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4. Tunnel valley formation beneath deglaciating mid-latitude ice sheets: Observations and modelling

Author

Kirkham, James D., Hogan, Kelly A., Larter, Robert D., Arnold, Neil S., Ely, Jeremy C., Clark, Chris D., Self, Ed, Games, Ken, Huuse, Mads, Stewart, Margaret A., Ottesen, Dag, Dowdeswell, Julian A., Kirkham, James D., Hogan, Kelly A., Larter, Robert D., Arnold, Neil S., Ely, Jeremy C., Clark, Chris D., Self, Ed, Games, Ken, Huuse, Mads, Stewart, Margaret A., Ottesen, Dag, and Dowdeswell, Julian A.

Abstract

The geological record of landforms and sediments produced beneath deglaciating ice sheets offers insights into inaccessible glacial processes. Large subglacial valleys formed by meltwater erosion of sediments (tunnel valleys) are widespread in formerly glaciated regions such as the North Sea. Obtaining a better understanding of these features may help with the parameterisation of basal melt rates and the interplay between basal hydrology and ice dynamics in numerical models of past, present, and future ice-sheet configurations. However, the mechanisms and timescales over which tunnel valleys form remain poorly constrained. Here, we present a series of numerical modelling experiments, informed by new observations from high-resolution 3D seismic data (6.25 m bin size, ∼4 m vertical resolution), which test different hypotheses of tunnel valley formation and calculate subglacial water routing, seasonal water discharges, and the rates at which tunnel valleys are eroded beneath deglaciating ice sheets. Networks of smaller or abandoned channels, pervasive slump deposits, and subglacial landforms are imaged inside and at the base of larger tunnel valleys, indicating that these tunnel valleys were carved through the action of migrating smaller channels within tens of kilometres of the ice margin and were later widened by ice-contact erosion. Our model results imply that the drainage of extensive surface meltwater to the ice-sheet bed is the dominant mechanism responsible for tunnel valley formation; this process can drive rapid incision of networks of regularly spaced subglacial tunnel valleys beneath the fringes of retreating ice sheets within hundreds to thousands of years during deglaciation. Combined, our observations and modelling results identify how tunnel valleys form beneath deglaciating mid-latitude ice sheets and have implications for how the subglacial hydrological systems of contemporary ice sheets may respond to sustained climate warming.

Published
2024

5. Accelerating Glacier Area Loss Across the Andes Since the Little Ice Age.

Author

Carrivick, Jonathan L., Davies, Morwenna, Wilson, Ryan, Davies, Bethan J., Gribbin, Tom, King, Owen, Rabatel, Antoine, García, Juan‐Luis, and Ely, Jeremy C.

Subjects
LITTLE Ice Age, GLACIERS, ALPINE glaciers, ENVIRONMENTAL engineering, ENVIRONMENTAL protection, AQUATIC ecology, ENVIRONMENTAL management
Abstract

Andean glaciers are losing mass rapidly but a centennial‐scale context to those rates is lacking. Here we show the extent of >5,500 glaciers during the Little Ice Age chronozone (LIA; c. 1,400 to c. 1,850) and compute an overall area change of −25% from then to year 2000 at an average rate of −36.5 km2 yr−1 or −0.11% yr−1. Glaciers in the Tropical Andes (Peru, Bolivia) have depleted the most; median −56% of LIA area, and the fastest; median −0.16% yr−1. Up to 10 × acceleration in glacier area loss has occurred in Tropical mountain sub‐regions comparing LIA to 2,000 rates to post‐2000 rates. Regional climate controls inter‐regional variability, whereas local factors affect intra‐region glacier response time. Analyzing glacier area change by river basins and by protected areas leads us to suggest that conservation and environmental management strategies should be re‐visited as proglacial areas expand. Plain Language Summary: Andean glaciers are melting fast but how that rate compares in a longer‐term context is unknown. In this study we mapped the extent of >5,500 glaciers during the Little Ice Age, which was the last major glacial advance culminating about c. 150 years ago. We analyzed the change in glacier size and computed overall area change of −25% from the LIA to year 2000 at a rate of −36.5 km2 per year or −0.11% per year. Glaciers within Peru and Bolivia have shrunk the most by median −56% of LIA area, and the fastest by median −0.16% per year. We discuss that these glaciers are depleting and retreating due to climate change but that response is compounded by glacier size, shape and terminus environment effects. As glaciers melt they reveal proglacial landscapes that tend to be highly unstable, impacting water resources, natural hazards and terrestrial and aquatic ecology. Key Points: Little Ice Age (LIA) chronozone extent of >5,500 glaciers mapped from geomorphological evidenceOverall glacier area change of −25% to year 2000 at a rate of −36.5 km2 yr−1 or −0.11% yr−1Up to 10 × acceleration in glacier area loss for Tropical sub‐regions comparing LIA to 2,000 with post‐2000 rates [ABSTRACT FROM AUTHOR]

Published
2024
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10. Quantifying the uncertainty in the Eurasian ice-sheet geometry at the Penultimate Glacial Maximum (Marine Isotope Stage 6).

Author

Pollard, Oliver G., Barlow, Natasha L. M., Gregoire, Lauren J., Gomez, Natalya, Cartelle, Víctor, Ely, Jeremy C., and Astfalck, Lachlan C.

