Your search keyword '"Clague, John"' showing total 20 results

1. A multi-century estimate of suspended sediment yield from Lillooet Lake, southern Coast Mountains, Canada.

Author

Heideman, Marit, Menounos, Brian, and Clague, John J.

Subjects

SEDIMENTATION & deposition, SEDIMENT transport, EROSION, GEOMORPHOLOGY, GLACIERS

Abstract

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Published

2018

2. Stability analysis of the 2007 Chehalis lake landslide based on long-range terrestrial photogrammetry and airborne LiDAR data.

Author

Brideau, Marc-André, Sturzenegger, Matthieu, Stead, Doug, Jaboyedoff, Michel, Lawrence, Martin, Roberts, Nicholas, Ward, Brent, Millard, Thomas, and Clague, John

Subjects

LANDSLIDES, LAKES, MASS-wasting (Geology), EARTH movements

Abstract

On December 4th 2007, a 3-Mm landslide occurred along the northwestern shore of Chehalis Lake. The initiation zone is located at the intersection of the main valley slope and the northern sidewall of a prominent gully. The slope failure caused a displacement wave that ran up to 38 m on the opposite shore of the lake. The landslide is temporally associated with a rain-on-snow meteorological event which is thought to have triggered it. This paper describes the Chehalis Lake landslide and presents a comparison of discontinuity orientation datasets obtained using three techniques: field measurements, terrestrial photogrammetric 3D models and an airborne LiDAR digital elevation model to describe the orientation and characteristics of the five discontinuity sets present. The discontinuity orientation data are used to perform kinematic, surface wedge limit equilibrium and three-dimensional distinct element analyses. The kinematic and surface wedge analyses suggest that the location of the slope failure (intersection of the valley slope and a gully wall) has facilitated the development of the unstable rock mass which initiated as a planar sliding failure. Results from the three-dimensional distinct element analyses suggest that the presence, orientation and high persistence of a discontinuity set dipping obliquely to the slope were critical to the development of the landslide and led to a failure mechanism dominated by planar sliding. The three-dimensional distinct element modelling also suggests that the presence of a steeply dipping discontinuity set striking perpendicular to the slope and associated with a fault exerted a significant control on the volume and extent of the failed rock mass but not on the overall stability of the slope. [ABSTRACT FROM AUTHOR]

Published

2012

3. Dendrogeomorphic reconstruction of Little Ice Age paraglacial activity in the vicinity of the Homathko Icefield, British Columbia Coast Mountains, Canada

Author

Hart, Sarah J., Clague, John J., and Smith, Dan J.

Subjects

*PERIGLACIAL processes, *ICE fields, *TREE-rings, *FLOODS, *MORAINES, *SEDIMENTS

Abstract

Abstract: Moraine and glacier dams bordering the Homathko Icefield in the southern British Columbia Coast Mountains failed in the 1980s and 1990s, causing catastrophic downstream floods. The largest of the floods occurred in August 1997 and was caused by overtopping and rapid breaching of the moraine dam that impounds Queen Bess Lake. The floodwaters from Queen Bess Lake eroded Holocene-age sedimentary deposits along the west fork of Nostetuko River and caused a steep rise in the hydrograph of Homathko River at the head of Bute Inlet, ∼115km downstream. A field investigation of the eroded valley fill in 2008, revealed multiple paraglacial valley-fill units, many of which are capped by in situ stumps and woody detritus. Dendrogeomorphological field techniques were employed to develop a chronology for the buried forests. A regional tree-ring chronology spanning the interval CE 1572–2007 was constructed from living subalpine fir (Abies lasiocarpa) trees at seven sites in the southern Coast Mountains. In cases where subfossil stumps and boles predated the regional chronology, relative death dates constrained by radiocarbon ages were assigned to floating chronologies. By combining these dendrogeomorphological dating methods, we identified six floodplain aggradation episodes within the past 1200years. Comparison to local and regional glacial histories suggests that these events reflect climate-induced Little Ice Age changes in local glacier cover. [Copyright &y& Elsevier]

Published

2010

4. Nomenclature and resolution in Holocene glacial chronologies

Author

Clague, John J., Menounos, Brian, Osborn, Gerald, Luckman, Brian H., and Koch, Johannes

