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Mountain climate Mountain Geography, term A, 2007 Major climatic controls • • • • ALTITUDE LATITUDE CONTINENTALITY TOPOGRAPHY Climate factors/elements • • • • • • Pressure, oxygen, water vapour Temperature Precipitation Winds Radiation clouds 3. CONTINENTALITY 4. TOPOGRAPHY • Barrier effects – DAMMING – DEFLECTION – BLOCKING • Depends on topography (mtn. range vs. isolated peak) Pressure Temperature • a measure of the average kinetic energy of the molecules in that substance. • how fast the air molecules are moving. Effect of altitude on temperature Wind • Wind results from a horizontal difference in air pressure • sun heats different parts of the Earth differently, causing pressure differences • Sun is the driving force for most winds. Wind direction Winds are directed towards low pressure, which results in: Lifting of air "Bad" Weather Winds are directed away from high pressure, which results in: Sinking of air "Good" Weather Types of winds • Large-scale – Standing waves – roters • Regional scale – Chinook winds; – Monsoon winds • Small scale: – Slope winds – Mountain/Valley winds – Glacier wind Large-scale standing waves Rotor clouds Lenticular clouds Orographic precipitation • occurs where mountains and hills force moist air to rise Chinook winds Warm, dry winds coming off the leeward side of the mountains Explain why they occur Also called Foehn (Germany); Mistral (French Alps) Santa Ana (California) Monsoon winds warmer •regional scale wind systems •created by the temperature contrasts between land and ocean •Land heats up/cools faster than oceans Direction of the monsoon Valley breeze (Anabatic) - upslope Daytime warmer LOW P Temperature inversion colder HIGH P Mountain breeze - Katabatic (downslope) Night time colder HIGH P warmer LOW P Mountain/Valley breeze OUT IN Mountain breathes IN Mountain breathes OUT Glacier winds Cloud Formation In order to make a cloud we need: • Moisture • Nuclei on which to condense (cloud condensation nuclei, or ice nuclei) • A method of cooling the air to saturation What about if the air temperature is below 0°C? • It is possible for liquid water to remain liquid below temperatures of 0°C if there are no Ice Nuclei (IN). • Liquid water below 0°C is called "supercooled" or "subcooled" water. Types of clouds Need: Plenty of moisture. A mass of warm unstable air. A source of energy to lift the warm, moist air mass rapidly upward. Cumulo-nimbus clouds Home exercise (X-credit): • • • • Watch for clouds over the Boulder area Take a picture, identify the clouds Write about how the clouds was formed Submit to Abby Composition of Solar Radiation
