Your search keyword '"Olav B. Lian"' showing total 21 results

1. Contemporary sand wedge development in seasonally frozen ground and paleoenvironmental implications

Author

Christina M. Neudorf, Steven V. Kokelj, H. Brendan O’Neill, Stephen A. Wolfe, Peter D. Morse, and Olav B. Lian

Subjects

High rate, 010506 paleontology, 010504 meteorology & atmospheric sciences, Continental climate, Atmospheric sciences, 01 natural sciences, Subarctic climate, Wedge (geometry), Air temperature, Soil water, Aeolian processes, Snow cover, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Contemporary sand wedges and sand veins are active in seasonally frozen ground within the extensive discontinuous permafrost zone in Northwest Territories, Canada. The region has a subarctic continental climate with 291 mm a−1 precipitation, −4.1 °C mean annual air temperature, warm summers (July mean 17.0 °C), and cold winters (January mean −26.6 °C). Five years of continuous observations indicate that interannual variation of the ground thermal regime is dominantly controlled by winter air temperature and snow cover conditions. At sandy sites, thin snow cover and high thermal conductivity promote rapid freezing, high rates of ground cooling, and low near-surface ground temperatures (−15 to −25 °C), resulting in thermal contraction cracking to depths of 1.2 m. Cracking potentials are high in sandy soils when air temperatures are

Published

2018

2. Geomorphic and ecological age constraints for paraglacial to non-glacial transition in northeastern British Columbia, Canada

Author

Marten Geertsema, Victor M. Levson, Alice M. Telka, Olav B. Lian, and A S Hickin

Subjects

Archeology, Global and Planetary Change, Macrofossil, Geology, Tundra, Sand dune stabilization, Boreal, Paraglacial, Deglaciation, Aeolian landform, Physical geography, Glacial period, Ecology, Evolution, Behavior and Systematics

Abstract

The Late Wisconsinan deglaciation period was a time of rapid climate adjustment that resulted in the widespread transition from proglacial/paraglacial conditions to non-glacial settings favourable for plant and animal colonization. Establishing the timing of this transitional period in northeastern British Columbia provides constraints on the rate in which the biomes adapted during this interval of rapid climate change. Preserved aeolian landforms (geomorphic) and macrofossil assemblages (biological) are complementary proxies for interpreting climate amelioration. Paraglacial aeolian dunes in the Kiskatinaw dune field developed following the retreat of glacial Lake Peace which formed after the separation of the Cordilleran and Laurentide ice sheets. These parabolic sand dunes are vegetation-anchored landforms that indicate plant colonization bio-morphologically influenced aeolian activity during stabilization. Optical dating established that stabilization occurred about 10.8 ± 0.3 ka ago (weighted mean of six ages), around the same time interval in which vegetation transitioned from herb and shrub tundra to forest tundra, then to a boreal parkland. Radiocarbon ages from macrofossil assemblages at the Flatbed River section infer paraglacial conditions likely persisted to around 12 000 cal yrs BP and the site had characteristics of a forest tundra. At that time, the Flatbed River was a dry floodplain that transitioned to a pond setting in a boreal parkland after 12 447–11 941 cal yrs BP and before 11 690–11 279 cal yrs BP. The site transitioned from pond to bog after 10 149–9771 cal yrs BP, coincident with the onset of boreal forest conditions that were established by 9901–9607 cal yrs BP. Biome succession recorded at the Flatbed River section and the stabilization of sand dunes indicates that the site transitioned from a paraglacial setting associated with tundra to a non-glacial setting characterized by a boreal forest environment over approximately 2 ka (ca. 12.0–9.7 ka ago). However, the change from tundra to parkland forest conditions took

Published

2021

3. Timing, rates and geomorphic controls on holocene loess and aeolian sand deposition using multiple chronometric methods, southeastern Cordillera, Alberta, Canada

Author

Olav B. Lian and Stephen A. Wolfe

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Alluvial fan, Fluvial, Sediment, Geology, 15. Life on land, Silt, 010502 geochemistry & geophysics, 01 natural sciences, 13. Climate action, Loess, Deglaciation, Aeolian processes, Physical geography, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Glacier-fed river systems represent potentially significant sediment sources for aeolian processes owing to sediment production, flow seasonality, and winds within mountain settings. We investigate the timing and rates of Holocene loess and aeolian sand deposition in three major river valleys (Bow, North Saskatchewan and Athabasca) of the southeastern Canadian Cordillera through aeolian stratigraphy and dating of sedimentary materials. Source sediments are glacially-derived, seasonally-exposed alluvial deposits. Variation in river morphology promotes source-sediment deposition influenced by bedrock configuration, tributary stream deposition and alluvial fans. Two main settings for aeolian deposition are source-proximal valley-bottom sites and more distal lower-valley sites in sub-alpine and montane forest ecozones. Dating is well-constrained by radiocarbon ages and tephrochronology. Quartz optical dating is complicated, likely owing to minimal recycling of grains and quartz provenance. Mass accumulation rates (MARs) indicate that aeolian deposition was initiated soon after deglaciation and has occurred nearly continuously for at least 10000 years. Loess MARs ranged between 100 and 2500 g·m−2·a−1 during the Holocene. Rates in the last 3000 years are generally two to three times higher than those observed for earlier periods, and are highest in most recent times. We attribute Holocene accumulation at these sites in general to fluvial source sediment availability and the efficacy of forested valleys as sediment traps. The late Holocene increase in MARs is primarily attributed to increased glacial silt and alluvial sediment supply during neoglacial fluctuations including the Little Ice Age.

