Summer Southern Hemisphere ((full)) Direct

Climate models project a poleward expansion of subtropical dry zones, leading to reduced winter-spring rainfall in southern Australia, western South Africa, and central Chile—but summer rainfall may decrease or become more variable. Conversely, tropical regions (e.g., northern Brazil, Madagascar) may see intensified summer rainfall and flooding.

Stable subtropical anticyclones (e.g., the South Pacific High, South Atlantic High, and Indian Ocean High) shift poleward during summer. Their influence brings hot, dry conditions to western coastal deserts (e.g., the Atacama, Namib) while directing moisture-laden trade winds toward eastern continental margins, producing summer-rainfall regimes in regions like southeastern Brazil, Mozambique, and eastern Australia. summer southern hemisphere

South of the Equator, summer is characterized by convective thunderstorm activity. The Amazon Basin experiences high humidity and frequent afternoon rainfall, while southeastern South America—including northern Argentina, Uruguay, and southern Brazil—suffers occasional heatwaves (temperatures >40°C) and severe storms with hail and tornadoes. The Atacama Desert remains rainless due to persistent coastal subsidence. Climate models project a poleward expansion of subtropical

[Generated AI] Date: April 14, 2026

A critical distinction is Earth’s elliptical orbit: Earth reaches perihelion (closest approach to the Sun) around January 3–4. This coincides with peak Southern Hemisphere summer. Consequently, the Southern Hemisphere receives approximately 6–7% more solar radiation during its summer than the Northern Hemisphere does during its summer (when Earth is at aphelion in July). This extra energy intensifies summer temperatures, particularly over oceanic and land surfaces, though high albedo over Antarctica mitigates some warming. Their influence brings hot, dry conditions to western