Subjects
ICE sheets, GLACIAL isostasy, ANTARCTIC ice, GLACIATION, BEDROCK
Abstract

The North Sea Last Interglacial sea level is sensitive to the fingerprint of mass loss from polar ice sheets. However, the signal is complicated by the influence of glacial isostatic adjustment driven by Penultimate Glacial Period ice-sheet changes, and yet these ice-sheet geometries remain significantly uncertain. Here, we produce new reconstructions of the Eurasian ice sheet during the Penultimate Glacial Maximum (PGM) by employing large ensemble experiments from a simple ice-sheet model that depends solely on basal shear stress, ice extent, and topography. To explore the range of uncertainty in possible ice geometries, we use a parameterised shear-stress map as input that has been developed to incorporate bedrock characteristics and the influence of ice-sheet basal processes. We perform Bayesian uncertainty quantification, utilising Gaussian process emulation, to calibrate against global ice-sheet reconstructions of the Last Deglaciation and rule out combinations of input parameters that produce unrealistic ice sheets. The refined parameter space is then applied to the PGM to create an ensemble of constrained 3D Eurasian ice-sheet geometries. Our reconstructed PGM Eurasian ice-sheet volume is 48±8 m sea-level equivalent (SLE). We find that the Barents–Kara Sea region displays both the largest mean volume and volume uncertainty of 24±8 m SLE while the British–Irish sector volume of 1.7±0.2 m SLE is the smallest. Our new workflow may be applied to other locations and periods where ice-sheet histories have limited empirical data. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Growth and retreat of the last British–Irish Ice Sheet, 31 000 to 15 000 years ago: the BRITICE‐CHRONO reconstruction

Author

Clark, Chris D., primary, Ely, Jeremy C., additional, Hindmarsh, Richard C. A., additional, Bradley, Sarah, additional, Ignéczi, Adam, additional, Fabel, Derek, additional, Ó Cofaigh, Colm, additional, Chiverrell, Richard C., additional, Scourse, James, additional, Benetti, Sara, additional, Bradwell, Tom, additional, Evans, David J. A., additional, Roberts, David H., additional, Burke, Matt, additional, Callard, S. Louise, additional, Medialdea, Alicia, additional, Saher, Margot, additional, Small, David, additional, Smedley, Rachel K., additional, Gasson, Edward, additional, Gregoire, Lauren, additional, Gandy, Niall, additional, Hughes, Anna L. C., additional, Ballantyne, Colin, additional, Bateman, Mark D., additional, Bigg, Grant R., additional, Doole, Jenny, additional, Dove, Dayton, additional, Duller, Geoff A. T., additional, Jenkins, Geraint T. H., additional, Livingstone, Stephen L., additional, McCarron, Stephen, additional, Moreton, Steve, additional, Pollard, David, additional, Praeg, Daniel, additional, Sejrup, Hans Petter, additional, Van Landeghem, Katrien J. J., additional, and Wilson, Peter, additional

Published
2022
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12. A Greenland-wide empirical reconstruction of paleo ice-sheet retreat informed by ice extent markers: PaleoGrIS version 1.0.

Author

Leger, Tancrède P. M., Clark, Christopher D., Huynh, Carla, Jones, Sharman, Ely, Jeremy C., Bradley, Sarah L., Diemont, Christiaan, and Hughes, Anna L. C.

Abstract

The Greenland Ice Sheet is a large contributor to global sea-level rise, and current mass losses are projected to accelerate. However, model projections of future ice-sheet evolution are limited by the fact that the ice sheet is not in equilibrium with present-day climate, but is still adjusting to past changes that occurred over thousands of years. Whilst the influence of such committed adjustments on future ice-sheet evolution remains unquantified, it could be addressed by calibrating numerical ice sheet models over larger timescales and, importantly, against empirical data on ice margin positions. To enable such paleo data-model interactions, we need Greenland-wide empirical reconstructions of past ice-sheet extent that combine geomorphological and geochronological evidence. Despite an increasing number of field studies producing new chronologies, such a reconstruction is currently lacking in Greenland. Furthermore, a time-slice reconstruction can help: i) answer open questions regarding the rate and pattern of ice margin evolution in Greenland since the glacial maximum, ii) develop a standardised record of empirical data, and iii) identify understudied sites for new field campaigns. Based on these motivations, we here present PaleoGrIS 1.0, the first Greenland-wide isochrone reconstruction of ice-sheet extent evolution through the Late-Glacial and early-to-mid Holocene informed by both geomorphological and geochronological markers. Our isochrones have a temporal resolution of 500 years and span ~7.5 kyr from approximately 14 to 6.5 kyr BP. We here describe the resulting reconstruction of the shrinking ice sheet and conduct a series of ice-sheet wide and regional analyses to quantify retreat rates, areal extent change, and their variability across space and time. During the Late-Glacial and early-to-mid Holocene, we find the Greenland Ice Sheet has lost about one third of its areal extent (0.89 million km²). Between ~14 and ~8.5 kyr BP, it experienced a near constant rate of areal extent loss of 170 ± 27 km² yr-1. We find the ice-sheet-scale pattern of margin retreat is well correlated to atmospheric and oceanic temperature variations, which implies a high sensitivity of the ice sheet to deglacial warming. However, during the Holocene, we observe inertia in the icesheet system that likely caused a centennial to millennial-scale time lag in ice-extent response. At the regional scale, we observe highly heterogeneous deglacial responses in ice-extent evident in both magnitude and rate of retreat. We hypothesise that non-climatic factors, such as the asymmetrical nature of continental shelves and onshore bed topographies, play important roles in determining the regional-to-valley scale dynamics. PaleoGrIS 1.0 is an open-access database designed to be used by both the empirical and numerical modelling communities. It should prove a useful basis for improved future versions of the reconstruction when new geomorphological and geochronological data become available. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Effects of basal topography and ice-sheet surface slope in a subglacial glaciofluvial deposition model

Author

Stevens, David, Ely, Jeremy C., Livingstone, Stephen J., Clark, Chris D., Butcher, Frances E. G., and Hewitt, Ian

Subjects
Earth-Surface Processes
Abstract

We use a mathematical model to investigate the effect of basal topography and ice surface slope on transport and deposition of sediment within a water-filled subglacial channel. In our model, three zones of different behaviour occur. In the zone furthest upstream, variations in basal topography lead to sediment deposition under a wide range of conditions. In this first zone, even very small and gradually varying basal undulations (~5 m amplitude) can lead to the deposition of sediment within a modelled channel. Deposition is concentrated on the downstream gradient of subglacial ridges, and on the upstream gradient of subglacial troughs. The thickness and steepness of the ice sheet has a substantial impact on deposition rates, with shallow ice profiles strongly promoting both the magnitude and extent of sediment deposition. In a second zone, all sediment is transported downstream. Finally, a third zone close to the ice margin is characterised by high rates of sediment deposition. The existence of these zones has implications for esker formation and the dynamics of the subglacial environment.