Published

2021

4. Toward a luminescence chronology for coastal dune and beach deposits on Calvert Island, British Columbia central coast, Canada

Author

Libby C.M. Griffin, Dan H. Shugar, Ian J. Walker, Olav B. Lian, Jordan B.R. Eamer, and Christina M. Neudorf

Subjects

geography, Series (stratigraphy), Plateau, geography.geographical_feature_category, Stratigraphy, Geology, Coastal geography, Archaeology, law.invention, Paleontology, law, Earth and Planetary Sciences (miscellaneous), Glacial period, Radiocarbon dating, Quaternary, Sea level, Chronology

Abstract

The Quaternary geology of the central coast of British Columbia contains a rich and complex record of glacial activity, post-glacial sea level and landscape change, and early human occupation spanning the last ∼10,000 years. At present, however, this region remains a largely understudied portion of coastal North America. This study describes the luminescence characteristics of quartz and K-feldspar from coastal dune and beach sands on Calvert Island and develops a suitable optical dating protocol that will allow for a more rigorous chronology for post-glacial landscape evolution and human occupation on British Columbia's central coast. Luminescence signals from Calvert Island quartz are dim, and appear to lack the so-called “fast” component that is most desirable for optical dating. K-feldspar signals are sufficiently bright for optical dating. We test and refine a single-aliquot regenerative-dose (SAR) protocol for K-feldspar specific to Calvert Island samples through a series of dose recovery and preheat plateau tests. Two approaches for correcting a sample age for anomalous fading are compared and a correction for phototransfer is introduced and applied. Measured fading rates vary from sample to sample implying that, in this region, it is not sufficient to rely on two or three representative fading rates as has sometimes been done elsewhere. Refined age estimates show consistency with independent radiocarbon dating control and help identify radiocarbon-dated organic-rich sediments that have been reworked.

Published

2015

5. Post-glacial sea-level change along the Pacific coast of North America

Author

Ian J. Walker, Dan H. Shugar, Christina M. Neudorf, Jordan B.R. Eamer, Duncan McLaren, Daryl Fedje, and Olav B. Lian

Subjects

Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Geology, Last Glacial Maximum, Post-glacial rebound, Isostatic depression, Oceanography, 13. Climate action, Isostasy, 14. Life underwater, Glacial period, Forebulge, Ice sheet, Ecology, Evolution, Behavior and Systematics, Sea level

Abstract

Sea-level history since the Last Glacial Maximum on the Pacific margin of North America is complex and heterogeneous owing to regional differences in crustal deformation (neotectonics), changes in global ocean volumes (eustasy) and the depression and rebound of the Earth's crust in response to ice sheets on land (isostasy). At the Last Glacial Maximum, the Cordilleran Ice Sheet depressed the crust over which it formed and created a raised forebulge along peripheral areas offshore. This, combined with different tectonic settings along the coast, resulted in divergent relative sea-level responses during the Holocene. For example, sea level was up to 200 m higher than present in the lower Fraser Valley region of southwest British Columbia, due largely to isostatic depression. At the same time, sea level was 150 m lower than present in Haida Gwaii, on the northern coast of British Columbia, due to the combined effects of the forebulge raising the land and lower eustatic sea level. A forebulge also developed in parts of southeast Alaska resulting in post-glacial sea levels at least 122 m lower than present and possibly as low as 165 m. On the coasts of Washington and Oregon, as well as south-central Alaska, neotectonics and eustasy seem to have played larger roles than isostatic adjustments in controlling relative sea-level changes.

Published

2014

6. A post-glacial sea level hinge on the central Pacific coast of Canada

Author

Dan H. Shugar, Murray B. Hay, Ian J. Walker, Daryl Fedje, Quentin Mackie, Jordan B.R. Eamer, Duncan McLaren, Christina M. Neudorf, and Olav B. Lian

Subjects

Archeology, Structural basin, Coastal migration route, Northeast Pacific Rim, law.invention, Central Pacific coast of Canada, law, Isostatic, Sea level change, Sea level hinge, 14. Life underwater, Forebulge, Radiocarbon dating, Glacial period, Ecology, Evolution, Behavior and Systematics, Sea level, Global and Planetary Change, Geology, Last Glacial Maximum, Coring, Eustatic, Oceanography, Archaeology, 13. Climate action, Northwest coast, Sedimentary rock

Abstract

Post-glacial sea level dynamics during the last 15,000 calendar years are highly variable along the Pacific coast of Canada. During the Last Glacial Maximum, the Earth's crust was depressed by ice loading along the mainland inner coast and relative sea levels were as much as 200 m higher than today. In contrast, some outer coastal areas experienced a glacial forebulge (uplift) effect that caused relative sea levels to drop to as much as 150 m below present levels. Between these inner and outer coasts, we hypothesize that there would have been an area where sea level remained relatively stable, despite regional and global trends in sea level change. To address this hypothesis, we use pond basin coring, diatom analysis, archaeological site testing, sedimentary exposure sampling, and radiocarbon dating to construct sea level histories for the Hakai Passage region. Our data include 106 newly reported radiocarbon ages from key coastal sites that together support the thesis that this area has experienced a relatively stable sea level over the last 15,000 calendar years. These findings are significant in that they indicate a relatively stable coastal environment amenable to long-term human occupation and settlement of the area. Our results will help inform future archaeological investigations in the region.

