Tectonic landform, any of the relief features that are produced chiefly by uplift or subsidence of the Earth’s crust or by upward magmatic movements. They include mountains, plateaus, and rift valleys. Whereas erosion shapes landforms, their origins lie in tectonic. The coast is the zone between land and sea. The action of the waves and the sea constantly changes the shape and form of the coast, and people manage these changes in different ways. See full list on study.com.
Atmospheric processes play important roles in shaping the Earth’s energy and water cycles. With the help of numerical models, observations and theories, GFDL scientists conduct cutting-edge research to advance the fundamental understanding of atmospheric processes in governing climate variability and change, with the goal of developing more accurate representations of them in climate models. This work makes it possible to quantify the key characteristics of natural and anthropogenic perturbations to the climate system (such as greenhouse gases, aerosols, land use, volcanoes and solar radiation), and to elucidate the mechanisms through which these perturbations influence global and regional climate.
Aerosols and Climate
Aerosols refer to fine solid or liquid particles suspended in the atmosphere, where they reside typically for days to weeks before falling to the ground or being washed out by rain or snow. They arise both from human activities involving burning of fossil fuels, biofuels and veg and from natural sources (such as desert dust, sea spray and volcanic eruptions). Aerosol particles are tiny, but numerous, and often comprise of a number of inorganic and organic substances. Visible forms of atmospheric aerosol plumes include smoke, smog, haze and dust.
Clouds and Convection
Jan 16, 2017 A process is a force applied on earth materials affecting the same. An agent is a mobile medium (like running water, moving ice masses, the wind, waves, and currents etc.) which removes, transports and deposits earth materials. Earth Movements. They are the movements in the earth’s crust caused by the endogenic or exogenic forces. Earth Surface Processes and Landforms is a peer-reviewed scientific journal published by John Wiley & Sons on behalf of the British Society for Geomorphology.It covers geomorphology and more in general all aspects of Earth sciences dealing with the Earth surface.
Clouds play a central role in both the hydrological and energy cycles of our planet. Water evaporates directly at the surface or is transpired from the soil through vegetation. Once in the atmosphere, moisture is transported and redistributed by winds. Moisture condenses to form small cloud droplets or ice crystals when the temperature becomes cold enough. If clouds contain a sufficient amount of condensed water or ice, small particles undergo a transformation into larger particles that produce precipitation. Precipitation returns the water back to the surface in the form of rain or snow.
Mineral Dust Cycle
Mineral dust in the atmosphere is composed essentially of clay and silt particles, whose diameters vary between 0.1 to 20 micro-meters (~1/10 of hair). Larger particles, such as sand, are not included because they are too quickly removed from the atmosphere by gravitational settling. The main sources of silt and clay are in topographic depressions where alluvium has been accumulated. Dust is emitted when the surface winds are strong enough to break soil cohesion, which may only happen if there is no ground cover and the soil is dry. Human activities may be a source of dust or disturb soils and enhance wind erosion.
Earth Process
Radiative Forcings
Atmospheric radiative transfer is the science of understanding how electromagnetic radiation emitted by both the Sun and Earth interacts with the gases, clouds and particles making up our atmosphere. The changes in energy due to these interactions are responsible for many variations in temperature and weather that we experience in everyday life. For example, cloudy nights are normally warmer than clear nights because of radiative transfer processes, with the nighttime clouds reducing the energy lost to space by the surface of the planet.
Research Highlights
- Earlier Onset of the Indian Monsoon in the late 20th century: the Role of Anthropogenic Aerosols
July, 2013 - Sensitivity of tropospheric oxidants to biomass burning emissions: implications for radiative forcing
March, 2013 - Cloud tuning in a coupled climate model: impact on 20th century warming
May, 2013 - Springtime high surface ozone events over the western United States: Quantifying the role of stratospheric intrusions
November, 2012 - Mixing of dust and NH3 observed globally over anthropogenic dust sources
August, 2012
Recent Publications
Earth's Surface Processes
- An Investigation of the Connections among Convection, Clouds, and Climate Sensitivity in a Global Climate Model
March, 2014 - Anthropogenic aerosols and the weakening of the South Asian Summer Monsoon by Bollasina et al., 2011
October, 2011 - The impacts of changing transport and precipitation on pollutant distributions in a future climate by Fang et al., 2011
September, 2011 - Aerosol effects on stratocumulus water paths in a PDF-based parameterization by Guo et al., 2011
September, 2011 - Sensitivity of the aerosol indirect effect to subgrid variability in the cloud parameterization of the GFDL Atmosphere General Circulation Model AM3 by Golaz et al., 2011
July, 2011 - The dynamical core, physical parameterizations, and basic simulation characteristics of the atmospheric component AM3 of the GFDL Global Coupled Model CM3 by Donner et al., 2011
July, 2011