Published
2022

14. Growth and retreat of the last British–Irish Ice Sheet, 31 000 to 15 000 years ago: the BRITICE‐CHRONO reconstruction

Author

Clark, Chris D., Ely, Jeremy C., Hindmarsh, Richard C.A., Bradley, Sarah, Ignéczi, Adam, Fabel, Derek, Ó Cofaigh, Colm, Chiverrell, Richard C., Scourse, James, Benetti, Sara, Bradwell, Tom, Evans, David J.A., Roberts, David H., Burke, Matt, Callard, S. Louise, Medialdea, Alicia, Saher, Margot, Small, David, Smedley, Rachel K., Gasson, Edward, Gregoire, Lauren, Gandy, Niall, Hughes, Anna L.C., Ballantyne, Colin, Bateman, Mark D., Bigg, Grant R., Doole, Jenny, Dove, Dayton, Duller, Geoff A.T., Jenkins, Geraint T.H., Livingstone, Stephen L., McCarron, Stephen, Moreton, Steve, Pollard, David, Praeg, Daniel, Sejrup, Hans Petter, Van Landeghem, Katrien J.J., Wilson, Peter, Clark, Chris D., Ely, Jeremy C., Hindmarsh, Richard C.A., Bradley, Sarah, Ignéczi, Adam, Fabel, Derek, Ó Cofaigh, Colm, Chiverrell, Richard C., Scourse, James, Benetti, Sara, Bradwell, Tom, Evans, David J.A., Roberts, David H., Burke, Matt, Callard, S. Louise, Medialdea, Alicia, Saher, Margot, Small, David, Smedley, Rachel K., Gasson, Edward, Gregoire, Lauren, Gandy, Niall, Hughes, Anna L.C., Ballantyne, Colin, Bateman, Mark D., Bigg, Grant R., Doole, Jenny, Dove, Dayton, Duller, Geoff A.T., Jenkins, Geraint T.H., Livingstone, Stephen L., McCarron, Stephen, Moreton, Steve, Pollard, David, Praeg, Daniel, Sejrup, Hans Petter, Van Landeghem, Katrien J.J., and Wilson, Peter

Abstract

The BRITICE-CHRONO consortium of researchers undertook a dating programme to constrain the timing of advance, maximum extent and retreat of the British–Irish Ice Sheet between 31 000 and 15 000 years before present. The dating campaign across Ireland and Britain and their continental shelves, and across the North Sea included 1500 days of field investigation yielding 18 000 km of marine geophysical data, 377 cores of sea floor sediments, and geomorphological and stratigraphical information at 121 sites on land; generating 690 new geochronometric ages. These findings are reported in 28 publications including synthesis into eight transect reconstructions. Here we build ice sheet-wide reconstructions consistent with these findings and using retreat patterns and dates for the inter-transect areas. Two reconstructions are presented, a wholly empirical version and a version that combines modelling with the new empirical evidence. Palaeoglaciological maps of ice extent, thickness, velocity, and flow geometry at thousand-year timesteps are presented. The maximum ice volume of 1.8 m sea level equivalent occurred at 23 ka. A larger extent than previously defined is found and widespread advance of ice to the continental shelf break is confirmed during the last glacial. Asynchrony occurred in the timing of maximum extent and onset of retreat, ranging from 30 to 22 ka. The tipping point of deglaciation at 22 ka was triggered by ice stream retreat and saddle collapses. Analysis of retreat rates leads us to accept our hypothesis that the marine-influenced sectors collapsed rapidly. First order controls on ice-sheet demise were glacio-isostatic loading triggering retreat of marine sectors, aided by glaciological instabilities and then climate warming finished off the smaller, terrestrial ice sheet. Overprinted on this signal were second order controls arising from variations in trough topographies and with sector-scale ice geometric readjustments arising from dispositions in the ge

Published
2022

15. 60 million years of glaciation in the Transantarctic Mountains

Author

Barr, Iestyn D, Spagnolo, Matteo, Rea, Brice R, Bingham, Robert G, Oien, Rachel P, Adamson, Kathryn, Ely, Jeremy C, Mullan, Donal J, Pellitero, Ramón, Tomkins, Matt D, Barr, Iestyn D, Spagnolo, Matteo, Rea, Brice R, Bingham, Robert G, Oien, Rachel P, Adamson, Kathryn, Ely, Jeremy C, Mullan, Donal J, Pellitero, Ramón, and Tomkins, Matt D

Abstract

The Antarctic continent reached its current polar location ~83 Ma and became shrouded by ice sheets ~34 Ma, coincident with dramatic global cooling at the Eocene-Oligocene boundary. However, it is not known whether the first Antarctic glaciers formed immediately prior to this or were present significantly earlier. Here we show that mountain glaciers were likely present in the Transantarctic Mountains during the Late Palaeocene (~60–56 Ma) and middle Eocene (~48–40 Ma). Temperate (warm-based) glaciers were prevalent during the Late Eocene (~40–34 Ma) and, in reduced numbers, during the Oligocene (~34–23 Ma), before larger, likely cold-based, ice masses (including ice sheets) dominated. Some temperate mountain glaciers were present during the Miocene Climatic Optimum (~15 Ma), before a widespread switch to cold-based glaciation. Our findings highlight the longevity of glaciation in Antarctica and suggest that glaciers were present even during the Early-Cenozoic greenhouse world.

