the boundary surface and water velocity at each point within the flood boundary. Localities and types of potentially flood-prone surfaces were identified on a map using GIS techniques. Furthermore, flood boundary limits from different scenarios were overlaid to quantify areas at risk of flooding. Although the scenarios were simulated on a previously calibrated model, the fact that the simulated flows exceeded the observed flows required several post-calibration steps. In the case of the first scenario, the simulation did not show significant errors, precisely because the Q1% flow is close in value to the maximum flows observed during the calibration period. In the case of the second scenario, the fact that the flow extended to non-specific areas even during historical maximum flows, resulted in stability errors or non-conforming results obtained by the program, inconsistent with research and studies in the field.
Abstract: Floods are considered one of the most significant natural threats to cities and their infrastructure, especially when urban resilience is weak of floods, due to both human and natural factors. This is the case in the Algerian city of Tebessa, where urban resilience is low in the watershed of Wadi Nagues, which divides the city from north to south. Informal expansion along the riverbanks and inadequate city infrastructure increases the risk of flooding in the city. This study aims to identify the factors that increase flood hazards in Wadi Nagues and analyze maximum daily rainfall values to determine the maximum flood flow and volume during different return periods of 10, 50, 100, and 200 years, in order to map the floodplain of the river. This is accomplished using Geographic Information Systems (GIS) and HEC-RAS software for flood simulation. The results of the flood simulation in Wadi Nagues show that river waters inundate the southern areas of informal expansion, the airport, the railway, Houari Boumediene neighborhoods, and the Constantine Road – which is an economic artery for the city. The peak flow reaches 86.82 m³/h, and the volume of flow is 159.20 m³/s, in a during a 200-year return period. Field surveys also reveal several other human factors that increase the risk of flooding, such as informal expansion, lack and weakness of flood protection hydraulic structures, and poor river water cleanliness. This necessitates intervention to protect the city from flood hazard.
Abstract: Seasonal quality assessment of surface water provides not only a better understanding about pollution dynamics in water bodies but also information for the implementation of sustainable water-use management strategies. Such vital information is lacking for surface waters in most cities in sub-Sahara Africa region, especially Nigeria. The study aimed, therefore, to examine the seasonal physio-chemical characteristics of surface waters in Enugu urban, southeast Nigeria, during the dry and wet seasons. Twelve Surface water samples were collected from the six major rivers in Enugu urban during two seasons (wet and dry seasons). Their physico-chemical characteristics were determined by specific analyses between 2020 and 2022. Some of the parameters were measured in situ whereas bacterial analysis were analysed in the laboratory. Seasonal fluctuations in surface water quality characteristics were determined and the pollution status was compared to WHO standards. The results revealed that the parameters like Turbidity, Ammonia, Nitrate, Nitrogen, Fecal coliform and total coliform were above the WHO permissible limit at all sites and for all seasons. Various anthropogenic activities, untreated sewage and effluent were the major sources of pollution to the river ecology and the surface water. Overall monitoring network results must be used to control pollution in catchments where industrial and urban activities are increasing in other to ensure effective water quality management, sustainability and safety.
Abstract: Destination image research is essential for creating marketing strategies and increasing tourist interest. As the UNWTO data shows that domestic tourism is much larger than international tourism, studying the image of destinations for domestic tourists is key to tourism development. The existing scientific knowledge about the image of domestic tourism is the basis for further studies. Therefore, the main goal of this article is to make an analysis of the publications dealing with this topic in Scopus as one of the biggest databases. The main method was the bibliometric analysis; VOSviewer software was used for science mapping of the results. The focus was on co-authorship, organizations and countries of authors, citation analysis by documents and by countries, co-citation analysis, bibliographic coupling by documents and by authors, and keywords co-occurrence. The period of the publications is between 1995 and 2024. Thus, 105 papers are analyzed. The results show that there is an increase in scientific interest in the topic after 2015, with the main articles published in top quartile journals in the Scopus database. The data reveal that a greater part of the studies is in the field of economic sciences.
Abstract: The process of collectivization and industrialization in communist Romania that took place between 1949–1989 led to radical political, social, and economic changes. In the countryside, peasants lost their lands that became the property of the communist state. Some dispossessed lands were used for the construction of large-scale industrial projects such as coal-fired power plants. This was the case when land was needed for the construction of the Turceni Thermal Power Plant located in southern Romania.
Our study follows the general development of the historical and socio-economic situation of the communist period. In addition, we focused on the perception of dispossessed people regarding the status of owned or inherited lands, the process of restitution through the application of post-communist land reforms, the current situation of dispossessed lands, the forms of protests, and of the existence of the degree of attachment to the agricultural land.
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