Published

2014

7. Investigation into the OSL and TT-OSL signal characteristics of ancient (>100 ka) Tasmanian aeolian quartz and its utility as a geochronometer for understanding long-term climate-driven landscape change

Author

Travis B. Gingerich, Christina M. Neudorf, Olav B. Lian, Peter D. McIntosh, and Paul Augustinus

Subjects

010506 paleontology, Landscape change, Stratigraphy, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, 13. Climate action, Earth and Planetary Sciences (miscellaneous), Aeolian processes, Glacial period, Quartz, 0105 earth and related environmental sciences, Chronology

Abstract

The luminescence characteristics and age estimates of nine samples of aeolian quartz are reported from the Southwood B section in the Arve Valley of southern Tasmania, Australia. New OSL and TT-OSL ages obtained from the deepest Tasmanian aeolian section found so far, the Southwood B section (>6 m deep), range from 20 ka (MIS 2) to 180 ka (MIS 6). Here we test two previously published TT-OSL protocols on our samples: the protocol of Brown and Forman (2012) and a protocol modified from Stevens et al. (2009). Congruencies between our TT-OSL chronology, OSL chronology and previously published TL ages suggest that the modified Stevens et al. (2009) protocol is the most robust for these samples. Furthermore, detailed comparisons of the laboratory data for TL, OSL, and TT-OSL samples provide information on their signal characteristics, their utility as chronometers, and give insight into the bleaching histories of the deposits. All OSL and TT-OSL ages obtained from the Southwood B section fall below the upper dating limits of these signals, which are reported to be as high as ∼280 ka and ∼570 ka, respectively. The TT-OSL signal saturates at doses that are two to three times those of the OSL signal, and may not only provide a chronology for sediments deposited during MIS 5, but also, according to the saturation limits, for any preserved sediments that accumulated during MIS 6 through to MIS 15. TT-OSL ages from older sediments in this region, combined with further stratigraphic studies have the potential to determine the climatic history of Tasmania over multiple glacial periods.

Published

2019

8. Formation of mega-scale glacial lineations on the Dubawnt Lake Ice Stream bed: 1. size, shape and spacing from a large remote sensing dataset

Author

R. B. Dunstone, Matteo Spagnolo, Colm Ó Cofaigh, Olav B. Lian, Chris R. Stokes, and Chris D. Clark

Subjects

Stream bed, Archeology, Global and Planetary Change, education.field_of_study, geography, geography.geographical_feature_category, Bedform, Ice stream, Population, Drumlin, Geology, Subglacial bedforms, Lineation, Glacial period, Ice sheet, education, Mega-scale glacial lineations, Geomorphology, Ecology, Evolution, Behavior and Systematics, Remote sensing

Abstract

Mega-scale glacial lineations (MSGLs) are the largest flow parallel bedforms produced by ice sheets and are formed beneath rapidly-flowing ice streams. Knowledge of their characteristics and genesis is likely to result in an improved understanding of the rate at which ice and sediment are discharged by ice sheets, but there is little consensus as to how they are formed and there are few quantitative datasets of their characteristics with which to formulate or test hypotheses. This paper presents the results of a remote sensing survey of ∼46,000 bedforms on the Dubawnt Lake palaeo-ice stream bed, focussing on a central transect of 17,038 that includes highly elongate bedforms previously described as MSGLs. Within this transect, lineations exceed 10 km in length (max. >20 km) and 23% have elongation ratios >10:1 (max. 149:1). Highly elongate features are interspersed with much shorter drumlin-like features, but longer bedforms are typically narrower, suggesting that their length develops more quickly than, or at the expense of, their width. Bedforms are broadly symmetrical in plan-form and have a preferred lateral spacing of 50–250 m, which implies a regular, rather than random, pattern of corrugations. Comparison with drumlins reveals that the more attenuated MSGLs simply extend the ‘tail’ of the distribution of data, rather than plotting as a separate population. Taken together, this supports the idea of a subglacial bedform continuum primarily controlled by ice velocity, but existing hypotheses of MSGL formation are either not supported, or are insufficiently developed to explain our observations. Rather, we conclude that, under conditions of rapid ice flow, MSGLs attain their great length relatively quickly (decades) through a probable combination of subglacial deformation, which attenuates ridges, and erosional processes that removes material from between them.

