APES Chapter 5 Study Guide

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Climate and Terrestrial Biodiversity

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33 Terms

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Three major types of terrestrial ecosystems

Grasslands, Forests, Desserts

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The role of Climate in determining Biome Type

Climate determines biome types through temperature, precipitation, and seasonal variations, which shape the environment, plant life, and animal species in each region.

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How Climate is defined (vs. weather)

Climate refers to the long-term patterns of temperature, precipitation, and weather conditions in a region over decades or centuries, while weather describes short-term atmospheric conditions that can change daily.

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Major factors contributing to regional climat

Convection Cells (Hadley Cells*), Uneven Heating of Earth’s Surfaces, Tilt of Earth’s axis, Earth’s Rotation, (* is sometimes reserved for the two cells nearest Equator), Ocean Currents

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Convection Cells (Hadley Cells)

Large-scale air circulation patterns that distribute heat from the equator to higher latitudes, with Hadley Cells specifically near the equator.

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Uneven Heating of Earth’s Surfaces

Differences in solar energy absorption between the equator and poles drive temperature variations and wind patterns.

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Tilt of Earth’s Axis

Earth's tilt causes seasonal changes as different regions receive varying amounts of sunlight throughout the year.

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Earth’s Rotation

 Influences wind and ocean current patterns through the Coriolis effect, affecting climate zones.

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Ocean Currents

 Transport warm and cold water around the globe, regulating coastal and regional climates.

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Latitude:

Determines how much solar energy an area receives, with equatorial regions getting more direct sunlight and polar regions receiving less.

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Insolation (Incoming Solar Radiation):

The amount of solar energy reaching a specific area; higher insolation leads to warmer temperatures.

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Solar Cycles

Variations in the Sun's activity, like sunspots, can cause slight changes in solar energy output, impacting Earth's climate, even though the Sun is generally seen as stable.

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Gyres

large systems of circular ocean currents formed by the Earth's rotation and wind patterns. Warm water from the equator is carried to higher latitudes, while cooler water is transported back toward the equator, influencing coastal climates and weather patterns.

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Milankovitch Cycles

Milankovitch Cycles are long-term variations in Earth's orbit and orientation that affect climate over thousands of years. They consist of three main components:

  1. Eccentricity: Changes in the shape of Earth's orbit around the Sun, ranging from more circular to more elliptical, affecting how much solar energy the planet receives.

  2. Axial Tilt (Obliquity): Variations in the angle of Earth's tilt, which influence the severity of seasons.

  3. Precession: The wobble in Earth's rotational axis, which affects the timing of seasons in relation to Earth's position in its orbit.

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Savannas would be most associated with EXTREMES in what Climatic factor?

Savannas (tropical grasslands) are most associated with extremes in precipitation, experiencing distinct wet and dry seasons that greatly influence vegetation and animal life

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(end of Hunter Gather era) given Holocene conditions; which biome type(s) was / is best, typically, for agriculture?

temperate grasslands and temperate deciduous forests for agriculture. These biomes are characterized by fertile soil, a moderate climate, and predictable seasonal changes, making them ideal for growing a variety of crops.

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Warm Fronts and Cold Fronts

Warm fronts occur when warm air replaces cooler air, leading to steady, prolonged rain and gradual temperature increases. In contrast, cold fronts happen when cold air moves in, forcing warm air to rise quickly, resulting in thunderstorms and abrupt temperature drops. Warm fronts create gradual weather changes, while cold fronts cause more sudden shifts.

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The Jet Stream

The Jet Stream is a fast-moving band of air in the upper atmosphere, typically around 30,000 feet, flowing from west to east. It forms at the boundary between cold polar air and warmer tropical air and comes in two main types: the Polar Jet Stream and the Subtropical Jet Stream.

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El Nino Southern Oscillation (ENSO): ENSO is a warming event [vs. La Nina (increased cooling_ and Increased upwelling_ ]

1. El Niño:

   - Characterized by warmer ocean temperatures in the central and eastern Pacific.

   - Disrupts the normal east-to-west trade winds, pushing warm water towards the eastern Pacific and reducing nutrient availability.

2. La Niña:

   - Marked by increased cooling and upwelling of cold, nutrient-rich water.

   - Strengthens the trade winds and enhances normal ocean circulation.