Published
2022

17. Effects of basal topography and ice-sheet surface slope in a subglacial glaciofluvial deposition model.

Author

Stevens, David, Ely, Jeremy C., Livingstone, Stephen J., Clark, Chris D., Butcher, Frances E. G., and Hewitt, Ian

Subjects
SURFACE topography, SUBGLACIAL lakes, SEDIMENTATION & deposition, SEDIMENT transport, ICE sheets, TOPOGRAPHY
Abstract

We use a mathematical model to investigate the effect of basal topography and ice surface slope on transport and deposition of sediment within a water-filled subglacial channel. In our model, three zones of different behaviour occur. In the zone furthest upstream, variations in basal topography lead to sediment deposition under a wide range of conditions. In this first zone, even very small and gradually varying basal undulations (~5 m amplitude) can lead to the deposition of sediment within a modelled channel. Deposition is concentrated on the downstream gradient of subglacial ridges, and on the upstream gradient of subglacial troughs. The thickness and steepness of the ice sheet has a substantial impact on deposition rates, with shallow ice profiles strongly promoting both the magnitude and extent of sediment deposition. In a second zone, all sediment is transported downstream. Finally, a third zone close to the ice margin is characterised by high rates of sediment deposition. The existence of these zones has implications for esker formation and the dynamics of the subglacial environment. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Exploring the extent to which fluctuations in ice‐rafted debris reflect mass changes in the source ice sheet: a model–observation comparison using the last British–Irish Ice Sheet

Author

Wilton, David J., Bigg, Grant R., Scourse, James D., Ely, Jeremy C., Clark, Chris D., Wilton, David J., Bigg, Grant R., Scourse, James D., Ely, Jeremy C., and Clark, Chris D.

Abstract

The British and Irish Ice Sheet (BIIS) was highly dynamic during the Late Quaternary, with considerable regional differences in the timing and extent of its change. This was reflected in equally variable offshore ice‐rafted debris (IRD) records. Here we reconcile these two records using the FRUGAL intermediate complexity iceberg–climate model, with varying BIIS catchment‐level iceberg fluxes, to simulate change in IRD origin and magnitude along the western European margin at 1000‐year time steps during the height of the last BIIS glaciation (31–6 ka bp). This modelled IRD variability is compared with existing IRD records from the deep ocean at five cores along this margin. There is general agreement of the temporal and spatial IRD variability between observations and model through this period. The Porcupine Bank off northwestern Ireland was confirmed by the modelling as a major dividing line between sites possessing exclusively northern or southern source regions for offshore IRD. During Heinrich events 1 and 2, the cores show evidence of a proportion of North American IRD, more particularly to the south of the British Isles. Modelling supports this southern bias for likely Heinrich impact, but also suggests North American IRD will only reach the British margin in unusual circumstances.

Published
2021
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20. Recent progress on combining geomorphological and geochronological data with ice sheet modelling, demonstrated using the last British–Irish Ice Sheet

Author

Ely, Jeremy C., Clark, Chris D., Hindmarsh, Richard C.A., Hughes, Anna L.C., Greenwood, Sarah L., Bradley, Sarah L., Gasson, Edward, Gregoire, Lauren, Gandy, Niall, Stokes, Chris R., Small, David, Ely, Jeremy C., Clark, Chris D., Hindmarsh, Richard C.A., Hughes, Anna L.C., Greenwood, Sarah L., Bradley, Sarah L., Gasson, Edward, Gregoire, Lauren, Gandy, Niall, Stokes, Chris R., and Small, David

Abstract

Palaeo-ice sheets are important analogues for understanding contemporary ice sheets, offering a record of ice sheet behaviour that spans millennia. There are two main approaches to reconstructing palaeo-ice sheets. Empirical reconstructions use the available glacial geological and chronological evidence to estimate ice sheet extent and dynamics but lack direct consideration of ice physics. In contrast, numerically modelled simulations implement ice physics, but often lack direct quantitative comparison with empirical evidence. Despite being long identified as a fruitful scientific endeavour, few ice sheet reconstructions attempt to reconcile the empirical and model-based approaches. To achieve this goal, model-data comparison procedures are required. Here, we compare three numerically modelled simulations of the former British–Irish Ice Sheet with the following lines of evidence: (a) position and shape of former margin positions, recorded by moraines; (b) former ice-flow direction and flow-switching, recorded by flowsets of subglacial bedforms; and (c) the timing of ice-free conditions, recorded by geochronological data. These model–data comparisons provide a useful framework for quantifying the degree of fit between numerical model simulations and empirical constraints. Such tools are vital for reconciling numerical modelling and empirical evidence, the combination of which will lead to more robust palaeo-ice sheet reconstructions with greater explicative and ultimately predictive power.

Published
2021

21. ATAT 1.1, the Automated Timing Accordance Tool for comparing ice-sheet model output with geochronological data

Author

Ely, Jeremy C., Clark, Chris D., Small, David, Hindmarsh, Richard, Ely, Jeremy C., Clark, Chris D., Small, David, and Hindmarsh, Richard

Abstract

Earth's extant ice sheets are of great societal importance given their ongoing and potential future contributions to sea-level rise. Numerical models of ice sheets are designed to simulate ice-sheet behaviour in response to climate changes but to be improved require validation against observations. The direct observational record of extant ice sheets is limited to a few recent decades, but there is a large and growing body of geochronological evidence spanning millennia constraining the behaviour of palaeo-ice sheets. Hindcasts can be used to improve model formulations and study interactions between ice sheets, the climate system and landscape. However, ice-sheet modelling results have inherent quantitative errors stemming from parameter uncertainty and their internal dynamics, leading many modellers to perform ensemble simulations, while uncertainty in geochronological evidence necessitates expert interpretation. Quantitative tools are essential to examine which members of an ice-sheet model ensemble best fit the constraints provided by geochronological data. We present the Automated Timing Accordance Tool (ATAT version 1.1) used to quantify differences between model results and geochronological data on the timing of ice-sheet advance and/or retreat. To demonstrate its utility, we perform three simplified ice-sheet modelling experiments of the former British–Irish ice sheet. These illustrate how ATAT can be used to quantify model performance, either by using the discrete locations where the data originated together with dating constraints or by comparing model outputs with empirically derived reconstructions that have used these data along with wider expert knowledge. The ATAT code is made available and can be used by ice-sheet modellers to quantify the goodness of fit of hindcasts. ATAT may also be useful for highlighting data inconsistent with glaciological principles or reconstructions that cannot be replicated by an ice-sheet model.

Published
2019

22. Using the size and position of drumlins to understand how they grow, interact and evolve

Author

Ely, Jeremy C., Clark, Chris D., Spagnolo, Matteo, Hughes, Anna L.C., and Stokes, Chris R.

