There’s a reason why Oregon wines are recogized around the world:

“Sunday evening the White House hosted the 2009 Governor’s Dinner, the first black-tie dinner of the administration. The menu of all-American organic and sustainable foods featured the Archery Summit Estate 2004 Pinot Noir paired with Wagyu Beef and Nantucket Scallops.
That evening, President Obama raised a glass of wine and delivered his first formal dinner toast. “To the nation’s governors, to the United States of America, and to the certain hope that – despite our current travails – we will all emerge more prosperous and united.”
 
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Pittock Mansion

 

q  History of Pittock Mansion: Built by Henry and Georgiana Pittock in 1914.

q  It is a 22-room French Renaissance Chateau in the West Hills.

q  Georgiana (one of the founders of the Rose Festival) died in 1918 at the age of 72, and Henry in 1919 at 84. The Pittock family remained in residence at the mansion until 1958, when a Pittock grandson who had been born in the house, put the estate on the market and was unsuccessful in selling it. Extensive damage caused by the Columbus Day storm in 1962 caused the owners to consider demolishing the building. The community raised $225,00 to purchase the property.

q  Part of Portland Public Parks, the Mansion is owned and operated by the Pittock Historical Society. Part of the National Register of Historic Places.

q  1,000 ft elevation affords one of the best views of the city and on clear days all four peaks

q  This location was used in the 1989 movie, The Haunting of Sarah Hardy starring Sela Ward and Morgan Fairchild. This location was also used prominently in the 1993 film Body of Evidence starring Madonna and Willem Dafoe.

 Pittock View highlights:

q  NW industrial area, Willamette River, Columbia river in the distance. Most of what we see to the north is Washington State.

q  Expanse of Forrest NW along the ridge. Forrest Park (5,000 acre park)

q  Mountains: St. Helens, behind it Rainier, Adams.

q   At the picnic bench:

·   Mount Hood – 11,249 feet and is home to twelve glaciers. It is the highest mountain in Oregon and the fourth-highest in the Cascade Range

·   Mt Tabor – 630 ft, a 200-acre park in SE. Part of the a Plio-Pleistocene (1.8 million to approximately 11,477 )volcanic field. The Boring Lava includes at least 32 and possibly 50 cinder cones and small shield volcanoes lying within a radius of 21 kilometers.

·   U.S. Banc Corp Tower, great reference point as it sits on Burnside/Broadway.

·   Burnside, major artery that divides North/South.

·   Convention Center, Rose Garden (Blazers)

·   Willamette River, natural divider between East/West.

·   Bridges

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Hundreds of volcanoes erupted in the Cascade mountain range. You can still see the 14 major peaks and hundreds of smaller peaks and cinder cones that form the range. Near Hood River, Oregon, you see dramatic views of Mount Adams and Mount Hood. Both are dormant volcanoes that could erupt within the next 50 years.

During this period, the Cascades began to uplift. As the mountains rose, the Columbia River carved out a deep gorge. This is the only near sea-level passage through the Cascades.

The Missoula Floods
16,000-14,000 years ago (Pleistocene)

Did you know that the largest floods to occur on the planet happened here? During the last ice age, ice sheets covered much of Canada. One lobe of ice grew southward, blocking the Clark Fork Valley in Idaho. This 2,000 foot (600 meters) high ice dam blocked the river, creating a lake that stretched for hundreds of miles. When the lake was full, it contained 600 cubic miles (2,500 cubic kilometers) of water. How much is that? Imagine a block of water a mile high (as high as the mountains around Bonneville Dam), a miles wide, and stretching from Bonneville Dam to San Francisco!

Eventually, water traveled under the ice dam. The water drained out of the lake in two or three days, flooding eastern Washington. The flood, moving up to sixty miles per hour, scoured out hundreds of miles of canyons called coulees, created the largest waterfall to ever exist, and left 300 foot (90 meter) high gravel bars. At Bonneville, the water crested at 650 feet (200 meters). If you look on the cliffs southeast of the dam, you will see a transmission tower (the one with three poles) that is 200 feet (60 meters) above the high water mark.

During a period of 2,500 years as many as 100 of these floods scoured the Gorge.

 

 

Sliding into History
500 years ago

Near Bonneville, the lava layers making up Table Mountain slid into the Gorge. This series of four landslides, covering five square miles, blocked the Columbia River. The Second Powerhouse butts against this landslide. If you look north of the dam, you can see cliffs exposed after the mountain gave way.

Original inhabitants of the area may have marveled at the 200 foot (60 meters) high landslide blocking the Columbia. They could have crossed on foot, possibly giving rise to a story about “The Bridge of the Gods”. This natural dam created a lake that stretched almost seventy miles (up to the present day John Day Dam). After a few months, the Columbia rose high enough to wash through the southern side of the landslide creating a flood of water that was 100 feet (30 meters) deep at Troutdale.

Things returned to normal, except the river was displaced a mile to the south and a set of rapids, the Cascades, had formed. In 1938, the rapids disappeared under water rising behind Bonneville Dam. The only hints of their existence are the remnants of a navigation lock at Cascades Locks built in 1896 to allow boats around the rapids.

The Gorge is still changing. In the winter of 1996, landslides similar to the Bridge of the Gods landslide destroyed homes in Warrendale. At milepost 35 on I-84 you can see this damage.