Published

2013

9. Formation of mega-scale glacial lineations on the Dubawnt Lake Ice Stream bed: 2. Sedimentology and stratigraphy

Author

Colm Ó Cofaigh, Olav B. Lian, Chris D. Clark, Chris R. Stokes, and S. Tulacyzk

Subjects

Archeology, 010504 meteorology & atmospheric sciences, Geochemistry, Subglacial bedforms, 010502 geochemistry & geophysics, 01 natural sciences, Lineation, Deglaciation, Glacial period, Sedimentology, Ice streams, Geomorphology, Mega-scale glacial lineations, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, geography, Global and Planetary Change, geography.geographical_feature_category, Sediment, Geology, Dubawnt Lake Palaeo-Ice Stream, Diamicton, Outwash plain, Ice sheet

Abstract

Mega-scale glacial lineations (MSGLs) are highly elongate, subglacial landforms produced beneath zones of fast-flowing ice. While qualitative data on their morphology have existed for several decades, studies of their composition and sedimentology are comparatively rare. Sediment exposures along the course of the Finnie River in Nunavut, northern Canada, provide a window into the internal stratigraphy and sedimentology of MSGLs formed by the Dubawnt Lake Palaeo-Ice Stream during regional deglaciation of the Laurentide Ice Sheet. Stratigraphic sections record evidence for an initial advance of ice into the study area followed by ice sheet recession and deposition of glacifluvial and glacilacustrine outwash. Subsequently, the Dubawnt Lake Palaeo-Ice Stream overrode and reworked this outwash subglacially forming an ‘MSGL till’. This till comprises a sandy, red diamicton facies, forming the core of the MSGL ridges and containing variably deformed lenses, stringers and rafts of outwash. The sedimentology of this diamicton is consistent with an origin as a glacitectonite and hybrid till formed by a combination of non-pervasive subglacial sediment deformation and lodgement. Facies variations from stratified to massive diamicton reflect, in turn, variations in strain and subglacial transport distance. The occurrence of stratified glacifluvial sediments within these ridges and the well-preserved nature of many of the sandy inclusions within the diamicton imply relatively short transport distances and incomplete mixing. MSGLs under the Dubawnt Lake Palaeo-Ice Stream formed through a combination of subglacial erosion and deposition. This included non-pervasive, subglacial sediment deformation and the reworking of pre-existing sediment depocentres during streaming flow. These results highlight the importance of sediment supply to MSGL formation with the presence of abundant pre-existing sediments which were subsequently overridden being critical to lineation formation.

Published

2013

10. The sequence and timing of large late Pleistocene floods from glacial Lake Missoula

Author

Michelle A. Hanson, John J. Clague, and Olav B. Lian

Subjects

Hydrology, Archeology, Global and Planetary Change, geography, Varve, geography.geographical_feature_category, Pleistocene, Ice dam, Fluvial, Geology, Paleontology, Shelf ice, Glacial period, Ice sheet, Glacial lake, Ecology, Evolution, Behavior and Systematics

Abstract

Glacial Lake Missoula formed when the Purcell Trench lobe of the Cordilleran ice sheet dammed Clark Fork River in Montana during the Fraser Glaciation (marine oxygen isotope stage 2). Over a period of several thousand years, the lake repeatedly filled and drained through its ice dam, and floodwaters coursed across the landscape in eastern Washington. In this paper, we describe the stratigraphy and sedimentology of a significant new section of fine-grained glacial Lake Missoula sediment and compare this section to a similar, previously described sequence of sediments at Ninemile Creek, 26 km to the northwest. The new exposure, which we informally term the rail line section, is located near Missoula, Montana, and exposes 29 units, each of which consists of many silt and clay couplets that we interpret to be varves. The deposits are similar to other fine-grained sediments attributed to glacial Lake Missoula. Similar varved sediments overlie gravelly flood deposits elsewhere in the glacial Lake Missoula basin. Each of the 29 units represents a period when the lake was deepening, and all units show evidence for substantial draining of glacial Lake Missoula that repeatedly exposed the lake floor. The evidence includes erosion and deformation of glaciolacustrine sediment that we interpret happened during draining of the lake, desiccation cracks that formed during exposure of the lake bottom, and fluvial sand deposited as the lake began to refill. The floods date to between approximately 21.4 and 13.4 cal ka ago based on regional chronological data. The total number of varves at the rail line and Ninemile sites are, respectively, 732 and 583. Depending on lake refilling times, each exposure probably records 1350–1500 years of time. We present three new optical ages from the rail line and Ninemile sites that further limit the age of the floods. These ages, in calendar years, are 15.1 ± 0.6 ka at the base of the Ninemile exposure, and 14.8 ± 0.7 and 12.6 ± 0.6 ka midway through the rail line exposure. The sediment at the two sections was deposited during later stages of glacial Lake Missoula, after the largest outburst events.

Published

2012

11. Ice stream sticky spots: A review of their identification and influence beneath contemporary and palaeo-ice streams

Author

Olav B. Lian, Slawek Tulaczyk, Chris R. Stokes, and Chris D. Clark

Subjects

Drift ice, geography, geography.geographical_feature_category, Rotten ice, Ice stream, Lead (sea ice), Sea ice, General Earth and Planetary Sciences, Antarctic sea ice, Ice divide, Ice sheet, Geomorphology, Geology