Subjects
subglacial, patterning, bedform, Geography, Planning and Development, Earth and Planetary Sciences (miscellaneous), glacial geomorphology, drumlin, Earth-Surface Processes
Abstract

Drumlins are subglacial bedforms streamlined in the direction of ice flow. Common in deglaciated landscapes, they have been widely studied providing rich information on their internal geology, size, shape, and spacing. In contrast with bedform investigations elsewhere in geomorphology (aeolian and fluvial dunes and ripples for example) most drumlin studies derive observations from relict, and thus static features. This has made it difficult to gain information and insights about their evolution over time, which likely hampers our understanding of the process(es) of drumlin formation. Here we take a morphological approach, studying drumlin size and spacing metrics. Unlike previous studies which have focussed on databases derived from entire ice sheet beds, we adopt a space-for-time substitution approach using individual drumlin flow-sets distributed in space as proxies for different development times/periods. Framed and assisted by insights from aeolian and fluvial geomorphology, we use our metric data to explore possible scenarios of drumlin growth, evolution and interaction. We study the metrics of the size and spacing of 36 222 drumlins, distributed amongst 71 flow-sets, left behind by the former British-Irish Ice Sheet, and ask whether behaviour common to other bedform phenomena can be derived through statistical analysis. Through characterizing and analysing the shape of the probability distribution functions of size and spacing metrics for each flow-set we argue that drumlins grow, and potentially migrate, as they evolve leading to pattern coarsening. Furthermore, our findings add support to the notion that no upper limit to drumlin size exists, and to the idea that perpetual coarsening could occur if given sufficient time. We propose that the framework of process and patterning commonly applied to non-glacial bedforms is potentially powerful for understanding drumlin formation and for deciphering glacial landscapes.

Published
2018

23. BRITICE Glacial Map, version 2 : a map and GIS database of glacial landforms of the last British-Irish Ice Sheet

Author

Clark, Chris D., Ely, Jeremy C., Greenwood, Sarah L., Hughes, Anna L. C., Meehan, Robert, Barr, Iestyn D., Bateman, Mark D., Bradwell, Tom, Doole, Jenny, Evans, David J. A., Jordan, Colm J., Monteys, Xavier, Pellicer, Xavier M., and Sheehy, Michael

Abstract

During the last glaciation, most of the British Isles and the surrounding continental shelf were covered by the British–Irish Ice Sheet (BIIS). An earlier compilation from the existing literature (BRITICE version 1) assembled the relevant glacial geomorphological evidence into a freely available GIS geodatabase and map (Clark et al. 2004: Boreas 33, 359). New high-resolution digital elevation models, of the land and seabed, have become available casting the glacial landform record of the British Isles in a new light and highlighting the shortcomings of the V.1 BRITICE compilation. Here we present a wholesale revision of the evidence, onshore and offshore, to produce BRITICE version 2, which now also includes Ireland. All published geomorphological evidence pertinent to the behaviour of the ice sheet is included, up to the census date of December 2015. The revised GIS database contains over 170 000 geospatially referenced and attributed elements – an eightfold increase in information from the previous version. The compiled data include: drumlins, ribbed moraine, crag-and-tails, mega-scale glacial lineations, glacially streamlined bedrock (grooves, roches moutonnées, whalebacks), glacial erratics, eskers, meltwater channels (subglacial, lateral, proglacial and tunnel valleys), moraines, trimlines, cirques, trough-mouth fans and evidence defining ice-dammed lakes. The increased volume of features necessitates different map/database products with varying levels of data generalization, namely: (i) an unfiltered GIS database containing all mapping; (ii) a filtered GIS database, resolving data conflicts and with edits to improve geo-locational accuracy (available as GIS data and PDF maps); and (iii) a cartographically generalized map to provide an overview of the distribution and types of features at the ice-sheet scale that can be printed at A0 paper size at a 1:1 250 000 scale. All GIS data, the maps (as PDFs) and a bibliography of all published sources are available for download from: https://www.sheffield.ac.uk/geography/staff/clark_chris/britice.

Published
2018

24. Spatial organization of drumlins

Author

Clark, Chris D., Ely, Jeremy C., Spagnolo, Matteo, Hahn, Ute, Hughes, Anna L.C., and Stokes, Chris R.

Subjects
regularity, 010504 meteorology & atmospheric sciences, Spatial organisation, Ice stream, Drumlin, Geography, Planning and Development, 010502 geochemistry & geophysics, 01 natural sciences, Instability, Paleontology, Earth and Planetary Sciences (miscellaneous), Spatial analysis, Geomorphology, Spatial organization, 0105 earth and related environmental sciences, Earth-Surface Processes, Self-organization, geography, geography.geographical_feature_category, patterning, self-organization, Large sample, sub-glacial bedforms, drumlins, Geology
Abstract

Ice-sheets flowing over soft sediments produce undulations in the bed, typically of metres in relief, of which drumlins are the most abundant and widely investigated. Consensus regarding their mechanism of formation has yet to be achieved. In this paper we examine the spatial organization of drumlins in order to provide an improved description of the phenomenon and to guide hypotheses of their formation. We review the literature highlighting contradictory findings regarding drumlin spatial organization and then use this to motivate our study based on a large sample (42 488) of drumlins from Canada, Britain and Norway. Are there typical arrangements in drumlin positioning and are they organized in a regular spatial manner (patterned) or are they distributed randomly? We recognize that drumlin fields are inherently patchy and therefore apply inhomogeneous spatial statistics in order to study their distribution. This shows that whilst drumlins are occasionally randomly placed, their main state is non- random. They exhibit a strong and statistically significant signal of regularity across lengths scales of 100 to 1200 m. We conclude that patterning is a near ubiquitous property of drumlins. This finding of regularity demonstrates spatial self-organization in the bedforming process with drumlins as an emergent manifestation of sub-glacial sediment mobility. Kilometre-scale interactions between drumlins must occur as they evolve, or interactions may arise as a consequence of growth or migration. Hypotheses or models are required that can explain the regular spacing of drumlins. We highlight three suggestions for such self-organization: instability in the coupling of ice flow–sediment flux–bed shape; local feedback between sediment mobility and relief; and coarsening by growth or migration.

