Climate
Climate vs. Weather Climate is the long-term pattern of the weather. Whereas, weather is just what’s happening here, now. (Rain, sun, snow, cold, hot, etc.)
Tropical Rain Forest [Humid]
Marine West Coast [Humid]
Low Latitude Desert [Arid]
Northern Continental [Sub-Humid]
Mid-Latitude Grassland [Semi-Arid]
High Latitude Tundra [Arid]
Climate is determined by multiple factors: Latitude Proximity to large bodies of water Ocean currents Prevailing winds Vegetative cover Elevation Mountain ranges.
Temperature and precipitation patterns are altered by various natural events, such as: Volcanic Eruptions El Nino
El Niño is a warm current that appears along the coast of Ecuador and Peru and lasts only a few weeks to a month or more. Every three to seven years, an El Niño event may last for many months, having significant atmospheric consequences worldwide (1997/1998).
WE affect climate, too . . . Human influences also affect climate: Deforestation Urbanization Over-production of greenhouse gases CO2 and Methane.
A few climate related terms . . . Climate Ratio: Ratio between precipitation and evaporation Climograph: Shows the average temps and precipitation during the year.
Types of climate zones: Humid: Hot/Wet Tropical: Warm Types of climate zones: Arid: Hot/Dry or Cold/Dry Desert: Dry
Continental Climate: Seasonal temps vary widely due to low atmospheric moisture. More terms: Marine Climate: Always mild due to the moderating effect of water.
The terms are unending . . . Fauna: Animal life Flora: Plant life
Ugggg, when will they end! Biome: A region characterized by unique climate patterns.
Windward: The side of a mountain facing into the prevailing wind. Leeward: The side of a mountain facing away from the prevailing winds.
And last but not least . . . Planetary Wind Belt: General direction winds are coming from depending on latitude. (ESRT Page 14!!)
Global Wind Patterns
Global Currents
Humidity: Is a measure of the amount of water vapor in the air. We can use the climate ratio to determine climate type because the ratio will indicate the general humidity conditions for an area. Humid = > 1.2 Arid = < .4 Semi-arid = .4 - .8 Subhumid = .8 – 1.2 Humidity: Is a measure of the amount of water vapor in the air.
Polar Latitudes: >60° N or S Tropical Latitudes: Between 23.5°N/23.5°S Latitude has a tremendous affect on climate patterns; as latitude increases (away from the equator) temperature decreases.
Elevation is also a factor; As elevation increases, the temperature decreases and precipitation increases.
As we already know . . . Water also has a big effect on climate. A large body of water will moderate the temperature of a nearby landmass. Moisture can also be carried on the wind from the water to land.
Mountains will affect climate because the windward side of the mountain will be cool and damp and the leeward side will be warm and dry. Windward: Air rises and cools. Leeward: Air sinks and warms
Planetary winds affect the climate in the mid-latitudes (like the USA) Planetary winds affect the climate in the mid-latitudes (like the USA). For example, the west coast has a marine climate (winds blow from across the water) and the east coast has a continental climate (winds blow from across the continent) Winds blow from ocean to the West coast & across the country. . . . . .to the east coast
A climograph allows you to determine whether a location is in the northern or southern hemisphere by the curve ~ warm in June/July/August and cold in Dec/Jan/Feb for the northern hemisphere and the opposite for the southern hemisphere.
Climographs of two locations; one coastal and one continental, would show a greater temperature change in the continental city and a more moderate climate in the coastal city.
The 23 ½° tilt of the Earth affects climate; if we were at a greater tilt, the tropics would extend father to the north and south and the polar regions would extend farther down, reducing the temperate climates.
So ~ to sum things up . . . There are many factors that affect climate, primarily: Latitude: Temps cools as we move away from the equator. Elevation: Higher elevations have cooler climates. Proximity of water: Water moderates climate and temperature. Mountain ranges: The side of the mountain (leeward or windward) effects climate types. Prevailing winds: Wind from the ocean creates a marine climate; wind from land creates a continental climate. Ocean currents: Warm currents warm the climate, cool currents cool the climate.
Climate Patterns Lab 7-8 Pages 293 - 299 YEA!!!!!!! It’s time for lab!! Climate Patterns Lab 7-8 Pages 293 - 299
Lab: Complete vocab – from notes Procedure A: Follow directions for parts 1, 2, 4 and 5 only, skip 3 Procedure B: Using the climographs on page 297, calculate the climate ratio of each location using the formula P/Ep Fill in the report sheet on page 298 with the climate ratio and climate type from the chart. Use the biome pictures to complete the chart. Skip Procedure C Answer discussion questions using your notes.
Global Wind Patterns HIGH LOW LOW LOW LOW
1 C 1.3 Humid Tropical Rain Forest P = 85 in Ep = 65 in ------------ Location Biome Letter Climate Ratio Climate Type Description 1 C 1.3 Humid Tropical Rain Forest P = 85 in Ep = 65 in ------------ P/Ep = 1.3