Abstract

Rapidly-flowing ice streams are the arterial drainage routes in continental ice sheets and exert a major influence on ice sheet mass balance. Recent observations have revealed that ice stream flow exhibits considerable variability, with relatively rapid changes taking place in speed and direction. This spatial and temporal variability is intimately linked to the conditions at the base of the ice streams and the distribution of localised patches of basal friction, known as ‘sticky spots’. In this paper, we provide a detailed review of sticky spot observations from both contemporary and palaeo-ice stream beds in order to better understand their nature and influence. Observations and theoretical considerations reveal four primary causes of ‘stickiness’: (i), bedrock bumps; (ii), till-free areas; (iii), areas of ‘strong’ (well drained) till; and (iv), freeze-on of subglacial meltwater. These may act together in one location, or in isolation; and a progressive increase in their distribution could lead to ice stream shut-down. Bedrock bumps are influential under active ice streams, where they provide form drag and can create thinner ice which increases the likelihood of basal freeze-on. Increased bed roughness may prevent the lateral migration of some ice streams but bedrock bumps are unlikely to cause ice stream shut-down because, over long time-scales, ice stream erosion might be expected to reduce their amplitude. The influence of till-free areas beneath an ice stream will depend critically on the amount of water that might be drawn out of the surrounding till to lubricate such areas. They are likely to be most important in ice stream onset zones but their identification has proved difficult beneath active ice streams. If an ice stream operates solely by till deformation, it is conceivable that a progressive increase in the exposure of till-free areas could lead to shut-down through a process of sediment exhaustion. Areas of strong, well drained till have been identified beneath both active and ancient ice streams and are most likely to result from the reorganisation of subglacial meltwater. The collapse of an inefficient ‘cannalised’ system to a more efficient ‘channelised’ system can occur rapidly and this mechanism has been hypothesised as a candidate for ice stream shut-down in both contemporary and palaeo-settings. Basal freeze-on has also been observed and inferred from beneath modern and palaeo-ice streams, and a reduction in basal meltwater supply coupled with ice stream drawdown and the advection of cold ice increases the likelihood of switching off an ice stream. A paucity of data from ice stream sticky spots limits a better understanding of their nature, distribution and evolution beneath ice streams. Future technological advances are likely to improve the resolution of the data collected from the beds of modern ice streams but well-preserved palaeo-ice stream beds also hold potential for investigating their influence on ice stream flow and we present simple landsystems models to aid their identification. Such data will considerably enhance the basal boundary condition in ice stream models which will, ultimately, refine our predictions of the response of contemporary ice sheets to future changes in climate.

Published

2007

12. Progress in optical dating of guano-rich sediments associated with the Deep Skull, West Mouth of the Great Cave of Niah, Sarawak, Borneo

Author

Mark Stephens, Hiroyuki Yoshida, Richard G. Roberts, and Olav B. Lian

Subjects

geography, geography.geographical_feature_category, Thermoluminescence dating, Stratigraphy, Quaternary science, Sediment, Geology, law.invention, Paleontology, Cave, law, Earth and Planetary Sciences (miscellaneous), Radiocarbon dating, Inductively coupled plasma mass spectrometry, Quartz, Chronology

Abstract

The West Mouth of the Great Cave of Niah is one of the major archaeological sites in Southeast Asia; the radiocarbon chronology of this site currently places the earliest presence of Homo sapiens (a Deep Skull find) in Southeast Asia at about 45 ka BP. An optical dating programme using sand-sized quartz was initiated in the West Mouth to complement the radiocarbon chronology. This paper reports on the progress in dating a key sample (sample 376r) that was taken from deposits containing the Deep Skull. A somewhat novel procedure was developed to separate and clean quartz grains from the unusual guano-rich deposits. From this, only a small quantity of quartz grains could be recovered and 36 aliquots (1 mm in diameter) were prepared, each consisting of ∼80 grains. This sample was dated by means of the single-aliquot regenerative-dose (SAR) method using the protocols of Murray and Wintle [2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements 32, 57–73], and of Choi et al. [2003. Luminescence dating of well-sorted marine terrace sediments on the southeastern coast of Korea. Quaternary Science Reviews 22, 407–421]. The results showed a wide distribution of equivalent doses; this distribution is inferred to be due to bioturbation, variable bleaching at deposition, and to local variations in the dose rate within the sample site. Dose rates were measured using both field (in-situ γ-ray spectrometry, IGRS) and laboratory (inductively coupled plasma mass spectrometry/atomic emission spectrometry, ICP-MS/AES; and isotope dilution, ID) methods. There was significant disagreement between the concentrations of radioisotopes found using laboratory and field measurements, indicating sediment heterogeneity and also possible disequilibrium in the 238 U decay chain. Future work in the West Mouth should therefore concentrate on taking sediment samples of at least 500–600 cm 3 , improving the dose rate estimates (e.g. by high-resolution γ-ray spectrometry) and investigating other luminescence signals (e.g. red thermoluminescence) as potential geochronometers.

Published

2007

13. Dating the Quaternary: progress in luminescence dating of sediments

Author

Richard G. Roberts and Olav B. Lian

Subjects

Archeology, Global and Planetary Change, Thermoluminescence dating, Earth science, Quaternary science, Geology, Dose distribution, Archaeology, Basic research, Age estimation, Absolute dating, Technique development, Quaternary, Ecology, Evolution, Behavior and Systematics

Abstract

Luminescence dating comprises a collection of numerical-age techniques that are among the most significant chronological tools currently used in Quaternary research. This paper briefly reviews the key historical developments in luminescence dating, from its roots in thermoluminescence dating of heated minerals to the development of optical dating methods for sunlight-exposed sediments. We describe the principles and practicalities of the various techniques commonly used in luminescence dating, including multiple-aliquot, single-aliquot and single-grain procedures, and we discuss some of the latest approaches to recognising and minimising potential errors in age estimation (e.g., by means of component analysis and dose distribution methods in optical dating). The overview also introduces the other papers in this special issue of Quaternary Science Reviews , which address a selection of important issues in basic research, technique development and application of luminescence dating to critical questions in the geological and archaeological sciences, illustrated with examples from around the world and the last million years of Earth history.