Published
2018

27. Progressive ductile shearing during till accretion within the deforming bed of a palaeo-ice stream

Author

Phillips, Emrys, Spagnolo, Matteo, Pilmer, Alasdair C.J., Rea, Brice R., Piotrowski, Jan A., Ely, Jeremy C., Carr, Simon, Phillips, Emrys, Spagnolo, Matteo, Pilmer, Alasdair C.J., Rea, Brice R., Piotrowski, Jan A., Ely, Jeremy C., and Carr, Simon

Abstract

This paper presents the results of a detailed microstructural study of a thick till formed beneath the Weichselian (Devensian) Odra palaeo-ice stream, west of Środa Wielkopolska, Poland. This SE-flowing ice stream was one of a number of corridors of faster flowing ice which drained the Scandinavian Ice Sheet in the Baltic region. Macroscopically, the massive, laterally extensive till which formed the bed of this ice stream lacks any obvious evidence of glaciotectonism (thrusting, folding). However, microscale analysis reveals that bed deformation was dominated by foliation development, recording progressive ductile shearing within a subhorizontal subglacial shear zone. Five successive generations of clast microfabric (S1 to S5) have been identified defining a set of up-ice and down-ice dipping Riedel shears, as well as a subhorizontal shear foliation coplanar to the ice-bed interface. Cross-cutting relationships between the shear fabrics record temporal changes in the style of deformation during this progressive shear event. Kinematic indicators (S-C and ECC-type fabrics) within the till indicate a consistent SE-directed shear sense, in agreement with the regional ice flow pattern. A model of bed deformation involving incremental progressive simple shear during till accretion is proposed. The relative age of this deformation was diachronous becoming progressively younger upwards, compatible with subglacial shearing having accompanied till accretion at the top of the deforming bed. Variation in the relative intensity of the microfabrics records changes in the magnitude of the cumulative strain imposed on the till and the degree of coupling between the ice and underlying bed during fast ice flow.

Published
2018

28. Devising quality assurance procedures for assessment of legacy geochronological data relating to deglaciation of the last British-Irish Ice Sheet

Author

Small, David, Clark, Chris D., Chiverrell, Richard C., Smedley, Rachel K., Bateman, Mark D., Duller, Geoff A.T., Ely, Jeremy C., Fabel, Derek, Medialdea, Alicia, and Moreton, Steven G.

Subjects
Deglaciation, GB, Geochronology, Earth and Planetary Sciences(all), British-Irish Ice Sheet, Bayesian, Quality assurance, Data compilations
Abstract

This contribution documents the process of assessing the quality of data within a compilation of legacy geochronological data relating to the last British-Irish Ice Sheet, a task undertaken as part of a larger community-based project (BRITICE-CHRONO) that aims to improve understanding of the ice sheet's deglacial evolution. As accurate reconstructions depend on the quality of the available data, some form of assessment is needed of the reliability and suitability of each given age(s) in our dataset. We outline the background considerations that informed the quality assurance procedures devised given our specific research question. We describe criteria that have been used to make an objective assessment of the likelihood that an age is influenced by the technique specific sources of geological uncertainty. When these criteria were applied to an existing database of all geochronological data relating to the last British-Irish Ice Sheet they resulted in a significant reduction in data considered suitable for synthesis. The assessed data set was used to test a Bayesian approach to age modelling ice stream retreat and we outline our procedure that allows us to minimise the influence of potentially erroneous data and maximise the accuracy of the resultant age models.

Published
2017

30. The periodic topography of ice stream beds: insights from the Fourier spectra of mega-scale glacial lineations

Author

Spagnolo, Matteo, Bartholomaus, Timothy C., Clark, Chris D., Stokes, Chris R., Atkinson, Nigel, Dowdeswell, Julian A., Ely, Jeremy C., Graham, Alistair G.C., Hogan, Kelly A., King, Edward C., Larter, Robert D., Livingstone, Stephen J., Pritchard, Hamish D., Spagnolo, Matteo, Bartholomaus, Timothy C., Clark, Chris D., Stokes, Chris R., Atkinson, Nigel, Dowdeswell, Julian A., Ely, Jeremy C., Graham, Alistair G.C., Hogan, Kelly A., King, Edward C., Larter, Robert D., Livingstone, Stephen J., and Pritchard, Hamish D.

Abstract

Ice stream bed topography contains key evidence for the ways ice streams interact with, and are potentially controlled by, their beds. Here we present the first application of two–dimensional Fourier analysis to 22 marine and terrestrial topographies from 5 regions in Antarctica and Canada, with and without mega-scale glacial lineations (MSGLs). We find that the topography of MSGL-rich ice stream sedimentary beds is characterized by multiple, periodic wavelengths between 300 and 1200 m and amplitudes from decimeters to a few meters. This periodic topography is consistent with the idea that instability is a key element to the formation of MSGL bedforms. Dominant wavelengths vary among locations and, on one paleo ice stream bed, increase along the direction of ice flow by 1.7±0.52% km-1. We suggest that these changes are likely to reflect pattern evolution via downstream wavelength coarsening, even under potentially steady ice stream geometry and flow conditions. The amplitude of MSGLs is smaller than that of other fluvial and glacial topographies, but within the same order of magnitude. However, MSGLs are a striking component of ice stream beds because the topographic amplitude of features not aligned with ice flow is reduced by an order of magnitude relative to those oriented with the flow direction. This study represents the first attempt to automatically derive the spectral signatures of MSGLs. It highlights the plausibility of identifying these landform assemblages using automated techniques and provides a benchmark for numerical models of ice stream flow and subglacial landscape evolution.

