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Assessment of the stability potential of geosystems under anthropogenic influences (Case study: Ural River)

I tiakina i:
I whakaputaina i:Caspian Journal of Environmental Sciences vol. 23, no. 1 (2025), p. 181
Kaituhi matua: Khassenova, Alissa
Ētahi atu kaituhi: Bazarbayeva, Tursynkul, Nizamiev, Abdurashit, Kurbanova, Laura, Tussupova, Bayan, Kenzhebay, Rabiga, Bekzhanova, Aktoty, Khamitov, Ardak
I whakaputaina:
Caspian Journal of Environmental Sciences
Ngā marau:
River basins
Urbanization
Soil erosion
Environmental management
Remote sensing
Rivers
Geomorphology
Land use
Environmental impact
Erosion rates
Human influences
Climate change
Deforestation
Water quality
Water resources
Agricultural expansion
Stability
Water management
Industrial development
Statistical methods
Grasslands
Land use planning
Nitrates
Software
Reforestation
Sustainability management
Anthropogenic factors
Agricultural land
Hydrology
Statistical analysis
Forests
Ecosystems
Soil degradation
Case studies
Ecology
Land use management
Sustainable development
Data collection
Geographic information systems
Stability analysis
Urban areas
Sedimentation & deposition
Environmental
Urunga tuihono:Citation/Abstract
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Whakarāpopotonga:The stability of geosystems under anthropogenic influences has become a critical area of research due to increasing human activities and their impacts on natural ecosystems. This study focuses on assessing the stability potential of geosystems in the Ural River basin, a region experiencing significant anthropogenic pressures, including agricultural expansion, industrial development, and urbanization. By integrating geomorphological, hydrological, and ecological data, this research evaluates the resilience and vulnerability of the Ural River geosystem to human-induced changes. Field surveys, remote sensing, and statistical analyses were employed to quantify the extent of anthropogenic impacts. Results indicate that approximately 40% of the river basin has undergone moderate to severe degradation, with soil erosion rates increasing by 25% over the past two decades. Additionally, water quality parameters, such as nitrate concentrations, have exceeded permissible limits by 30% in areas adjacent to agricultural zones. The study identifies key drivers of instability, including deforestation, over-extraction of water resources, and improper land-use practices. Mitigation strategies, such as reforestation, sustainable water management, and land-use planning, are proposed to enhance the geosystem's stability. This research provides a comprehensive framework for understanding the interplay between anthropogenic activities and geosystem stability, offering valuable insights for policymakers and environmental managers.
ISSN:1735-3033
1735-3866
DOI:10.22124/CJES.2025.8573
Puna:Environmental Science Database