Subjects

*CLIMATE change, *DENDROCHRONOLOGY, *NAMES, *ICE sheets, *QUATERNARY paleoecology, *HOLOCENE paleoecology, *PLEISTOCENE paleoecology, GLACIERS & climate

Abstract

Abstract: Most Quaternary research in Canada during the first half of the twentieth century focused on Pleistocene glaciation. Given the dramatic shifts in climate during the Pleistocene, it is not surprising that the Holocene was viewed as a time of benign climate. Holocene climate variability was first recognized around the middle of the century when paleoecologists found evidence that the early part of the epoch was warmer and drier than the later part. In 1970s and 1980s, another generation of geologists, geographers, and botanists began to recognize more complexity in Holocene climate and vegetation in western Canada. Several millennial-scale glacier “advances” postdating the early Holocene warm interval were defined, including the Garibaldi Phase (6.9–5.6 ka), the Tiedemann–Peyto Advance (3.5–1.9 ka), and the Little Ice Age (AD 1200–1900). Subsequently, application of dendrochronological techniques and stratigraphic studies in glacier forefields showed that the Little Ice Age was itself more complex than previously thought. During that 700-year period, glaciers repeatedly advanced and retreated in response to climatic variability on time scales ranging from centuries to decades. Recent work shows that the glacier record of the Garibaldi Phase and the Tiedemann and Peyto advances are similar in complexity to the Little Ice Age, with multiple advances of glaciers separated by intervals of more restricted ice cover. Researchers have also identified other times in the Holocene when glaciers expanded from restricted positions – 8.20, 4.90–3.80, and 1.70–1.40 ka. Continued research undoubtedly will reveal additional complexities, but with what is currently known the appropriateness of terms such as “Tiedemann Advance,” “Peyto Advance,” and “Little Ice Age” can be questioned. Only short periods of time separate these episodes as currently defined, and it seems likely that intervals of restricted glacier cover within each of these millennial-length intervals are just as long as the intervals separating them. [Copyright &y& Elsevier]

Published

2009

5. Advance of alpine glaciers during final retreat of the Cordilleran ice sheet in the Finlay River area, northern British Columbia, Canada

Author

Lakeman, Thomas R., Clague, John J., and Menounos, Brian

Subjects

*MORAINES, *GLACIERS, *ICE sheets

Abstract

Abstract: Sharp-crested moraines, up to 120 m high and 9 km beyond Little Ice Age glacier limits, record a late Pleistocene advance of alpine glaciers in the Finlay River area in northern British Columbia. The moraines are regional in extent and record climatic deterioration near the end of the last glaciation. Several lateral moraines are crosscut by meltwater channels that record downwasting of trunk valley ice of the northern Cordilleran ice sheet. Other lateral moraines merge with ice-stagnation deposits in trunk valleys. These relationships confirm the interaction of advancing alpine glaciers with the regionally decaying Cordilleran ice sheet and verify a late-glacial age for the moraines. Sediment cores were collected from eight lakes dammed by the moraines. Two tephras occur in basal sediments of five lakes, demonstrating that the moraines are the same age. Plant macrofossils from sediment cores provide a minimum limiting age of 10,550–10,250 cal yr BP (9230±50 14C yr BP) for abandonment of the moraines. The advance that left the moraines may date to the Younger Dryas period. The Finlay moraines demonstrate that the timing and style of regional deglaciation was important in determining the magnitude of late-glacial glacier advances. [Copyright &y& Elsevier]

Published

2008

6. An overview of recent large catastrophic landslides in northern British Columbia, Canada

Author

Geertsema, Marten, Clague, John J., Schwab, James W., and Evans, Stephen G.

Subjects

*CLIMATE change, *LANDSLIDES, *ROCKSLIDES

Abstract

Abstract: At least thirty-eight, large, catastrophic landslides, each either larger than 0.5 M m3 or longer than 1 km, have occurred in northern British Columbia in the last three decades. The landslides include low-gradient flowslides in cohesive sediments, long-runout rock slides (rock avalanches), and complex rock slide-flows. The flowslides have occurred in a variety of sediments, including glaciolacustrine silt, clay-rich till, and clay-rich colluvium. The rock failures have happened in weak shale overlain by sandstone and volcanic rocks. The frequency of large landslides in northern British Columbia appears to be increasing, suggesting a link to climate change. [Copyright &y& Elsevier]

Published

2006

7. Stratigraphic evidence for multiple Holocene advances of Lillooet Glacier, southern Coast Mountains, British Columbia.