Published
2017

34. Ice stream motion facilitated by a shallow-deforming and accreting bed

Author

Spagnolo, Matteo, Phillips, Emrys, Piotrowski, Jan A., Rea, Brice R., Clark, Chris D., Stokes, Chris R., Carr, Simon J., Ely, Jeremy C., Ribolini, Adriano, Wysota, Wojciech, Szuman, Izabela, Spagnolo, Matteo, Phillips, Emrys, Piotrowski, Jan A., Rea, Brice R., Clark, Chris D., Stokes, Chris R., Carr, Simon J., Ely, Jeremy C., Ribolini, Adriano, Wysota, Wojciech, and Szuman, Izabela

Abstract

Ice streams drain large portions of ice sheets and play a fundamental role in governing their response to atmospheric and oceanic forcing, with implications for sea-level change. The mechanisms that generate ice stream flow remain elusive. Basal sliding and/or bed deformation have been hypothesized, but ice stream beds are largely inaccessible. Here we present a comprehensive, multi-scale study of the internal structure of mega-scale glacial lineations (MSGLs) formed at the bed of a palaeo ice stream. Analyses were undertaken at macro- and microscales, using multiple techniques including X-ray tomography, thin sections and ground penetrating radar (GPR) acquisitions. Results reveal homogeneity in stratigraphy, kinematics, granulometry and petrography. The consistency of the physical and geological properties demonstrates a continuously accreting, shallow-deforming, bed and invariant basal conditions. This implies that ice stream basal motion on soft sediment beds during MSGL formation is accommodated by plastic deformation, facilitated by continuous sediment supply and an inefficient drainage system.

Published
2016

35. Size, shape and spatial arrangement of mega-scale glacial lineations, and implications for ice stream basal processes

Author

Spagnolo, Matteo, Clark, Chris D., Ely, Jeremy C., Stokes, Chris R., Anderson, John B., Andreassen, Karin, Graham, Alastair G.C., and King, Edward C.

Abstract

Mega-scale glacial lineations (MSGLs) are a characteristic landform on ice stream beds. Solving the puzzle of their formation is key to understanding how ice interacts with its bed and how this, in turn, influences the dynamics of ice streams. However, a comprehensive and detailed characterisation of this landform's size, shape and spatial arrangement, which might serve to test and refine formational theories, is largely lacking. This paper presents a detailed morphometric analysis and comparison of 4043 MSGLs from eight palaeo-ice stream settings: three offshore (Norway and Antarctica), four onshore (Canada), and one from under a modern ice stream in West Antarctica. The length of MSGLs is lower than previously suggested (mode 1000-2000 m; median 2892 m), and they initiate and terminate at various locations on an ice stream bed. Their spatial arrangement reveals a pattern that is characterised by an exceptional parallel conformity (80% of all mapped MSGLs have an azimuth within 5 degrees from the mean values), and a fairly constant lateral spacing (mode 200-300 m; median 330 m), which we interpret as an indication that MSGLs are a spatially self-organised phenomenon. Results show that size, shape and spatial arrangement of MSGLs are consistent both within and also generally between different ice stream beds. We suggest this results from a common mechanism of formation, which is largely insensitive to local factors. Although the elongation of MSGLs (mode 6-8; median 12.2) is typically higher than features described as drumlins, these values and those of their width (mode 100-200 m; median 268 m) overlap, which suggests the two landforms are part of a morphological continuum and may share a similar origin. We compare their morphometry to explicit predictions made by the groove-ploughing and rilling instability theories of MSGL formation. Although the latter was most compatible, neither is fully supported by observations.

Published
2014

37. Ice stream motion facilitated by a shallow-deforming and accreting bed

Author

Spagnolo, Matteo, primary, Phillips, Emrys, additional, Piotrowski, Jan A., additional, Rea, Brice R., additional, Clark, Chris D., additional, Stokes, Chris R., additional, Carr, Simon J., additional, Ely, Jeremy C., additional, Ribolini, Adriano, additional, Wysota, Wojciech, additional, and Szuman, Izabela, additional

Published
2016
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38. ATAT 1.0, an Automated Timing Accordance Tool for comparing ice-sheet model output with geochronological data.

Author

Ely, Jeremy C., Clark, Chris D., Small, David, and Hindmarsh, Richard C. A.

Subjects
*ICE sheets, *CLIMATE change, *NUMERICAL analysis, *MATHEMATICAL models
Abstract

Earth's extant ice sheets are of great societal importance given their ongoing and potential future contributions to sea-level rise. Numerical models of ice sheets are designed to simulate ice sheet behaviour in response to climate changes, but to be improved require validation against observations. The direct observational record of extant ice sheets is limited to a few recent decades, but there is a large and growing body of geochronological evidence spanning millennia constraining the behaviour of palaeo-ice sheets. Hindcasts can be used to improve model formulations and study interactions between ice sheets, the climate system and landscape. However, ice-sheet modelling results have inherent quantitative errors stemming from parameter uncertainty and their internal dynamics, leading many modellers to perform ensemble simulations, while uncertainty in geochronological evidence necessitates expert interpretation. Quantitative tools are essential to examine which members of an ice-sheet model ensemble best fit the constraints provided by geochronological data. We present an Automated Timing Accordance Tool (ATAT version 1.0) used to quantify differences between model results and geo-data on the timing of ice sheet advance and/or retreat. To demonstrate its utility, we perform three simplified ice-sheet modelling experiments of the former British-Irish Ice Sheet. These illustrate how ATAT can be used to quantify model performance, either by using the discrete locations where the data originated together with dating constraints or by comparing model outputs with empirically-derived reconstructions that have used these data along with wider expert knowledge. The ATAT code is made available and can be used by ice-sheet modellers to quantify the goodness of fit of hindcasts. ATAT may also be useful for highlighting data inconsistent with glaciological principles or reconstructions that cannot be replicated by an ice sheet model. [ABSTRACT FROM AUTHOR]

Published
2018
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39. Looking through drumlins: testing the application of ground-penetrating radar

Author

Spagnolo, Matteo, King, Edward C., Ashmore, David W., Rea, Brice R., Ely, Jeremy C., Clark, Chris D., Spagnolo, Matteo, King, Edward C., Ashmore, David W., Rea, Brice R., Ely, Jeremy C., and Clark, Chris D.