Published

2006

14. Some observations on tunnelling of trapped electrons in feldspars and their implications for optical dating

Author

D. J. Huntley and Olav B. Lian

Subjects

Archeology, Global and Planetary Change, Extrapolation, Mineralogy, Geology, Electron, engineering.material, Feldspar, visual_art, engineering, visual_art.visual_art_medium, Plagioclase, Fading, Luminescence, Saturation (chemistry), Ecology, Evolution, Behavior and Systematics, Quantum tunnelling

Abstract

Anomalous fading in feldspars is now understood to be caused by the tunnelling of electrons from one defect site to another. Here we present some experimental observations concerning the phenomenon. The fading rates of a variety of feldspar crystals and K-feldspar separates from sediments are reported. It is found that (1) the fading rates of 77 K-feldspar extracts from sediments range from 1 to 10%/decade, with an average value of about 5%/decade, (2) the fading rates of K-feldspars extracted from sediments derived largely from volcanic bedrock are not higher than those from non-volcanic bedrock as is widely thought, (3) the fading rates of 31 individual feldspars range from 1 to 35%/decade, (4) in plagioclase feldspars the fading rate increases with increasing Ca and/or Fe content, (5) the fading rate increases with laboratory radiation dose at large doses, (6) for samples for which the time elapsed since burial is long enough for their luminescence to be in saturation, the fading rate is correlated with the ratio of the field saturation intensity to the laboratory saturation intensity; extrapolation to zero fading rate shows that trap emptying as a result of thermal eviction is not significant, and that the mean thermal lifetime in temperate environments of electrons in traps relevant to dating is ⩾4 Ma., and (7), different aliquots of a sample can have fading rates that differ by a factor as large as two even if the aliquots contain several thousands of grains, thus it is necessary to ensure when correcting ages for anomalous fading that the fading rate used is that applicable to the aliquots on which the equivalent dose is measured.

Published

2006

15. Sheet-gravel evidence for a late Holocene tsunami run-up on beach dunes, Great Barrier Island, New Zealand

Author

Charles H. Carter, Olav B. Lian, and Scott L. Nichol

Subjects

Foredune, geography, geography.geographical_feature_category, Stratigraphy, Bedrock, Storm surge, Geology, Sand dune stabilization, Paleontology, Barrier island, Clastic rock, Aeolian processes, Geomorphology, Sea level

Abstract

A semi-continuous sheet of granule to cobble-size clasts forms a distinctive deposit on sand dunes located on a coastal barrier in Whangapoua Bay, Great Barrier Island, New Zealand. The gravel sheet extends from the toe of the foredune to 14.3 m above mean sea level and 200 m landward from the beach. Clasts are rounded to sub-rounded and comprise lithologies consistent with local bedrock. Terrestrial sources for the gravel are considered highly unlikely due to the isolation of the dunes from hillslopes and streams. The only source for the clasts is the nearshore to inner shelf of Whangapoua Bay, where gravel sediments have been previously documented. The mechanism for transport of the gravel is unlikely to be storm surge due to the elevation of the deposit; maximum-recorded storm surge on this coast is 0.8 m above mean high water spring tide. Aeolian processes are also discounted due to the size of clasts and the elevation at which they occur. Tsunami is therefore considered the most probable mechanism for gravel transport. Minimum run-up height of the tsunami was 14.3 m, based on maximum elevation of gravel deposits. Optical ages on dune sands beneath and covering the gravel allow age bracketing to 0–4.7 ka. Within this time frame, numerous documented regional seismic and volcanic events could have generated the tsunami, notably submarine volcanism along the southern Kermadec arc to the east-southeast of Great Barrier Island where large magnitude events are documented for the late Holocene. Radiocarbon ages on shell from Maori middens that appear to have been reworked by tsunami run-up constrain the age of this event to post ca. 1400 AD. Regardless of the precise age of this event, the well-preserved nature of the Whangapoua gravel deposit provides for an improved understanding of the high degree of spatial variability in tsunami run-up.

Published

2003

16. Quaternary stratigraphy and optical dating of loess from the east European Plain (Russia)

Author

V.P. Nechaev, T. D. Morozova, Edward Little, Andrei A. Velichko, K. G. Dlussky, Olav B. Lian, and N.W. Rutter

Subjects

Archeology, Global and Planetary Change, Geochemistry, Geology, Context (language use), Paleosol, Isotopes of oxygen, law.invention, Stage (stratigraphy), law, Loess, Glacial period, Radiocarbon dating, Geomorphology, Ecology, Evolution, Behavior and Systematics, Chronology

Abstract

Optical dating of silt-sized potassium feldspar grains was found to be suitable for dating the formation of key loess units at two sites on the central east European Plain. Loess bracketing the Bryansk palaeosol yielded optical ages in agreement with the well-dated radiocarbon chronology when corrected for anomalous fading. Optical ages from loess bracketing a significant pedogenic unit below the Bryansk palaeosol support our lithostratigraphic interpretation that it is the Mezin palaeosol complex, and its formation during the Last Interglaciation, Oxygen Isotope Stage (OIS) 5. Optical ages from a stratigraphically older loess unit directly underlying a significant (∼10 m thick) till unit, in conjunction with its regional stratigraphic context, suggest that the loess, and the till were deposited during the Dnieper Glaciation, which probably occurred during OIS 6.

