Lake Chicago

Lake Chicago
Lake Chicago
	Map of middle stage of glacial Lake Chicago, USGS Report of 1915.
	Lake Chicago
Location	North America
Group	Great Lakes
Coordinates	42°12′N87°06′W / 42.2°N 87.1°W
Lake type	former lake
Primary inflows	Laurentide Ice Sheet
Primary outflows	Chicago River
Basin countries	United States
First flooded	18,000 years before present
Max. length	241 mi (388 km)
Max. width	57 mi (92 km)
Average depth	160 ft (49 m)
Residence time	4000 years in existence
Surface elevation	160 ft (49 m)
References	The Pleistocene of Indiana and Michigan and the History of the Great Lakes; Frank Leverett and Frank B. Taylor; Monographs of the United States Geological Survey; Volume LIII; Washington; 1915

Last updated August 06, 2023

Lake Chicago was a prehistoric proglacial lake that is the ancestor of what is now known as Lake Michigan, one of North America's five Great Lakes. Formed about 13,000 years ago and fed by retreating glaciers, it drained south through the Chicago Outlet River.

Origin

The city of Chicago lies in a broad plain that, hundreds of millions of years ago, was part of a great interior basin covered by warm, shallow seas. These seas covered portions of North America from the Arctic Ocean to the Gulf of Mexico. Evidence of these seas is found in the fossils of coral, such as those unearthed in Illinois quarries at Stony Island Avenue, Thornton Quarry, and McCook, Illinois, or at 18th Street and Damen Avenue in Chicago. Evidence may also be found in the fossils in the Niagara limestone bedrock found throughout the Chicago area and extending all the way to Niagara, New York.^[2]

Much later, the polar ice cap crept four times down across the continent, covering the region with ice to a depth of a mile (1500 m) or more. As the climate changed, the ice melted, the last great ice flow (the Wisconsin Glacier of the Pleistocene period, which covered much of northern half of North America) retreated, and an outlet for the melting water developed through the Sag River and the Des Plaines River Valley around Mt. Forest, in the area known as the Palos. The Kankakee Torrent poured through those valleys, eventually leaving behind the prehistoric Lake Chicago, the ancestor of Lake Michigan.^[2]

Chronology

13,000 to 11,000 years before present

The earliest formation of Lake Chicago occurred when the Michigan Lobe of the glacier retreated northward into the basin of modern Lake Michigan, ca 13,000 years ago.^[3] The edge of the retreating glacier formed moraines, the Park Moraine in present-day Illinois and the Lake Borders Moraine in Indiana and Michigan.^[4]

The ice continued northward forming the next phase of Lake Chicago. The lake level remained at 640' above sea level,^[3] but the ice margin was a third of the way north, opening a channel across Michigan, draining the Lake Saginaw and Lake Whittlesey proglacial lakes in the Lake Huron and Lake Erie basins.^[4]

When the ice retreated northward enough to open the Mohawk River valley, the waters in the Lake Huron and Lake Erie basin diverted from the Michigan outlet, leaving Lake Chicago as a headwaters lake. Continued northward migration of the glacier set the stage for the next major proglacial lakes in the Lake Michigan basin as Lake Algonquin and then Nipissing Great Lakes.^[4]

Size

Extending somewhat further south, west and east than Lake Michigan, Lake Chicago extended west to present day La Grange, Illinois and south beyond Homewood and Lansing, Illinois, completely covering what is now Northwest Indiana, including the cities of Hammond and Gary, Indiana.

As the Wisconsin Glacier continued to retreat, it created new outlets for the water in Lake Chicago, including Niagara Falls, and the St. Lawrence River. As these outlets were developed, a partial lake capture occurred and the water level in Lake Chicago began to drop in three observable stages of 15 to 20 feet (5–6 m) each. Eventually even the outlet to the southwest dried up, and the Des Plaines River overflowed into the basin that became Lake Michigan.

