Geography of the Pacific Northwest

The Pacific Northwest — from Oregon's high desert to the BC Coast Mountains — is one of the most climatically varied regions in North America. Mountains, oceans, and pressure systems conspire to create radically different worlds within a few hours' drive of each other.

West → East: One Transect, Seven Worlds

Drag the scrubber across this cross-section running from the Pacific coast over the Olympic Mountains, through Puget Sound, across the Cascades, and into the high desert. In roughly 400 miles, annual rainfall drops from 140 inches to 7 inches.

Pacific OceanOlympic MtnsPuget SoundPuget Sound LowlandsWest CascadesEast E. CascadesColumbia BasinSound7,980'14,411'← WestEast →✦ drag to explore ✦

West Cascades

1,000–14,411 ft (Mt. Rainier)

Annual Rainfall

80–140"

Temperature Range

20–65°F

Vegetation

Ancient Douglas-fir, subalpine fir, glaciers

The Cascades are the Pacific Northwest's great moisture trap and climate divide. Storms that traveled 4,000 miles across the Pacific dump their remaining water as they're forced over these mountains. Mt. Rainier alone holds 25 named glaciers and receives over 600 inches of snow in exceptional years.

Notable Microseasons Here

Snowpack PeakJan 29–Feb 2Cascade WildflowersMay 31–Jun 4First High-Elevation SnowsNov 27–Dec 1

The Forces at Work

Toggle the layers below to see what's shaping the weather on any given day — then click a region to discover which microseasons are most vivid there.

VancouverIslandLowerMainland&FraserValleyBCInterior&OkanaganOlympicPeninsulaPugetSoundCascadeRangeEasternWashingtonWillametteValleyORCoast&CoastRangeEasternOregonStrait ofGeorgiaFraser R.Puget SoundStrait of Juan de FucaColumbia R.BCWAORCanada / US Border — 49th ParallelN✦ click any region to explore — including BC ✦

Toggle Forces

Distinct ecological communities shaped by climate, geology, and elevation.

Why Geography Makes the Seasons

The Rain Shadow Effect

When Pacific air masses rise over the Olympics and Cascades, they cool and drop their moisture. By the time air descends on the eastern side, it has lost most of its water — creating high-desert conditions within miles of temperate rainforest. This single phenomenon explains more about PNW climate than any other.

The Pacific High

Every summer, a high-pressure system builds offshore, deflecting storm tracks northward and delivering the PNW's characteristic dry summers. When it retreats in September, storms flood back in — beginning a new cycle of the seasonal calendar. The timing of the Pacific High's arrival and departure defines the whole arc of the year.

Marine Influence

The Pacific Ocean acts as a thermal flywheel, keeping coastal temperatures mild year-round. Water holds heat longer than land, moderating the region's winters and cooling its summers. The further inland you travel from the coast, the more continental the climate becomes — winters colder, summers hotter, and swings more extreme.

Now that you know what shapes these seasons — explore the calendar.

Explore the 72 Microseasons →