Abstract

Ground-penetrating radar (GPR) is becoming a commonly applied technique in geomorphology. However, its use in the study of subglacial bedforms has yet to be fully explored and exploited. This paper presents the results of a GPR feasibility study conducted on a drumlinized terrain in Cumbria, UK, where five drumlins were investigated using multiple radar antenna frequencies. The site was selected for the presence of nearby bedrock outcrops, suggesting a shallow drumlinized diamict–bedrock contact and a permeable lithology. Despite the clayey sediment and unfavourable weather conditions, a considerable penetration depth of �12m was achieved when using a 50MHz antenna, with a separation of 1 m, trace spacing of 1m and 128-fold vertical stack. Results indicate that the drumlinized diamict is in direct erosional contact with the bedrock. While the internal drumlin geometry is generally chaotic on the stoss side, evidence of layering dipping downflow at an angle greater than the drumlin surface profile was found on the lee side. The inter-drumlin areas comprise �4m of infill sediment that masks part of the original drumlin profile. Overall, this study indicates that GPR can be deployed successfully in the study of glacial bedform sedimentary architecture.

Published
2014

40. Flow-stripes and foliations of the Antarctic ice sheet.

Author

Ely, Jeremy C. and Clark, Chris D.

Subjects
*CARTOGRAPHY, *MAPS
Abstract

Longitudinal surface structures (LSSs) are flow parallel curvilineations visible on satellite imagery which are commonly observed on ice shelves, ice streams and glaciers. Their distribution and genesis has the ability to inform us about ice sheet history and glacial processes. Multiple hypotheses have been proposed for their formation. Here, we present continental-scale mapping of these features across the entire Antarctic ice sheet. The accompanying map details 42,311 polylines representing LSSs identified on satellite imagery (Landsat, RADARSAT and MODIS). The subtlety of these features provides many challenges for their identification and mapping. This work will provide the basis for future research on the morphology and formative conditions of these features in order to shed light on their genesis. [ABSTRACT FROM PUBLISHER]

Published
2016
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41. The role of ice streams in the demise of the British-Irish Ice Sheet

Author

Gandy, Niall, Gregoire, Lauren J., Ely, Jeremy C., Clark, Christopher D., Hodgson, David M., and Phillips, Emrys

Subjects
551.31
Abstract

Accurate projection of the future evolution of the Greenland and Antarctic ice sheets is a key challenge of glaciology and climate science. Ice sheet flow is dominated by ice streams; narrow corridors of fast flow bounded laterally by slower flowing ice, discharging the majority of ice from an ice sheet. These ice streams are particularly vulnerable to retreat, and their behaviour evolves along with the ice sheet as a whole. These interactions contribute to uncertainty in projections of ice sheet evolution. In part, this uncertainty can be addressed by examining the palaeo record, providing information on ice stream behaviour over thousands of years. This thesis presents a series of simulations of the British-Irish Ice Sheet using the latest generation BISICLES ice sheet model. Model simulations are used to determine the role of ice streams in the demise of the British-Irish Ice Sheet. First, BISICLES is used to examine the dynamical processes that control the retreat of a major ice stream of the British-Irish Ice Sheet, and this demonstrates vulnerability of the ice stream to Marine Ice Sheet Instability. Then a new basal sliding scheme is implemented coupled with thermo-mechanics, and this successfully models the placement and spacing of the majority of British-Irish Ice Sheet ice streams. Finally, simulations of the deglaciation style of the North Sea demonstrate the significant influence of the Norwegian Channel Ice Stream. Through these simulations, in combination with novel model-data comparison techniques, the considerable role of ice streams in the demise of the British-Irish Ice Sheet is shown. Ice stream evolution and interaction with other factors driving deglaciation needs to be adequately considered in the aim of projecting the future evolution of the Antarctic and Greenland ice sheets. Research such as presented here, modelling and reconstructing palaeo ice sheets, continues to advance this aim.

Published
2020

42. Tunnel valley formation beneath deglaciating mid-latitude ice sheets: Observations and modelling

Author

James D. Kirkham, Kelly A. Hogan, Robert D. Larter, Neil S. Arnold, Jeremy C. Ely, Chris D. Clark, Ed Self, Ken Games, Mads Huuse, Margaret A. Stewart, Dag Ottesen, Julian A. Dowdeswell, Kirkham, James D [0000-0002-0506-1625], Larter, Robert D [0000-0002-8414-7389], Arnold, Neil S [0000-0001-7538-3999], Ely, Jeremy C [0000-0003-4007-1500], and Apollo - University of Cambridge Repository

Subjects
Archeology, Global and Planetary Change, 13 Climate Action, Geology, 37 Earth Sciences, 3705 Geology, 3709 Physical Geography and Environmental Geoscience, Ecology, Evolution, Behavior and Systematics
Abstract

The geological record of landforms and sediments produced beneath deglaciating ice sheets offers insights into inaccessible glacial processes. Large subglacial valleys formed by meltwater erosion of sediments (tunnel valleys) are widespread in formerly glaciated regions such as the North Sea. Obtaining a better understanding of these features may help with the parameterisation of basal melt rates and the interplay between basal hydrology and ice dynamics in numerical models of past, present, and future ice-sheet configurations. However, the mechanisms and timescales over which tunnel valleys form remain poorly constrained. Here, we present a series of numerical modelling experiments, informed by new observations from high-resolution 3D seismic data (6.25 m bin size, ∼4 m vertical resolution), which test different hypotheses of tunnel valley formation and calculate subglacial water routing, seasonal water discharges, and the rates at which tunnel valleys are eroded beneath deglaciating ice sheets. Networks of smaller or abandoned channels, pervasive slump deposits, and subglacial landforms are imaged inside and at the base of larger tunnel valleys, indicating that these tunnel valleys were carved through the action of migrating smaller channels within tens of kilometres of the ice margin and were later widened by ice-contact erosion. Our model results imply that the drainage of extensive surface meltwater to the ice-sheet bed is the dominant mechanism responsible for tunnel valley formation; this process can drive rapid incision of networks of regularly spaced subglacial tunnel valleys beneath the fringes of retreating ice sheets within hundreds to thousands of years during deglaciation. Combined, our observations and modelling results identify how tunnel valleys form beneath deglaciating mid-latitude ice sheets and have implications for how the subglacial hydrological systems of contemporary ice sheets may respond to sustained climate warming.

Published
2022
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