Author

Reyes, Alberto V. and Clague, John J.

Subjects

*GLACIERS, *MOUNTAINS, *MORAINES, *HOLOCENE stratigraphic geology, *ICE

Abstract

Holocene lateral moraines in the Coast Mountains of British Columbia are commonly composed of multiple drift units related to several glacier advances. In this paper, we document lateral moraine stratigraphy at Lillooet Glacier in the southern Coast Mountains. Five tills, separated by laterally extensive paleosols and layers of large woody debris, were found in three cross-sectional exposures through the northeast lateral moraine and two shallow gullies incised into its steep proximal face. Eighteen new radiocarbon ages constrain the timing of five separate advances of Lillooet Glacier: (1) prior to 3000 14C years BP; (2) ~3000 14C years BP; (3) ~2500 14C years BP; (4) ~1700 to 1400 14C years BP; and (5) during the Little Ice Age (LIA), after 470 14C years BP. The Lillooet Glacier chronology is broadly synchronous with other glacier records from the Coast Mountains. These records collectively demonstrate climate variability at higher frequencies during the late Holocene than is apparent from many paleoecological reconstructions. Reconstructions of glacier fluctuations are often hampered by poor preservation of landforms that predate the extensive LIA advances of the latest Holocene. Our results highlight the potential of lateral moraine stratigraphy for reconstructing these earlier events. [ABSTRACT FROM AUTHOR]

Published

2004

8. Reconstruction of late Quaternary sea-level change in southwestern British Columbia from sediments in isolation basins.

Author

Hutchinson, Ian, James, Thomas S., Clague, John J., Barrie, J. Vaughn, and Conway, Kim W.

Subjects

ABSOLUTE sea level change, MARINE sediments, SEDIMENTATION & deposition, PLEISTOCENE-Holocene boundary, GLACIAL Epoch, GEOLOGICAL basins, GEOLOGY

Abstract

Bracketing ages on marine-freshwater transitions in isolation basins extending from sea level to 100 m elevation on Lasqueti Island, and data from shallow marine cores and outcrops on eastern Vancouver Island, constrain late Pleistocene and Holocene sea-level change in the central Strait of Georgia. Relative sea level fell from 150 m elevation to about -15 m from 14 000 cal. yr BP to 11 500 cal. yr BP. Basins at higher elevations exhibit abrupt changes in diatom assemblages at the marine-freshwater transition. At lower elevations an intervening brackish phase suggests slower rates of uplift. Relative sea level rose to about +1 m about 9000 cal. yr BP to 8500 cal. yr BP, and then slowly fell to the modern datum. The mean rate of glacio-isostatic rebound in the first millennium after deglaciation was about 0.11 m a -1 , similar to the peak rate at the centres of the former Laurentide and Fennoscandian ice complexes. The latter feature smooth, exponential-style declines in sea level up to the present day, whereas in the study area the uplift rate dropped to less than one-tenth of its initial value in only about 2500 years. Slower, more deeply seated isostatic recovery generated residual uplift rates of <0.01 m a -1 in the early Holocene after the late-Pleistocene wasting of the Cordilleran ice sheet. [ABSTRACT FROM AUTHOR]

Published

2004

9. Large Holocene landslides from Pylon Peak, southwestern British Columbia.

Author

Friele, Pierre A. and Clague, John J.

Subjects

*HOLOCENE stratigraphic geology, *LANDSLIDES, *ROCKSLIDES, *DEBRIS avalanches, *VOLCANIC ash, tuff, etc.

