All Outputs (5)

Testing models of ice cap extent, South Georgia, sub-Antarctic (2016)
Journal Article
Barlow, N., Bentley, M., Spada, G., Evans, D., Hansom, J., Brader, M., …Berg, S. (2016). Testing models of ice cap extent, South Georgia, sub-Antarctic. Quaternary Science Reviews, 154, 157-168. https://doi.org/10.1016/j.quascirev.2016.11.007

The extent of Last Glacial Maximum ice in South Georgia is contested, with two alternative hypotheses: an extensive (maximum) model of ice reaching the edge of the continental shelf, or a restricted (minimum) model with ice constrained within the inn... Read More about Testing models of ice cap extent, South Georgia, sub-Antarctic.

Dynamics of former ice lobes of the southernmost Patagonian Ice Sheet based on a glacial landsystems approach (2016)
Journal Article
Darvill, C., Stokes, C., Bentley, M., Evans, D., & Lovell, H. (2016). Dynamics of former ice lobes of the southernmost Patagonian Ice Sheet based on a glacial landsystems approach. Journal of Quaternary Science, 32(6), 857-876. https://doi.org/10.1002/jqs.2890

Reconstructions of former ice masses from glacial geomorphology help to constrain the nature and timing of glaciation in relation to climatic forcing. This paper presents a new reconstruction of the glacial history of five ice lobes in southernmost S... Read More about Dynamics of former ice lobes of the southernmost Patagonian Ice Sheet based on a glacial landsystems approach.

A sclerochronological archive for Antarctic coastal waters based on the marine bivalve Yoldia eightsi (Jay, 1839) from the South Orkney Islands (2016)
Journal Article
Román-González, A., Scourse, J. D., Richardson, C. A., Peck, L. S., Bentley, M. J., & Butler, P. G. (2017). A sclerochronological archive for Antarctic coastal waters based on the marine bivalve Yoldia eightsi (Jay, 1839) from the South Orkney Islands. Holocene, 27(2), 271-281. https://doi.org/10.1177/0959683616658525

The scarcity of long instrumental series from the Southern Ocean limits our understanding of key climate and environmental feedbacks within the Antarctic system. We present an assessment for the Antarctic mollusc bivalve Yoldia eightsi as an Antarcti... Read More about A sclerochronological archive for Antarctic coastal waters based on the marine bivalve Yoldia eightsi (Jay, 1839) from the South Orkney Islands.

The timing and cause of glacial advances in the southern mid-latitudes during the last glacial cycle based on a synthesis of exposure ages from Patagonia and New Zealand (2016)
Journal Article
Darvill, C., Bentley, M., Stokes, C., & Shulmeister, J. (2016). The timing and cause of glacial advances in the southern mid-latitudes during the last glacial cycle based on a synthesis of exposure ages from Patagonia and New Zealand. Quaternary Science Reviews, 149, 200-214. https://doi.org/10.1016/j.quascirev.2016.07.024

Glacier advances in the southern mid-latitudes during the last glacial cycle (ca. 110–10 ka) were controlled by changes in temperature and precipitation linked to several important ocean-climate systems. As such, the timing of glacial advance and ret... Read More about The timing and cause of glacial advances in the southern mid-latitudes during the last glacial cycle based on a synthesis of exposure ages from Patagonia and New Zealand.

Glacial isostatic adjustment associated with the Barents Sea ice sheet: a modelling inter-comparison (2016)
Journal Article
Auriac, A., Whitehouse, P., Bentley, M., Patton, H., Lloyd, J., & Hubbard, A. (2016). Glacial isostatic adjustment associated with the Barents Sea ice sheet: a modelling inter-comparison. Quaternary Science Reviews, 147, 122-135. https://doi.org/10.1016/j.quascirev.2016.02.011

The 3D geometrical evolution of the Barents Sea Ice Sheet (BSIS), particularly during its late-glacial retreat phase, remains largely ambiguous due to the paucity of direct marine- and terrestrial-based evidence constraining its horizontal and vertic... Read More about Glacial isostatic adjustment associated with the Barents Sea ice sheet: a modelling inter-comparison.