Published

2002

17. Tephrostratigraphy and geochronology of a ca. 120 ka terrestrial record at Lake Poukawa, North Island, New Zealand

Author

Robert Chisari, Olav B. Lian, Phil Shane, Henk Heijnis, and Paul Augustinus

Subjects

Global and Planetary Change, geography, geography.geographical_feature_category, Earth science, Geochemistry, Pyroclastic rock, Oceanography, law.invention, Volcano, law, Interglacial, Rhyolite, Geochronology, Radiocarbon dating, Tephrochronology, Tephra, Geology

Abstract

A 198-m-long core was obtained from Lake Poukawa, Hawkes Bay, New Zealand for paleoclimatic analysis. A chronology extending back to ca. 120 ka has been developed using a combination of tephrostratigraphy, radiocarbon, optical, and U–Th disequilbrium dating. The core contains a new record of tephra beds, including temporal intervals poorly recorded elsewhere, and revises the dispersal for some known events. Thirty macroscopic tephra beds were identified, comprising 20 rhyolites with compositions consistent with previously studied tephra from Taupo and Okataina calderas, and 10 andesites–dacites compositionally similar to Tongariro and Egmont centre eruptions. Electron microprobe data provides evidence for a total of 24 rhyolite eruptions amongst the 20 macroscopic beds. Four widespread rhyolitic marker beds: Whakatane (4.6 ka), Kawakawa (22.6 ka), Tahuna (ca. 43 ka), and Rotoehu (ca. 50 ka) provide temporal constraints for the upper 40 m of the core. The occurrence of Opepe (9 ka) and Okaia (23 ka) tephra beds in this core extends their known dispersal to southern North Island. A previously unrecognised and chemically distinct rhyolite tephra (ca. 35 ka) was also found in the sequence. Twelve rhyolitic tephra occur in the interval 50–120 ka, a period in which the timing and nature of volcanic events is poorly understood at proximal sites of the Taupo Volcanic Zone. The Lake Poukawa core provides evidence for widely dispersed tephra-producing eruptions from Egmont volcano and Tongariro centre back to about 120 ka. The tephra are glassy, unlike many proximal deposits, and can be geochemically fingerprinted, thus providing an opportunity to develop a framework for eruptions not assessable in proximal localities. The pre-50 ka, high-K Egmont tephra are compositionally similar to younger (post-30 ka) proximal pyroclastics, but differ from contemporaneous low- and medium-K rocks that characterise the proximal ring-plain of the volcano. An average Holocene peat accumulate rate of 1.5 m/ka and an average post-50 ka sedimentation rate of 0.78 m/ka are implied from the ages of interbedded tephra. However, the depositional history of the core is complex because tephra at a depth of 40 m, and optical and U–Th disequilbrium ages at ca. 103 m are the same age within analytical uncertainties. This implies either rapid alluvial sedimentation or unrecognised problems in the dating methods. U–Th disequilbrium ages, together with paleoecological information, suggest that a peat interval at 143–146 m depth formed during the last interglacial maximum (oxygen isotope substage 5e).

Published

2002

18. A long late-Quaternary record from Lake Poukawa, Hawke’s Bay, New Zealand

Author

Olav B. Lian, Margaret A. Harper, Warren W. Dickinson, Phil Shane, James Shulmeister, Masaaki Okuda, John A. Carter, Paul Augustinus, and Henk Heijnis

Subjects

geography, Peat, geography.geographical_feature_category, Alluvial fan, Paleontology, Oceanography, law.invention, law, Stadial, Radiocarbon dating, Quaternary, Ecology, Evolution, Behavior and Systematics, Sea level, Geology, Holocene, Earth-Surface Processes, Chronology

Abstract

The Lake Poukawa Basin is a large co-seismic depression located at 20 m above mean sea level in Hawke’s Bay in eastern North Island, New Zealand. We present a detailed environmental history of the basin for the last c. 60 ka based on analyses of the top 105 m of a 200-m core record. Dating control is provided by radiocarbon, optically stimulated luminescence (OSL) and U/Th disequilibrium ages. The chronology is supported by nine tephras of inferred age including marker tephras, Kawakawa (22 590±230 yr BP at −18.25 m core datum), Tahuna (c. 35–43 ka) at −33.1 m core datum, and Rotoehu (45–50 ka) at −39.1 m core datum. Disagreements between some of the older tephra ages and the numerical ages from the OSL and U/Th dating mean that more than one age model can be applied. Three major lithostratigraphic units are identified: a basal calcareous silt with lignitic peats between 105.28 and 98.58 m of marine oxygen isotope stage (MIS) 3 age; an extended sequence of detrital shelly sands and silts, between 98.58 and 8 m of MIS 3 and 2 age; and a Holocene peat unit (MIS 1) from 8 to 0 m. Alternatively, but less likely, the basal unit may represent stage MIS 5a and the detrital shelly sands would then contain an amalgam of MIS 4, 3, and 2 deposits. We propose a notably moist phase represented by the peat which our numerical dating model places near the start of isotope stage 3. This suggests the existence of mild conditions during an interstadial in central New Zealand at c. 55–50 ka when a podocarp–beech–broadleaf forest of near-interglacial affinity surrounded the basin. The interstadial is marked by both lake and peat formation in the basin. After 50 ka a thermal decline set in, though the climate remained moist initially. Under these conditions, the Poukawa Basin was rapidly infilled by alluvial fan deposits from the surrounding hills. The floor of the basin was occupied by grasses and sedges, responding to both the highly disturbed environment and swampy conditions in the basin. After the deposition of the Rotoehu Ash, effective precipitation declined markedly and woody shrubs expanded across the previously swampy basin floor. The data suggest an apparent thermal decline of c. 6–7°C for much of MIS 2 and the latter half of MIS 3. The Holocene was marked by the establishment of fen and lake environments on the basin floor. Prior to human disturbance, podocarp–broadleaf forest surrounded the basin.