The Columbia River and its tributaries form the dominant water system in the Pacific Northwest Region. The mainstem of the Columbia rises in Columbia Lake on the west slope of the Rocky Mountain Range in Canada. After flowing a circuitous path for about 1200 miles, 415 miles of which are in Canada, it joins the Pacific Ocean near Astoria, Oregon. The river drains an area of approximately 219,000 square miles in the States of Washington, Oregon, Idaho, Montana, Wyoming, Nevada, and Utah. An additional 39,500 square mile portion of the basin, or about 15%, is within Canada.

The Columbia River pours more water into the Pacific Ocean than any other river in North or South America. In its 1,270 mile course to the Pacific Ocean, the Columbia flows through four mountain ranges — the Rockies, Selkirks, Cascades, and coastal mountains — and drains 258,000 square miles. Its largest tributary, the Snake, travels 1,038 miles from its source in Yellowstone National Park in Wyoming before joining the Columbia. This vast river basin was formed near the end of the last Ice Age, 12,000 to 19,000 years ago, by the Bretz Floods. Immense ice dams half a mile high held back melting ice, creating a huge lake in northwest Montana, called Lake Missoula. Each time the ice gave way, massive walls of water as high as four hundred feet hurled boulders and icebergs seaward with a great destructive force. These floods generally followed the route of the present day Columbia River and came at least 40 times.

The Columbia River Basin is bounded principally by the Rocky Mountain system on the east and north, the Cascade Range on the west, and the Great Basin on the south. The basin area includes 3,000 square miles of waterways and lakes, of which 2,500 miles are within the United States.

 

 

 

 

 

 

 

 

The Columbia River drops more than 735 meters from its headwaters in British Columbia, winding over 1,950 kilometers to the Pacific Ocean. Although the river itself flows from Canada through only two states, forming part of the Washington-Oregon border, the vast Interior Columbia River Basin is defined by the area drained by the river and its many tributaries. This 58-million-hectare area (about the size of France) extends roughly from the crest of the Cascade Mountains of Oregon and Washington east through Idaho to the Continental Divide in the Rocky Mountains of Montana and Wyoming, and from the headwaters of the Columbia River in Canada to the high desert of northern Nevada and northwestern Utah.

The Columbia River Basin is a complex tapestry of mountains, high plateaus, desert basins, river valleys, rolling uplands, and deep gorges woven together by the Columbia River and its tributaries.

During the early stages of the Columbia Basin formation, granite rock was slowly created by heat and pressure deep in the crust of the earth. Then the crust was uplifted, exposing the granite, creating mountains similar to the Okanogan Highlands north of Grand Coulee Dam. Forty to sixty million years ago the formation of the outline of the Columbia Basin was complete. The land had subsided below sea level, and a large inland sea had formed. The land was again uplifted and then, 10-15 million years ago, was flooded with volcanic lava. The boundaries of the flood lava were located in almost the same position as the former seashore. Many layers of lava were needed to build up to a 5,000 feet (1500 meter) thickness and form the smooth surfaced Columbia Plateau.

During the Ice Age, the old Cascade Mountains were also formed. Their outline still remains on the western slopes of the Cascades. The uplifting mountains were not able to block the flow of the Columbia River completely, and a deep Columbia River gorge was formed. Near the end of the Ice Age the volcanoes of the high Cascades rose to elevations of 14,000-15,000 feet (4000-4500 meters). Older volcanoes, such as Mt. Hood and Mt. Rainier, were sculpted by glaciers of the Ice Age; such as Mt. St. Helens remained unsculpted, retaining their original volcanic form.

Eighteen thousand years ago the Columbia Basin was nearly covered by floodwaters when an ice dam at Lake Missoula in western Montana broke. Large boulders were strewn near the outlet of the Lower Coulee (Lake Lenore). Other boulders were carried in icebergs as far as western Oregon. The floodwaters were 800 feet (250 meters) deep near Pasco and 400 feet (125 meters) deep at Portland. After the Ice Age, the Columbia River returned to its former channel. The channeled scab lands and large coulees that had been formed were left stranded 500-1600 feet (150-500 meters) above the present river floor and serve as a constant reminder of some of the most unusual episodes in geologic history.  Learn more

 

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The Columbia River Plateau was created by a series of basalt flows.  The flows covered 164,000 square kilometers — portions of northeast Oregon, southwest Washington and western Idaho.

The Columbia River Gorge is a canyon of the Columbia River in the Pacific Northwest of the United States. Up to 4,000 feet (1,300 m) deep, the canyon stretches for over 80 miles (130 km) as the river winds from westward through the Cascade Range forming the boundary between the State of Washington to the north and Oregon to the south. The Columbia Gorge American Viticultural Area is located in both states. The Columbia River Gorge is a spectacular river canyon cutting the only sea-level route through the Cascade Mountain Range.

In addition to its natural beauty, the gorge also provides a critical transportation corridor and one of the most popular recreational locations in the Pacific Northwest. Atmospheric pressure differentials east and west of the Cascades create a wind tunnel effect in the deep cut of the gorge, generating 35 mph (56 km/h) winds that make it one of the finest and best-known windsurfing and kiteboarding locations in the world. The hatchery, located on the Washington side of the river near Hood River is one of the most popular places to windsurf.

The gorge also contains the greatest concentration of waterfalls in the Pacific Northwest, with over 77 waterfalls on the Oregon side of the gorge alone. Many are along the Columbia River Highway, including the notable Multnomah Falls, which, at 620 feet (188 m), is often claimed to be the second tallest year-round waterfall in the United States.  Learn more