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NOTE to the Teacher In an inquiry classroom, teachers facilitate the construction of new knowledge by activating and then pursuing the inquisitive nature of each learner. (Golden Apple Foundation, 2003) It is recommended that students explore the concepts through interactions with the hands-on activities prior to using the powerpoint presentations. Powerpoint presentations have been created for the convenience of the teacher and are intended for use as a supplement to the hands-on activities. Teachers may modify and adapt them as they choose to meet the needs of their students.
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Earth’s Albedo ELF Activity: Energy 1D http://andrill.org/education/elf/activities/1D
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A continuous stream of sunlight bathes the Earth’s surface. Annually, averaged across the top of the Earth’s atmosphere, the incoming solar radiation is equal to 342 watts of energy per square meter. This sunlight provides the energy needed to warm the Earth to a habitable temperature, support life, power our weather, and drive ocean currents. This solar energy makes our planet the “just right” temperature for life as we know it.
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Fortunately, not all the incoming sunlight is absorbed by the Earth system, or our “just right” planet would be too hot for life. Globally, approximately 30% of the incoming radiation is reflected back into space, by clouds and the Earth’s surface, without altering the Earth’s temperature. This is important because the reflection of a portion of the incoming radiation helps to keep the planet in energy equilibrium, keeping the planet at a stable temperature of approximately 15˚ C.
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Clouds, dust, and other particles in the atmosphere reflect about 23.2% of the incoming radiation. 6.7% is reflected by the Earth’s surface.
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Albedo is defined as the amount a surface reflects. Albedo is derived from the Latin word “albus" for white. All visible objects reflect some amount of light. The amount of light reflected depends on the color and texture of the object. The albedo of an object is a measure of how much energy it reflects. The number is expressed as an index on a scale of 0 to 1, with 0 being the lowest albedo and 1.0 the highest. A pure black substance will have an albedo of 0 (absorbing most of the radiation and reflecting very little) and a highly reflective material will have an albedo of 1. If you have ever walked barefoot on a black driveway in the summer, you know which surface absorbs the most solar energy. Albedo 0.0 Albedo 1.0
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In the albedo image above, white shows areas where the highest percentage of the solar radiation is reflected by the Earth. Dark blue shows areas where the lowest percentage of solar radiation is reflected by the Earth. Earth’s Average Albedo
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Notice how the highest albedo values are in regions where Earth is mostly covered by snow and ice, or clouds, or both. The lowest albedo values occur in forest-covered landscapes or open ocean.
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Grasslands, forests, oceans, deserts, snow, ice, and even cities all reflect, absorb, and radiate solar energy. The range of albedos on Earth can be as low as 0.03 (3%) for water (when the sun is directly overhead) and as high as 0.9 (95%) for fresh snow cover.
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Land Surface TypeColorAlbedo (percent reflected) Taiga & Boreal Forest20% Deserts and Shrubland30% Inland Water10% Coniferous Forest10% Deciduous Forest20% Grassland20% Ocean10% Tundra20% Ice and Snow80%
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Map of Generalized Land Surface Types
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Snow- and Ice-Covered Regions of Earth
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Snow and ice have a high albedo. They reflect incoming sunlight, keeping the planet cool.
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SOURCE: University of Idaho, College of Sciences
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The Arctic is warming at almost twice the rate of the rest of the world. In many areas, the mountains are warming faster than the lowlands. How will warming temperatures affect snow and ice? Difference in 2001-2005 average temperature distribution compared with the 1951-1980 mean temperature distribution. Climate Change Impacts on Snow and Ice
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Artis Rams/iStock Snow influences climate because of its insulating properties and because it reflects sunlight. Warming temperatures are causing melting of snow and ice in the Northern Hemisphere, especially in the Arctic. Similar impacts are observed in parts of the Southern Hemisphere, especially the Antarctic Peninsula. (See previous slide.) SNOW
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Decreasing Snow Cover Snow cover has declined in the Northern Hemisphere, especially in spring and summer. Mean monthly snow cover is decreasing by about 1.3% per decade. Northern Hemisphere Spring Snow
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Snow is also melting earlier in the spring, increasing the snow-free period in the Arctic regions. As the length of the snow-free seasons increase, there is also a longer period when the boreal forest (taiga) is exposed, thereby changing (decreasing) its average albedo. This change may significantly alter the overall planetary albedo, causing even further warming (positive feedback effect).
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Snow Outlook for the Future Yellow to red is less snow Blue is increased snow The snow line (minimum elevation for snow cover in the mountains) is projected to rise in many mountain areas. Major reductions in snow cover are projected for mid- latitudes by the end of the this century (2100).
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This material is based on work supported by an Environmental Literacy Grant from the National Oceanic and Atmospheric Administration’s Office of Education (NA09SEC4690009) and prior work supported by the National Science Foundation under Grants ANT-0342484 and ESI-0632175. Any opinions, findings, and conclusions or recommendations expressed in these materials are those of the authors and do not necessarily reflect the views of the National Oceanic and Atmospheric Administration or the National Science Foundation. http://andrill.org/education/elf/activities
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