Abstract

Mount Meager massif, the northernmost volcano of the Cascade volcanic belt, has been the site of very large (>107 m3) landslides in the Holocene Epoch. We document two complex landslides at Pylon Peak, one of the peaks of the Mount Meager massif, about 7900 14C and 3900 14C years ago (about 8700 and 4400 calendar years ago). Together, the two landslides displaced ~ 6 × 108 m3 of volcanic rock from the south flank of Pylon Peak into nearby Meager Creek valley. Each landslide consisted of at least two phases, an early debris flow resulting from failure of hydrothermally altered pyroclastic rock at mid levels on the mountain and a later rock avalanche from a higher source. Both debris flows likely traveled down Meager Creek, and preliminary evidence from drilling indicates the 4400-year-old event traveled down Lillooet River into areas that are now settled and where population density is increasing rapidly. The mobility of the debris flows was due to the high content of fine, weathered volcanic sediment and the availability of sufficient water. The causes of the landslides are a wet climate and the presence of weak, hydrothermally altered volcanic rock containing abundant phreatic water on glacially oversteepened slopes. The landslides may have been triggered by earthquakes or by upwelling of magma to shallow depths within the volcano. However, they may also have occurred without specific triggers following extended periods of progressive weakening of the volcanic rocks. [ABSTRACT FROM AUTHOR]

Published

2004

10. Record of recent river channel instability, Cheakamus Valley, British Columbia

Author

Clague, John J., Turner, Robert J.W., and Reyes, Alberto V.

Subjects

*LANDSLIDES, *GLACIERS

Abstract

Rivers flowing from glacier-clad Quaternary volcanoes in southwestern British Columbia have high sediment loads and anabranching and braided planforms. Their floodplains aggrade in response to recurrent large landslides on the volcanoes and to advance of glaciers during periods of climate cooling. In this paper, we document channel instability and aggradation during the last 200 years in lower Cheakamus River valley. Cheakamus River derives much of its flow and nearly all of its sediment from the Mount Garibaldi massif, which includes a number of volcanic centres dominated by Mount Garibaldi volcano. Stratigraphic analysis and radiocarbon and dendrochronological dating of recent floodplain sediments at North Vancouver Outdoor School in Cheakamus Valley show that Cheakamus River aggraded its floodplain about 1–2 m and buried a valley-floor forest in the early or mid 1800s. The aggradation was probably caused by a large (ca. 15–25×106 m3) landslide from the flank of Mount Garibaldi, 15 km north of our study site, in 1855 or 1856. Examination of historical aerial photographs dating back to 1947 indicates that channel instability triggered by this event persisted until the river was dyked in the late 1950s. Our observations are consistent with data from many other mountain areas that suggest rivers with large, but highly variable sediment loads may rapidly aggrade their floodplains following a large spike in sediment supply. Channel instability may persist for decades to centuries after the triggering event. [Copyright &y& Elsevier]

Published

2003

11. History and isostatic effects of the last ice sheet in southern British Columbia

Author

Clague, John J. and James, Thomas S.

Subjects

*ICE sheets, *MOUNTAINS, *TOPOGRAPHICAL surveying

Abstract

The Late Wisconsinan Cordilleran ice sheet covered British Columbia, southern Yukon Territory, and parts of Alaska, Washington, Idaho, and Montana. Its major source areas were the high mountain ranges of the Canadian Cordillera, and flow was strongly controlled by topography. The last ice sheet began to develop about 30,000–25,000 14C yr ago, but it did not achieve its maximum extent until 15,000–14,000 14C yr BP. Ice sheet growth was interrupted locally by stillstands and retreat. Ice sheet decay was rapid and was characterized by complex frontal retreat at the periphery, accompanied locally by brief readvances, and by downwasting and stagnation. By 10,000 14C yr BP, <5000 yr after the Last Glacial Maximum, ice cover in British Columbia was similar to that of today. The Cordilleran ice sheet depressed the crust over which it formed. Rapid isostatic rebound during deglaciation caused the sea to fall relative to the land along the southern British Columbia coast. A postglacial rebound model explains crustal tilting and rapid uplift in this region during retreat of the ice sheet in the late Pleistocene. Small values of modelled viscosity for the upper few hundred kilometers of the mantle deliver small present-day crustal tilt rates, consistent with mid- and late-Holocene sea-level observations. Rapid sea-level fall (land uplift) on eastern Vancouver Island during deglaciation requires, in addition to a low mantle viscosity, rapid unloading of the crust due to accelerated wastage of coastal portions of the southern Cordilleran ice sheet about 12,000 14C yr ago. [Copyright &y& Elsevier]

Published

2002

12. Tsunami deposits beneath tidal marshes on Vancouver Island, British Columbia.

Author

Clague, John J. and Bobrowsky, Peter T.