Published

2001

19. Optical dating of paleosols bracketing the widespread Rotoehu tephra, North Island, New Zealand

Author

Philip A. Shane and Olav B. Lian

Subjects

Archeology, Global and Planetary Change, Lava, Geochemistry, Geology, Archaeology, Paleosol, Loess, Tephra, Bracketing, Ecology, Evolution, Behavior and Systematics, Optical dating, Chronology

Abstract

Optical dating of the fine-grained mineral fraction of paleosols developed on, or within, loess bracketing the widespread Rotoehu tephra at two sites in central North Island, New Zealand, was undertaken using infrared excitation of potassium feldspars. Optical ages suggest that Rotoehu tephra was deposited at ca 45 ka, and support several previous age determinations. Our optical ages are also consistent with individual K-Ar ages from bracketing lava flows, though inconsistent with the currently preferred age for the tephra (64±4 ka) which is the weighted mean of them. Our data also suggests that the age of two other important time-stratigraphic markers, Tihoi and Tahuna tephras, estimated to have been deposited at 46 and 43 ka, respectively, may have instead been formed between 25 and 35 ka. In the light of this, the chronology of other North Island tephra beds older than 30 ka may have to be revised.

Published

2000

20. Thermal conditions beneath parts of the last Cordilleran Ice Sheet near its centre as inferred from subglacial till, associated sediments, and bedrock

Author

Stephen R. Hicock and Olav B. Lian

Subjects

geography, geography.geographical_feature_category, Fast ice, Ice tongue, Ice stream, Antarctic sea ice, Ice sheet, Glacier morphology, Geomorphology, Ice shelf, Geology, Earth-Surface Processes, Ice wedge

Abstract

Subglacial sediments and bedrock associated with the last (Fraser) glaciation were studied in a mountain valley and on a mountain plateau (ca. 1200 m elevation, near the south-central spreading centre of the last Cordilleran Ice Sheet) in order to gain information on subglacial thermal conditions. Our study indicates that as ice advanced it was probably initially coupled to, or dragged along, a largely frozen and immobile substrate that fractured. As glaciation proceeded, subglacial till was deposited mainly by lodgement. In most places, however, "eld evidence suggests that, as till thickened and pore water content increased, the till experienced ductile deformation. At some sites there is evidence that pore water increased to a point where till #owed as a viscous slurry while eroding, entraining, and transporting pieces of soft bedrock. In places, brittle deformation was superimposed on ductily-deformed till, a transition that we associate with subsequent till dewatering and sti!ening. A deformable substrate would have contributed to extending ice-#ow, thus increasing#ow velocity while decreasing ice surface pro"les. If this situation was wide spread, then the interior of the Cordilleran Ice Sheet would have consisted of local accumulation areas that were drained by rapidly #owing glaciers (ice streams?). This is supported by previously recorded ice-#ow patterns inferred from large-scale ice #ow indicators, and by other evidence of rapid ice movement along the southern fringe of the ice sheet. ( 2000 Elsevier Science Ltd and INQUA. All rights reserved.

Published

2000

21. Optical dating studies of postglacial aeolian deposits from the south-central interior of British Columbia, Canada

Author

D. J. Huntley and Olav B. Lian

Subjects

Archeology, Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, Sediment, Aeolian processes, Geology, Tephra, Archaeology, Ecology, Evolution, Behavior and Systematics, Optical dating

Abstract

Tests of the validity of optical dating of the fine-grained (4–11 μm) component of aeolian deposits from six sites in south-central British Columbia, using 1.4 eV (infrared) excitation of potassium feldspars, were made making use of known-age tephra beds. At one site on the western side of the Fraser Valley, samples bracketing the Mazama (7.5–7.6 ka, cal. yrs.) and Bridge River tephras (2.3 ka, cal. yrs.) yielded optical ages in accordance with the known ages when a correction for thermal-transfer was used. The same method was applied to aeolian deposits on the Fraser Plateau, known to have been deposited between 14 and 2.3 ka (cal. yrs). The ages obtained from five samples, from four separate exposures spanning 10 km, varied from 30 to 94 ka, clearly indicating that this sediment was not exposed to sufficient sunlight prior to burial. As a result of a detailed investigation it is suggested that the reason is that some grains had been transported over short distances (

Published

1999