Outlet and beaches

As the Michigan Lobe of the Labradorean Ice Cap retreated northward, the area of Lake Chicago increased.^[5] Lake Chicago’s initial outlet was to the southwest through the Des Plaines River valley, thence down the Illinois River to the Gulf of Mexico. The highest beach is the Glenwood Shoreline, which is 55 feet (17 m) to 60 feet (18 m) above the level of Lake Michigan. There are two additional beaches formed when the Des Plaines outlet was abandoned for other outlets to the north and east: the Calumet Shoreline, about 35 feet (11 m) to 40 feet (12 m) above the current lake, and the Tolleston Beach 20 feet (6.1 m) to 25 feet (7.6 m) above Lake Michigan. The name Lake Chicago is used for the lake when it drains through the Des Plaines outlet. The Calumet and Tolleston Beach lake is Lake Algonquin.^[5]

The outlet channel is more than 1 mile (1.6 km) wide and cuts through glacial deposits. Near the head of the channel, rock layers have been cut through. It is probable that the distinct beaches from Lake Chicago are the result of these rock layers giving way rapidly, dropping the lake level from higher to lower levels. After each stage, the next barrier remained solid, holding the lake stable and creating distinct beaches. If the outlet were formed by a steady erosion of the barrier, it would have been less likely that the well-defined beaches would have been created.^[5]

Along the eastern shore of Lake Michigan, the beaches of Lake Chicago have been destroyed by erosion, except the highest beach, much of which has also been destroyed.^[5] The best remaining segments are along the southern tip of Lake Michigan in Indiana.

Lake bed deposits

Lake Chicago covered only a narrow strip of land on the south and east side of modern Lake Michigan. From Holland northward across the Lake Chicago, the lake bed extends 10 to 25 miles (16 to 40 km) inland. The widest expanse is almost entirely fine sand. There is more sand than clay in a narrow strip along the shore. The clayey portions have till at only a few inches depth. The offshore winds along the east shore of Lake Michigan have created sand dunes, burying the older glacial beaches and lake beds.^[5]

Today

Vast amounts of sand in spits, dunes and beach lines—particularly at the southern tip of Lake Michigan—were left behind by each of the three stages of lake level drop. Today, evidence of these vast sand deposits is still clearly visible. Northern Indiana, for example, contains the Indiana Dunes, and many of the Chicago area's trails and roads follow some of these ancient beach lines or ridges in the sand spits.

For example, Ridge Road from Homewood, Illinois, through Thornton and Lansing, Illinois, and then crossing the state border into Munster and Highland, Indiana, is one; Michigan City Road through Riverdale, Dolton, and Calumet City, Illinois, is another; LaGrange Road is another; Riverside Drive in Riverside; Ridgeland Avenue in Oak Park, or Grosse Point Road, Carpenter Road, and Ridge Avenue (The Rosehill Spit) in the Rogers Park/West Ridge neighborhood of Chicago, north of Devon Avenue and continuing north through Evanston, Illinois, are some others. Blue Island, Illinois, and Stony Island were, literally, islands left behind as Lake Chicago's water level fell.

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Lake Whittlesey was a proglacial lake that was an ancestor of present-day Lake Erie. It formed about 14,000 years ago. As the Erie Lobe of the Wisconsin Glacier retreated at the end of the last ice age, it left melt-water in a previously-existing depression area that was the valley of an eastward-flowing river known as the Erigan River that probably emptied into the Atlantic Ocean following the route of today's Saint Lawrence River. The lake stood at 735 feet (224 m) to 740 feet (230 m) above sea level. The remanent beach is not horizontal as there is a ‘hinge line’ southwest of a line from Ashtabula, Ohio, through the middle part of Lake St. Clair. The hinge line is where the horizontal beaches of the lake have been warped upwards towards the north by the isostatic rebound as the weight of the ice sheet was removed from the land. The rise is 60 feet (18 m) north into Michigan and the Ubly outlet. The current altitude of the outlet is 800 feet (240 m) above sea level. Where the outlet entered the Second Lake Saginaw at Cass City the elevation is 740 feet (230 m) above sea level. The Lake Whittlesey beach called the Belmore Beach and is a gravel ridge 10 feet (3.0 m) to 15 feet (4.6 m) high and one-eighth mile wide. Lake Whittlesey was maintained at the level of the Ubly outlet only until the ice melted back on the "Thumb" far enough to open a lower outlet. This ice recession went far enough to allow the lake to drop about 20 feet (6.1 m) below the lowest of the Arkona beaches to Lake Warren levels.