Subjects

*MARINE sediments, *SALT marshes, *STRATIGRAPHIC geology

Abstract

Documents the stratigraphic setting, physical characteristics and age of anomalous sheets of course sediment in intertidal sequences near Tofini, Ucluelet and Port Alberni on Vancouver Island, British Columbia. Setting; Effects of the 1964 tsunami; Stratigraphy and sedimentology; Chronology; Correlations; Origin of sand sheets; Hazard implications.

Published

1994

13. Detection of large prehistoric earthquakes in the Pacific Northwest by microfossil analysis.

Author

Mathewes, Rolf W. and Clague, John J.

Subjects

*EARTHQUAKES

Abstract

Presents evidence for two large earthquakes that affected sites in south-coastal British Columbia up to 110 kilometers apart. Study area; Holocene vegetation changes in Fraser delta wetlands; Transgressions at Muir Creek, Island View Beach and Serpentine River; Site stratigraphy; Disappearance of foraminifera after event 1; Submergence at Serpentine River site SR3.

Published

1994

14. Coarse-grained sediment gravity flow facies in a large supraglacial lake.

Author

Eyles, Nicholas, Clark, Bryan M., and Clague, John J.

Subjects

LAKE sediments, GLACIAL lakes, SEDIMENTATION & deposition

Abstract

Near William Lake, in the central interior of British Columbia, the Fraser River exposes long section of late Pleistocene Glaciolacustrine sediments selectively preserved within a bedrock trough. The dominant facies types are thick, normally graded gravels and sands that occupy steeply dipping multistory channels up to 300 m wide and several tens of metres deep. Channels appear to have been simultaneously cut and filled by high density turbidity currents in a glacial lake floored by stagnant ice. Fining upward sediment gravity flow sequences up to 50 m thick may be the product of quasi-continuous 'surging' turbidity flows triggered by catastrophic meltwater4 discharges into the trough or retrogressive failure of ice-cored sediments. Large-scale post-depositional deformation structures, such as synclinal folds, normal faults, sedimentary dyke swarms and dewatering structures, record gravitational foundering of sediment and pore-water expulsion caused by the melt of underlying glacier ice. Melting of buried ice masses along the floor of the trough appears to have controlled the flow paths of turbidity currents by producing sub-basins within the overlying sediment pile. An idealized model of 'supraglacial' lacustrine sedimentation is developed that may be applicable to other glaciated areas with similar bedrock topography. [ABSTRACT FROM AUTHOR]

Published

1987

15. Neotectonics and large-scale geomorphology of Canada

Author

Adams, John and Clague, John F.

Subjects

NEOTECTONICS

Published

1993

16. Glacier change in Garibaldi Provincial Park, southern Coast Mountains, British Columbia, since the Little Ice Age

Author

Koch, Johannes, Menounos, Brian, and Clague, John J.

Subjects

*PLEISTOCENE paleogeography, *GLOBAL temperature changes, *GLACIERS, *MOUNTAINS

Abstract

Abstract: Fluctuations of glaciers during the 20th century in Garibaldi Provincial Park, in the southern Coast Mountains of British Columbia, were reconstructed from historical documents, aerial photographs, and fieldwork. Over 505 km2, or 26%, of the park, was covered by glacier ice at the beginning of the 18th century. Ice cover decreased to 297 km2 by 1987–1988 and to 245 km2 (49% of the early 18th century value) by 2005. Glacier recession was greatest between the 1920s and 1950s, with typical frontal retreat rates of 30 m/a. Many glaciers advanced between the 1960s and 1970s, but all glaciers retreated over the last 20 years. Times of glacier recession coincide with warm and relatively dry periods, whereas advances occurred during relatively cold periods. Rapid recession between 1925 and 1946, and since 1977, coincided with the positive phase of the Pacific Decadal Oscillation (PDO), whereas glaciers advanced during its negative phase (1890–1924 and 1947–1976). The record of 20th century glacier fluctuations in Garibaldi Park is similar to that in southern Europe, South America, and New Zealand, suggesting a common, global climatic cause. We conclude that global temperature change in the 20th century explains much of the behaviour of glaciers in Garibaldi Park and elsewhere. [Copyright &y& Elsevier]

Published

2009

17. Four Billion Years and Counting: a book to celebrate Canada's geological heritage and International Year of Planet Earth.

