"Environmental geology, like hydrogeology, is an applied science concerned with the practical application of the principles of geology in the solving of environmental problems created by man."
Study of the interactions between human activities and geological processes.
Geologic time scale: Understanding the different eras and ages of geologic history helps in understanding the evolution of Earth's geological systems and its effect on the environment.
Plate tectonics: Plate tectonics explain the movement of Earth's plates, the creation of mountain ranges, earthquakes, and volcanic eruptions.
Landforms: The different landforms on the Earth's surface have a significant impact on the environment, such as valleys, hills, plateaus, etc.
Earth's resources: Understanding the distribution and availability of natural resources like minerals, fossil fuels, and water is important in managing them sustainably.
Rocks and minerals: Knowing the different types of rocks and minerals, their formation, properties, and uses provides a deeper insight into the environmental processes that affect them.
Weathering and erosion: Understanding the physical and chemical processes of weathering and erosion helps to explain how landforms are shaped and how they change over time.
Soil formation: Soil is the foundation of the earth's ecosystems, and understanding soil formation is important in managing agricultural lands and conservation efforts.
Hydrogeology: The study of groundwater resources and their distribution, movement, and contamination is crucial in managing water resources sustainably.
Geohazards: Natural disasters like earthquakes, landslides, and tsunamis have significant environmental impacts, and understanding their causes and risks helps in mitigating their effects.
Environmental impacts of human activities: Understanding how human activities such as mining, deforestation, and urbanization affect the environment is essential to develop sustainable solutions.
Climate change: Climate change is an important environmental concern, and understanding its causes, impacts, and potential solutions is critical to managing its effects.
Geologic hazards: Volcanic eruptions, earthquakes, and landslides pose significant risks to human society, and understanding their causes and potential impacts is essential in mitigating their effects.
Coastal geomorphology: Study of coastal landforms and how they are created and modified by waves, tides, and other processes.
Fluvial geomorphology: Study of rivers and how they shape the landscape around them.
Glacial geomorphology: Study of glaciers and how they shape the landscape through erosion and deposition.
Karst geomorphology: Study of limestone landscapes and the unique landforms created by weathering and dissolution of the rock.
Volcanic geomorphology: Study of the landforms and processes associated with volcanoes.
Tectonic geomorphology: Study of the interactions between tectonic processes and landforms.
Geomorphometry: Use of digital elevation models and other data to quantify and analyze landforms.
Paleogeomorphology: Study of past landscapes and how they have been modified over time.
Planetary geomorphology: Study of landforms and processes on other planets and moons.
Engineering geomorphology: Application of geomorphological knowledge to engineering projects such as building roads, dams, and other infrastructure.
"It is a multidisciplinary field that is closely related to engineering geology and, to a lesser extent, to environmental geography."
"Each of these fields involves the study of the interaction of humans with the geologic environment, including the biosphere, the lithosphere, the hydrosphere, and to some extent the atmosphere."
"Environmental geology is the application of geological information to solve conflicts, minimizing possible adverse environmental degradation, or maximizing possible advantageous conditions resulting from the use of natural and modified environment."
"With an increasing world population and industrialization, the natural environment and resources are under high strain which puts them at the forefront of world issues."
"Solutions are found by utilizing it [environmental geology]."
"Closely related to engineering geology and, to a lesser extent, to environmental geography."
"The interaction of humans with the geologic environment, including the biosphere, the lithosphere, the hydrosphere, and to some extent the atmosphere."
"The practical application of the principles of geology in the solving of environmental problems created by man."
"Environmental geology is the application of geological information to solve conflicts, minimizing possible adverse environmental degradation."
"Environmental geology is the application of geological information to solve conflicts, or maximizing possible advantageous conditions resulting from the use of natural and modified environment."
"With an increasing world population and industrialization."
"Environmental geology, engineering geology, and environmental geography."
"The practical application of the principles of geology in the solving of environmental problems created by man."
"Like hydrogeology, [it] is an applied science concerned with the practical application of the principles of geology."
"It is a multidisciplinary field that is closely related to engineering geology and, to a lesser extent, to environmental geography."
"With an increasing world population and industrialization, the natural environment and resources are under high strain which puts them at the forefront of world issues."
"Environmental geology is the application of geological information to solve conflicts."
"The solving of environmental problems created by man."
"With an increasing world population and industrialization, the natural environment and resources are under high strain which puts them at the forefront of world issues."