Rising concern over the degradation of the environment, such as erosion and sediment loads, warrants the integration of the complex and dispersed geographical data sets. This paper describes the use of Geographic Information System (GIS) and remote sensing for assessing the impact of land use changes to water turbidity in multiple watersheds. In this study, necessary data sets representing land uses, hydrology, weather, soils, elevation, and surface characteristics were integrated in a GIS in tabular, vector and grid formats. The land use maps that were derived from Landsat-5 TM imagery using a combination of different classification strategies gave an average accuracy of 95 %. Results from data analysis had shown that there exists a close ...
Due to land use and climate changes, more severe and frequent floods occur worldwide. Flood simulati...
This study aims at developing a GIS aided analysis to generate watershed runoff data. For this purp...
This study was conducted in Tumpat, Kelantan specifically located at latitude of 6° 11' to 6° 13' N ...
Rising concern over the degradation of the environment, such as erosion and sediment loads, warrants...
Rising concern over the degradation of the environment, such as erosion and sediment loads, warrants...
Understanding how the land use change influence the river basin hydrology will enable planners to fo...
Rising concern over the degradation of the environment due to rapid land development in recent years...
Deforestation and land development for agriculture and urbanisation are affecting the watershed envi...
The Geographical Information Systems (GIS) was used to detect the temporal and spatial land use chan...
Remote Sensing (RS) data and Geographical Information System (GIS) play a rapidly increasing role in...
GIS-based multi-temporal land use data provides a historical vehicle for determining and evaluating ...
The response of a watershed due to changes in its physical environment might result in floods, river...
Urban growth has negative environmental impacts that create water-based disasters such as flash floo...
AbstractThe present study highlights the importance of Digital Elevation Model (DEM) and satellite i...
Water is one of the most important natural resources for preserving ecosystems and human life. Unequ...
Due to land use and climate changes, more severe and frequent floods occur worldwide. Flood simulati...
This study aims at developing a GIS aided analysis to generate watershed runoff data. For this purp...
This study was conducted in Tumpat, Kelantan specifically located at latitude of 6° 11' to 6° 13' N ...
Rising concern over the degradation of the environment, such as erosion and sediment loads, warrants...
Rising concern over the degradation of the environment, such as erosion and sediment loads, warrants...
Understanding how the land use change influence the river basin hydrology will enable planners to fo...
Rising concern over the degradation of the environment due to rapid land development in recent years...
Deforestation and land development for agriculture and urbanisation are affecting the watershed envi...
The Geographical Information Systems (GIS) was used to detect the temporal and spatial land use chan...
Remote Sensing (RS) data and Geographical Information System (GIS) play a rapidly increasing role in...
GIS-based multi-temporal land use data provides a historical vehicle for determining and evaluating ...
The response of a watershed due to changes in its physical environment might result in floods, river...
Urban growth has negative environmental impacts that create water-based disasters such as flash floo...
AbstractThe present study highlights the importance of Digital Elevation Model (DEM) and satellite i...
Water is one of the most important natural resources for preserving ecosystems and human life. Unequ...
Due to land use and climate changes, more severe and frequent floods occur worldwide. Flood simulati...
This study aims at developing a GIS aided analysis to generate watershed runoff data. For this purp...
This study was conducted in Tumpat, Kelantan specifically located at latitude of 6° 11' to 6° 13' N ...