Author

FENSOME, ROBERT A., ACHAB, A., CLAGUE, JOHN, CORRIGAN, DAVID, MONGER, JIM, NOWLAN, GODFRY S., and WILLIAMS, GRAHAM

Subjects

*GEOLOGY, *ROCKS, *LANDFORMS, *PLATE tectonics, *FOSSILS, *SPECIAL years

Abstract

In 2006, the proposed multi-authored, popular book, "Four Billion Years and Counting: Canada's Geological Heritage" was identified as one of Canada's primary contributions to International Year of Planet Earth (IYPE, 2007-2009). To achieve this goal, a seven-person editorial board is marshalling the work of more than fifty expert contributors in order to publish both English and French editions in late 2008. Initial chapter drafts are now being woven into a narrative that will make sense to the reader and be coupled with new graphics and hundreds of contributed photographs. The book will highlight Canada's fascinating geological record, spanning the last four billion years. Canada has some of the oldest rocks on Earth, a record of the break-up and reassembling of land masses, and spectacular modern geological features such as mountains, canyons, waterfalls even volcanoes. Equally vital is Canada's wealth of minerals and energy resources, and its changing climate over the eons. The book's first few chapters will explain such basics of geology as plate tectonics, geological time and the fossil record. This section will be followed by eleven chapters outlining Canada's geological evolution in a series of time slices. Novel paleogeographic maps are being developed to illustrate how the geography of Canada has changed over four billion years. The final section of the book, Health and Wealth, looks at ways in which geology directly affects Canadians and covers mining and energy, health, and the future. "Four Billion Years and Counting" should appeal to the non-geologist, and also attract the attention of geologists interested in regions or topics outside their specialty. The book will include a number of "hooks" to capture readers' attention, such as attractive photographs, paintings and schematics, and an easy-to-read text that will have been reviewed by specialists (for accuracy) and non-specialists (for readability). It is an ambitious project but one that will be a worthy legacy of International Year of Planet Earth. [ABSTRACT FROM AUTHOR]

Published

2008

18. Late Holocene glacier expansion in the Cariboo and northern Rocky Mountains, British Columbia, Canada

Author

Maurer, Malyssa K., Menounos, Brian, Luckman, Brian H., Osborn, Gerald, Clague, John J., Beedle, Matthew J., Smith, Rod, and Atkinson, Nigel

Subjects

*HOLOCENE Epoch, *GLACIERS, *CARBON isotopes, *LITTLE Ice Age

Abstract

Abstract: Castle Creek Glacier in the Cariboo Mountains of British Columbia remained close to its Little Ice Age limit for most of the past 1500 years, without significant recession until the 20th century. This conclusion is based on radiocarbon-dated detrital and in-situ plant material overrun by the glacier, and the sedimentary record from informally named On–off Lake, which received clastic sediments only when Castle Creek Glacier crossed a hydrologic divide 330 m upvalley of the Little Ice Age limit. Plant macrofossils recovered from the transition between basal inorganic silt and overlying organic silty clay in a sediment core from the lake indicate that the glacier first retreated behind the divide ca. 10.92–9.70 ka. Ages of 8.97–8.61 and 5.58–5.53 ka on detrital wood from the glacier''s forefield may record earlier advances, but the first unequivocal evidence of glacier expansion is from an overridden stump with an age of 4.96–4.45 ka. Continuous accumulation of gyttja within On–off Lake, however, indicates that Castle Creek Glacier did not cross the hydrologic divide at any time during the first half of the Holocene. Glacigenic sediments began to accumulate in the lake between 2.73 and 2.49 ka, indicating that Castle Creek Glacier expanded beyond the hydrologic divide at that time. A coincident advance is also recorded in the northern Rocky Mountains of British Columbia at Kwadacha Glacier, which overran a vegetated surface at 2.69–2.36 ka. Clastic sedimentation in On–off Lake ceased soon after the Bridge River volcanic eruption (2.70–2.35 ka), indicating that Castle Creek glacier retreat to a position upvalley of the divide at that time. Sedimentation resumed before 1.87–1.72 ka when the glacier advanced again past the hydrologic divide. Following a second retreat, Castle Creek Glacier advanced across the divide a final time at ca. 1.54–1.42 ka. The snout of the glacier remained less than 330 m upvalley of the Little Ice Age moraine until the early twentieth century when annual moraines indicate rapid frontal recession to a position upvalley of the hydrologic divide. These data collectively indicate that glaciers in the Cariboo Mountains of British Columbia nearly achieved their all-time Holocene limits as early as 2.73–2.49 ka and climatic conditions in the early 20th century abruptly ended a 1500-year period favoring glacier expansion. [Copyright &y& Elsevier]

