End-Pleistocene large pothole complex in tholeiitic basalt (Clam Falls Volcanics, Mesoproterozoic, ~1.1 Ga; Devil's Parlor Pothole Complex, Interstate State Park, Taylors Falls, Minnesota, USA) 13 : 無料・フリー素材/写真
End-Pleistocene large pothole complex in tholeiitic basalt (Clam Falls Volcanics, Mesoproterozoic, ~1.1 Ga; Devil's Parlor Pothole Complex, Interstate State Park, Taylors Falls, Minnesota, USA) 13 / James St. John
| ライセンス | クリエイティブ・コモンズ 表示 2.1 |
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| 説明 | Pleistocene-aged coalesced pothole complex ("Devil's Parlor") in Precambrian tholeiitic basalts in Minnesota, USA.The outcrop shown above is a basalt lava flow in the Clam Falls Volcanics of eastern Minnesota. It is equivalent to & the same age as the North Shore Volcanic Series of northeastern Minnesota and the Portage Lake Volcanic Series of northern Michigan's Keweenaw Peninsula (www.flickr.com/photos/jsjgeology/albums/72157632266738191). The Clam Falls, North Shore, and Portage Lake successions are ~1.1 billion years old and represent basalt lava flows, plus minor sedimentary rocks, that filled up an ancient rift valley. This old rift is the Lake Superior segment of the Mid-Continent Rift System, a tear in the ancient North American paleocontinent of Laurentia (see: www.earth.northwestern.edu/people/seth/research/mcrfig1.jpg). Tectonic rifting started along this tear, exactly like the modern-day East African Rift Valley. Laurentia's Mid-Continent Rift System started and then stopped and was subsequently filled and buried. This ancient failed rift is now exposed on either side of Lake Superior in North America's Great Lakes.The lava flow shown above consists of high-aluminum, high-iron tholeiitic basalts.Description of the Clam Falls Volcanics in Runkel & Boerboom (2010): “A thick succesion of largely mafic volcanic rocks between the Pine Fault on the west and the Cottage Grove-Lake Owens Fault on the east in Wisconsin (Cannon and others, 2001). Outcrops near Taylors Falls consist of thick, coarse-grained, ophitic basalt flows with thick, fragmental flow tops, and thinner flows of fine-grained, intergranular basalt and porphyritic basalt. All the exposed flows contain abundant epidote and actinolite, which indicates that the flows were deeply buried (approximately 4.7 miles [7.5 kilometers]; Wirth and others, 1998) prior to uplift of the St. Croix Horst. Based on deep seismic profiles the thickness of the remaining volcanic rocks in the St. Croix Horst beneath the Clam Falls Volcanics is estimated to be approximately 5 miles (8 kilometers). The Clam Falls Volcanics underlie Paleozoic bedrock across a large expanse of southeastern Chisago County. They subcrop beneath unconsolidated Quaternary material in deep bedrock valleys, and are exposed as the uppermost bedrock in the Taylors Falls area.”The steep-walled gully shown above ("Devil's Parlor") is a pothole complex, consisting of several potholes that were erosively breached and coalesced into one large depression in the basalt bedrock. This locality is Interstate State Park - it has some of the world's largest examples of natural potholes. They formed by erosive action of the Glacial St. Croix River, which had a water level over 100 feet higher than the modern St. Croix River (www.flickr.com/photos/jsjgeology/18816043470). Near the end of the Pleistocene Ice Age, glacial meltwater from Glacial Lake Duluth (= ancestral Lake Superior) drained through this river valley. The torrent of water and sediments was conducive to erosive scour and the generation of many large potholes - more than 80 are present at this site.These potholes were originally filled with siliciclastic sediments (boulders to clay), organic sediments (peat and muck), and water. Many of the potholes have been excavated by people.Description of the large potholes at Interstate State Park in Boerboom et al. (2005): “More than 80 potholes are present in this area of the park (Glacial Gardens). The potholes range from decimeter depressions to giant “kettles” that are up to 20 meters deep and 6 meters in diameter. The potholes along the trail are 7.5 to 18 meters above the current river level; others have been found as much as 34 meters above river level. Today, many of the larger potholes are partly filled with silt, mud, peat, and grind stones. The potholes at this locality formed during a period of high discharge near the end of the Wisconsin glaciation. Lake levels in glacial Lake Duluth overflowed to the south through the Brule and St. Croix Rivers when ice dammed the Straits of Mackinac. The “Dalles of the St. Croix” mark a nickpoint where floodwaters flowed from basalt onto less resistant Cambrian sandstone and shale. Fast-moving currents and a steep gradient in this region likely contributed to the formation of the many potholes.”Description of Devil's Parlor from park signage: "The steep walls of this "miniature river valley" have the same water-smoothed surfaces as the inside of potholes. Devil's Parlor is a series of potholes which formed so close to each other that they merged as the swirling current of the Glacial St. Croix River cut them larger and larger. You can see "half-pothole" cross-sections all along its walls. Many of the potholes continue out of sight underground. The potholes just outside the downstream end of Devil's Parlor are among the deepest in the park. If the soil beneath the trail through Devil's Parlor were dug out to reveal the lower parts of the potholes buried there, how deep would they be? No one knows."Stratigraphy: Clam Falls Volcanics (Dresser unit or Trap Rock Alley unit), Keweenawan Supergroup, late Mesoproterozoic, ~1.1 GaLocality: Devil's Parlor Pothole Complex, Interstate State Park, Taylors Falls, eastern Chisago County, eastern Minnesota, USA (vicinity of 47° 23' 57.46" North latitude, 92° 39' 04.55" West longitude)------------------Some info. from:Boerboom et al. (2005) - Field trip 10, the western margin of the Keweenawan Midcontinent Rift System: geologic highlights of Archean, Paleoproterozoic, Mesoproterozoic, and Paleozoic bedrock in eastern Minnesota and northwestern Wisconsin. Minnesota Geological Survey Guidebook 21: 181-207.Runkel, A.C. & T.J. Boerboom. 2010. Geologic atlas of Chisago County, Minnesota, bedrock geology. County Atlas Series, Atlas C-22, Part A, Plate 2 - Bedrock Geology. |
| 撮影日 | 2015-06-05 10:34:11 |
| 撮影者 | James St. John |
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