Lake Arkona was a stage of the lake waters in the Huron-Erie-Ontario basin following the end of the Lake Maumee levels and before the Lake Whittlesey stages, named for Arkona, Ontario, about 50 miles (80 km) east of Sarnia.

Lake Wayne formed in the Lake Erie and Lake St. Clair basins around 12,500 years before present (YBP) when Lake Arkona dropped in elevation. About 20 feet (6.1 m) below the Lake Warren beaches it was early described as a lower Lake Warren level. Based on work in Wayne County, near the village of Wayne evidence was found that Lake Wayne succeeded Lake Whittlesey and preceded Lake Warren. From the Saginaw Basin the lake did not discharge water through Grand River but eastward along the edge of the ice sheet to Syracuse, New York, thence into the Mohawk valley. This shift in outlets warranted a separate from Lake Warren. The Wayne beach lies but a short distance inside the limits of the Warren beach. Its character is not greatly different when taken throughout its length in Michigan, Ohio, Pennsylvania and New York. At the type locality in Wayne County, Michigan, it is a sandy ridge, but farther north, and to the east through Ohio it is gravel. The results of the isostatic rebound area similar to the Lake Warren beaches.

References

↑ "Geologic History" (http://lwr.state.wi.us/subcategory.asp?linksubcatid=440&linkcatid=481&li nkid=). Lower Wisconsin State Riverway Board. Retrieved 2012-05-20.
1 2 "Lake Chicago". Forest Preserve District of Cook County . March 16, 1946. Archived from the original on April 26, 2006. Retrieved 2022-02-10. This article incorporates text from this source, which is in the public domain .
1 2 Bulletin 4, The GLACIAL LAKES around Michigan; William R. Farrand, University of Michigan, Ann Arbor, Michigan; 1988
1 2 3 The Illinois Ice Lobe; Frank Leverett; U.S. Geological Survey, Monograph, #38; Government Printing Office; Washington, D.C.; 1899, Plates 14, 16, 53
1 2 3 4 5 Publication 9. Geological Series 7; Surface Geology and Agricultural Conditions of the Southern Peninsula of Michigan; Frank Leverett with a Chapter on Climate by C. F. Schneider; Michigan Geological and Biological Survey Lansing Michigan; 1911

External links

Bretz, J.H. 1939. Geology of the Chicago Region, Part 1 - General. Illinois State Geological Survey, Bulletin 65. 118 pages.
Killey, Myrna M. 1998. Illinois' Ice Age Legacy. Illinois State Geological Survey GeoScience Education Series 14. 66 pages.
Willman, W.B. 1971. Summary of the Geology of the Chicago Area. Illinois State Geological Survey, Urbana, IL. Circular 460. 77 pages.
Oak Park - Ancient Lake Chicago & Continental Divide

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[1] "Geologic History" (http://lwr.state.wi.us/subcategory.asp?linksubcatid=440&linkcatid=481&li nkid=). Lower Wisconsin State Riverway Board. Retrieved 2012-05-20.

[FPDCC-memo-2] 1 2 "Lake Chicago". Forest Preserve District of Cook County . March 16, 1946. Archived from the original on April 26, 2006. Retrieved 2022-02-10. This article incorporates text from this source, which is in the public domain .

[Farrand-3] 1 2 Bulletin 4, The GLACIAL LAKES around Michigan; William R. Farrand, University of Michigan, Ann Arbor, Michigan; 1988

[Leverett1915-4] 1 2 3 The Illinois Ice Lobe; Frank Leverett; U.S. Geological Survey, Monograph, #38; Government Printing Office; Washington, D.C.; 1899, Plates 14, 16, 53

[Leverett1911-5] 1 2 3 4 5 Publication 9. Geological Series 7; Surface Geology and Agricultural Conditions of the Southern Peninsula of Michigan; Frank Leverett with a Chapter on Climate by C. F. Schneider; Michigan Geological and Biological Survey Lansing Michigan; 1911

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