Moraine formation in northwestern Ontario: product of subglacial fluvial and glaciolacustrine sedimentation

David R. Sharpe; W. R. Cowan

doi:10.1139/e90-157

Moraine formation in northwestern Ontario: product of subglacial fluvial and glaciolacustrine sedimentation

Canadian Journal of Earth Sciences ◽

10.1139/e90-157 ◽

1990 ◽

Vol 27 (11) ◽

pp. 1478-1486 ◽

Cited By ~ 28

Author(s):

David R. Sharpe ◽

W. R. Cowan

Keyword(s):

Large Scale ◽

Silty Sand ◽

Traditional View ◽

Glacial Lake ◽

Drainage Network ◽

Lake Agassiz ◽

Northwestern Ontario ◽

Glacial Lake Agassiz ◽

Transient Instability ◽

Subglacial Meltwater

Long, arcuate, stratified end moraines in northwestern Ontario may represent major and rapid sedimentation events in glacial Lake Agassiz. Rapid lowering of the lake or lift of a marginal ice dam may have triggered widespread outbursts of subglacial meltwater which deposited these end moraines as coalesced or broad subaqueous lacustrine fans. Moraine cores are of undeformed gravel, sand, and silty sand that fine upward. Coarse beds are massive to weakly stratified. Large-scale cross-stratification may be present. Sandy rhythmic beds are laterally transitional to silt–clay rhythmites (varves). Similar facies occur in adjoining eskers.Moraine sediments have the expected characteristics of rapid deposition on subaqueous fans and, therefore, may not represent either prolonged sedimentation or stable ice margins. Rather, they may reflect rapid sedimentation associated with large discharges that induced transient instability in the drainage network and (or) surging prior to marginal sedimentation. This explanation for moraine formation questions the traditional view that large end moraines represent climatically controlled stillstands.

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A reconstruction of Moorhead and Emerson Phase environments along the eastern margin of glacial Lake Agassiz, Rainy River basin, northwestern Ontario

Canadian Journal of Earth Sciences ◽

10.1139/e00-051 ◽

2000 ◽

Vol 37 (10) ◽

pp. 1335-1353 ◽

Cited By ~ 29

Author(s):

A F Bajc ◽

D P Schwert ◽

B G Warner ◽

N E Williams

Keyword(s):

Wide Spectrum ◽

Open Water ◽

Glacial Lake ◽

Lake Agassiz ◽

Long Distance ◽

Distinct Component ◽

Study Region ◽

Nearshore Processes ◽

Northwestern Ontario ◽

Glacial Lake Agassiz

Mapping of Quaternary geology in the Rainy River lowland, northwestern Ontario resulted in discovery of several fossil-bearing localities. Organic remains are associated with both the Moorhead and Emerson phases of glacial Lake Agassiz. Wood samples recovered from Moorhead Phase deposits have radiocarbon ages ranging between 10.8 and 9.9 ka BP. The wood is detrital and cannot be used to date the beginning of the low-water phase. Nearshore, deltaic, alluvial, peatland, open-water wetland, and upland soil environments are represented in the Moorhead Phase sediment records. Emerson Phase transgressive deposits overlie Moorhead Phase sediments and erosional surfaces. Wood samples recovered from flotsam layers in Emerson Phase nearshore deposits have yielded radiocarbon ages ranging between 10.5 and 9.5 ka BP. Stratigraphic and sedimentologic evidence suggests that the transgression began approximately 9.9 ka BP. Pollen, plant macrofossil, insect, and mollusc assemblages have been affected by long-distance transport, sorting, and reworking by fluvial and nearshore processes. They represent a wide spectrum of terrestrial and aquatic habitats indiscriminantly brought together during high-water periods. The Moorhead and Emerson phase assemblages indicate conditions similar to those in the region today, but there is a distinct component whose modern range is much farther north and west of the study region. In this respect, the assemblages are similar to the mixed communities described from other late-glacial sites of the mid-continent.

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THE AGE AND SIGNIFICANCE OF THE RED CLAY BAND WITHIN THE GLACIAL LAKE AGASSIZ VARVES OF NORTHWESTERN ONTARIO AND NORTHERN MINNESOTA

10.1130/abs/2018nc-311816 ◽

2018 ◽

Author(s):

Andy J. Breckenridge ◽

◽

Thomas V. Lowell ◽

Dorothy M. Peteet

Keyword(s):

Glacial Lake ◽

Lake Agassiz ◽

Red Clay ◽

Northwestern Ontario ◽

Glacial Lake Agassiz

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Postglacial Diatom Stratigraphy in Relation to the Recession of Glacial Lake Agassiz

Quaternary Research ◽

10.1016/0033-5894(75)90014-9 ◽

1975 ◽

Vol 5 (4) ◽

pp. 529-540 ◽

Cited By ~ 10

Author(s):

J.C. Ritchie ◽

L.K. Koivo

Keyword(s):

Sandy Beach ◽

Sedimentary Environment ◽

Glacial Lake ◽

Lake Agassiz ◽

Organic Detritus ◽

Sedimentary Environments ◽

Grand Rapids ◽

Glacial Lake Agassiz ◽

Diatom Stratigraphy ◽

Beach Sands

The sediment and diatom stratigraphy of a small pond on The Pas moraine, near Grand Rapids, Manitoba, reveals a change in sedimentary environment related directly to the last stages of Glacial Lake Agassiz. Beach sands were replaced by clay 7300 14C y. a., then by organic silt and, at 4000 14C y. a. by coarse organic detritus; the corresponding diatom assemblages were (I) a predominantly planktonic spectrum in beach sands, (II) a rich assemblage of nonplanktonic forms, and (III) a distinctly nonplanktonic acidophilous spectrum. These results confirm Elson's (1967) reconstruction of the extent and chronology of the final (Pipun) stage of Glacial Lake Agassiz. The sedimentary environments change from a sandy beach of a large lake at 7300 BP to a small, shallow eutrophic pond with clay and silt deposition from 7000 to 4000 BP. From 4000 BP to the present, organic detritus was deposited in a shallow pond that tended toward dystrophy.

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