A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan
It has long been hypothesized that flux of fresh meltwater from glacial Lake Minong in North America's Superior Basin to the North Atlantic Ocean triggered rapid climatic shifts during the early Holocene. The spatial context of recent support for this idea demands a reevaluation of the exit poi...
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NMU Commons
2014
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| Online Access: | https://commons.nmu.edu/facwork_bookchapters/59 http://specialpapers.gsapubs.org/content/508/1 |
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ftnorthmichiguni:oai:commons.nmu.edu:facwork_bookchapters-1059 |
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ftnorthmichiguni:oai:commons.nmu.edu:facwork_bookchapters-1059 2023-05-15T17:35:36+02:00 A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan Loope, Walter L Jol, Harry M Fisher, Timothy G Blewett, William L Loope, Henry M Legg, Robert J 2014-01-01T08:00:00Z https://commons.nmu.edu/facwork_bookchapters/59 http://specialpapers.gsapubs.org/content/508/1 unknown NMU Commons https://commons.nmu.edu/facwork_bookchapters/59 http://specialpapers.gsapubs.org/content/508/1 Book Sections/Chapters Lake Superior Geography text 2014 ftnorthmichiguni 2022-04-15T14:12:45Z It has long been hypothesized that flux of fresh meltwater from glacial Lake Minong in North America's Superior Basin to the North Atlantic Ocean triggered rapid climatic shifts during the early Holocene. The spatial context of recent support for this idea demands a reevaluation of the exit point of meltwater from the Superior Basin. We used ground penetrating radar (GPR), foundation borings from six highway bridges, a GIS model of surface topography, geologic maps, U.S. Department of Agriculture–Natural Resources Conservation Service soils maps, and well logs to investigate the possible linkage of Lake Minong with Lake Chippewa in the Lake Michigan Basin across eastern Upper Michigan. GPR suggests that a connecting channel lies buried beneath the present interlake divide at Danaher. A single optical age hints that the channel aggraded to 225 m as elevated receipt of Lake Agassiz meltwater in the Superior Basin began to wane <10.6 ka. The large supply of sediment required to accommodate aggradation was immediately available at the channel's edge in the littoral shelves of abandoned Lake Algonquin and in distal parts of post-Algonquin fans. As discharge decreased further, the aggraded channel floor was quickly breached and interbasin flow to Lake Chippewa was restored. Basal radiocarbon ages on wood from small lakes along the discharge path and a GIS model of Minong's shoreline are consistent with another transgression of Minong after ca. 9.5 ka. At the peak of the latter transgression, the southeastern rim of the Superior Basin (Nadoway Drift Barrier) failed, ending Lake Minong. Upon Minong's final drop, aggradational sediments were deposited at Danaher, infilling the prior breach. Text North Atlantic Northern Michigan University: The Commons Glacial Lake ENVELOPE(-129.463,-129.463,58.259,58.259) |
| institution |
Open Polar |
| collection |
Northern Michigan University: The Commons |
| op_collection_id |
ftnorthmichiguni |
| language |
unknown |
| topic |
Lake Superior Geography |
| spellingShingle |
Lake Superior Geography Loope, Walter L Jol, Harry M Fisher, Timothy G Blewett, William L Loope, Henry M Legg, Robert J A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| topic_facet |
Lake Superior Geography |
| description |
It has long been hypothesized that flux of fresh meltwater from glacial Lake Minong in North America's Superior Basin to the North Atlantic Ocean triggered rapid climatic shifts during the early Holocene. The spatial context of recent support for this idea demands a reevaluation of the exit point of meltwater from the Superior Basin. We used ground penetrating radar (GPR), foundation borings from six highway bridges, a GIS model of surface topography, geologic maps, U.S. Department of Agriculture–Natural Resources Conservation Service soils maps, and well logs to investigate the possible linkage of Lake Minong with Lake Chippewa in the Lake Michigan Basin across eastern Upper Michigan. GPR suggests that a connecting channel lies buried beneath the present interlake divide at Danaher. A single optical age hints that the channel aggraded to 225 m as elevated receipt of Lake Agassiz meltwater in the Superior Basin began to wane <10.6 ka. The large supply of sediment required to accommodate aggradation was immediately available at the channel's edge in the littoral shelves of abandoned Lake Algonquin and in distal parts of post-Algonquin fans. As discharge decreased further, the aggraded channel floor was quickly breached and interbasin flow to Lake Chippewa was restored. Basal radiocarbon ages on wood from small lakes along the discharge path and a GIS model of Minong's shoreline are consistent with another transgression of Minong after ca. 9.5 ka. At the peak of the latter transgression, the southeastern rim of the Superior Basin (Nadoway Drift Barrier) failed, ending Lake Minong. Upon Minong's final drop, aggradational sediments were deposited at Danaher, infilling the prior breach. |
| format |
Text |
| author |
Loope, Walter L Jol, Harry M Fisher, Timothy G Blewett, William L Loope, Henry M Legg, Robert J |
| author_facet |
Loope, Walter L Jol, Harry M Fisher, Timothy G Blewett, William L Loope, Henry M Legg, Robert J |
| author_sort |
Loope, Walter L |
| title |
A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| title_short |
A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| title_full |
A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| title_fullStr |
A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| title_full_unstemmed |
A previously unrecognized path of early Holocene base flow and elevated discharge from Lake Minong to Lake Chippewa across eastern Upper Michigan |
| title_sort |
previously unrecognized path of early holocene base flow and elevated discharge from lake minong to lake chippewa across eastern upper michigan |
| publisher |
NMU Commons |
| publishDate |
2014 |
| url |
https://commons.nmu.edu/facwork_bookchapters/59 http://specialpapers.gsapubs.org/content/508/1 |
| long_lat |
ENVELOPE(-129.463,-129.463,58.259,58.259) |
| geographic |
Glacial Lake |
| geographic_facet |
Glacial Lake |
| genre |
North Atlantic |
| genre_facet |
North Atlantic |
| op_source |
Book Sections/Chapters |
| op_relation |
https://commons.nmu.edu/facwork_bookchapters/59 http://specialpapers.gsapubs.org/content/508/1 |
| _version_ |
1766134822427688960 |