3. Thermocline Dynamics:

   - During El Niño, the thermocline is shallower in the eastern Pacific, reducing marine productivity.

   - La Niña deepens the thermocline, enhancing nutrient upwelling and supporting greater biological activity.


4. Potential Ramifications:

   - Changes in weather patterns, including droughts and heavy rainfall.

   - Significant impacts on agriculture, leading to crop failures or increased yields.

   - Economic effects, particularly in agriculture and fisheries.


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The Role of Greenhouse Gases in determining Climate

Greenhouse gases (GHGs) are vital for regulating Earth's climate by trapping heat in the atmosphere.

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The Rainshadow Effect

The Rainshadow Effect occurs when moist air rises over a mountain range, causing precipitation on the windward side and creating a dry area (the rainshadow) on the leeward side. As the air ascends, it cools and loses moisture, resulting in lush vegetation on the windward side and arid conditions on the leeward side.

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 Deserts

  • Characteristics: Low precipitation (<10 inches/year), high temperature variability, sparse vegetation.

  • Ecosystem Services: Carbon storage, habitat for unique species, and potential medicinal resources.

  • Human Impacts: Urbanization, overgrazing, and habitat destruction.

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Tropical Dry Forests

  • Characteristics: Distinct wet and dry seasons, deciduous trees, high biodiversity.

  • Ecosystem Services: Soil formation, water regulation, and carbon sequestration.

  • Human Impacts: Deforestation, agriculture expansion, and land conversion for urban development.

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Tropical Rain Forests

  • Characteristics: High annual rainfall (>80 inches), dense canopy, high biodiversity.

  • Ecosystem Services: Biodiversity hotspots, carbon storage, and climate regulation.

  • Human Impacts: Deforestation, logging, and land conversion for agriculture.

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Temperate Deciduous Forests

  • Characteristics: Four distinct seasons, deciduous trees, rich soil.

  • Ecosystem Services: Timber production, water purification, and habitat for diverse species.

  • Human Impacts: Logging, urbanization, and pollution.

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 Evergreen Coniferous Forests (Taiga)

  • Characteristics: Dominated by coniferous trees, long cold winters, and acidic soils.

  • Ecosystem Services: Carbon storage, timber resources, and wildlife habitat.

  • Human Impacts: Logging, mining, and climate change effects.

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Chaparral

  • Characteristics: Hot, dry summers and mild, wet winters; drought-resistant shrubs.

  • Ecosystem Services: Soil stabilization, erosion control, and habitat for unique species.

  • Human Impacts: Urban development, wildfires, and invasive species.

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Savanna (Tropical Grassland)

  • Characteristics: Warm temperatures, distinct wet and dry seasons, dominated by grasses.

  • Ecosystem Services: Biodiversity conservation, carbon storage, and tourism opportunities.

  • Human Impacts: Agriculture expansion, poaching, and habitat destruction.

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Temperate Grassland

  • Characteristics: Moderate rainfall, hot summers, cold winters, dominated by grasses.

  • Ecosystem Services: Fertile soil for agriculture, habitat for species, and carbon storage.

  • Human Impacts: Agriculture, overgrazing, and urban development.

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Arctic Tundra (Polar Grassland)

  • Characteristics: Extremely cold temperatures, permafrost, limited vegetation.

  • Ecosystem Services: Carbon storage, habitat for unique species, and water regulation.

Human Impacts: Climate change, oil extraction, and habitat disruption.

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High Mountains

  • Characteristics: Variable climate with elevation changes, ecosystems change rapidly.

  • Ecosystem Services: Water source for downstream ecosystems, biodiversity hotspot.

  • Human Impacts: Mining, tourism, and climate change.

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Polar Ice

  • Characteristics: Ice sheets and glaciers, extremely cold temperatures, limited vegetation.

  • Ecosystem Services: Climate regulation, habitat for polar species, and global temperature regulation.

  • Human Impacts: Climate change, melting ice due to global warming, and pollution.

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E. O Wilson

E.O. Wilson (1929–2021) was a renowned biologist who advanced the fields of sociobiology and biodiversity conservation. Known for his studies on ants, he explored the biological roots of social behavior and coined "biophilia," our innate bond with nature. Wilson's advocacy for biodiversity and his influential works earned him two Pulitzer Prizes, leaving a lasting impact on science and conservation.