Published

2012

19. Sea-level change and paleogeographic reconstructions, southern Vancouver Island, British Columbia, Canada

Author

James, Thomas, Gowan, Evan J., Hutchinson, Ian, Clague, John J., Barrie, J. Vaughn, and Conway, Kim W.

Subjects

*GLACIERS, *ABSOLUTE sea level change, *PALEOGEOGRAPHY, *RADIOCARBON dating, *ICE sheets

Abstract

Abstract: Forty-eight new and previously published radiocarbon ages constrain deglacial and postglacial sea levels on southern Vancouver Island, British Columbia. Sea level fell rapidly from its high stand of about +75m elevation just before 14 000cal BP (12 000 radiocarbon yrs BP) to below the present shoreline by 13 200cal BP (11 400 radiocarbon years BP). The sea fell below its present level 1000 years later in the central Strait of Georgia and 2000 years later in the northern Strait of Georgia, reflecting regional differences in ice sheet retreat and downwasting. Direct observations only constrain the low stand to be below −11m and above −40m. Analysis of the crustal isostatic depression with equations utilizing exponential decay functions appropriate to the Cascadia subduction zone, however, places the low stand at −30±5m at about 11 200cal BP (9800 BP). The inferred low stand for southern Vancouver Island, when compared to the sea-level curve previously derived for the central Strait of Georgia to the northwest, generates differential isostatic depression that is consistent with the expected crustal response between the two regions. Morphologic and sub-bottom features previously interpreted to indicate a low stand of −50 to −65m are re-evaluated and found to be consistent with a low stand of −30±5m. Submarine banks in eastern Juan de Fuca Strait were emergent at the time of the low stand, but marine passages persisted between southern Vancouver Island and the mainland. The crustal uplift presently occurring in response to the Late Pleistocene collapse of the southwestern sector of the Cordilleran Ice Sheet amounts to about 0.1mm/yr. The small glacial isostatic adjustment rate is a consequence of low-viscosity mantle in this tectonically active region. [Copyright &y& Elsevier]

Published

2009

20. Early Holocene glacier advance, southern Coast Mountains, British Columbia, Canada

Author

Menounos, Brian, Koch, Johannes, Osborn, Gerald, Clague, John J., and Mazzucchi, David

Subjects

*GLACIERS, *HOLOCENE paleoceanography

Abstract

Terrestrial and lake sediment records from several sites in the southern Coast Mountains, British Columbia, provide evidence for an advance of alpine glaciers during the early Holocene. Silty intervals within organic sediments recovered from two proglacial lakes are bracketed by AMS 14C-dated terrestrial macrofossils and Mazama tephra to 8780–6730 and 7940–6730 14C yr BP [10,150–7510 and 8990–7510 cal yr BP]. Radiocarbon ages ranging from 7720 to 7380 14C yr BP [8630–8020 cal yr BP] were obtained from detrital wood in recently deglaciated forefields of Sphinx and Sentinel glaciers. These data, together with previously published data from proglacial lakes in the Canadian Rockies, imply that glaciers in western Canada advanced during the early Holocene. The advance coincides with the well-documented 8200-yr cold event identified in climate proxy data sets in the North Atlantic region and elsewhere. [Copyright &y& Elsevier]

Published

2004