1. Ice-contact proglacial lakes associated with the Last Glacial Maximum across the Southern Alps, New Zealand.
- Author
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Sutherland, Jenna L., Carrivick, Jonathan L., Shulmeister, James, Quincey, Duncan J., and James, William H.M.
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LAST Glacial Maximum , *MELTWATER , *GLACIAL landforms , *SUBGLACIAL lakes , *ALPINE glaciers , *LAKES , *ICE calving , *LAKE sediments - Abstract
Proglacial lakes can affect the stability of mountain glaciers and can partly disengage glacier behaviour from climatic perturbations. However, their role in controlling the onset and progression of deglaciation from the Last Glacial Maximum (LGM) remains poorly understood. This lack of understanding is partly because the evidence required to consistently and robustly identify the location and evolution of ice-contact lakes is not standardised. In this paper we therefore firstly present a new set of criteria for identifying the landform and sedimentary evidence that defines and characterises ice-marginal lakes. Secondly, we then apply these key criteria with the aid of high-resolution topographic mapping to produce the first holistic definition and assessment of major proglacial lake landforms and sediments pertaining to the end of the LGM across South Island, New Zealand. The major findings of this assessment can be grouped to include that: (i) The localised constraints to proglacial lake extent were topography, glacier size and meltwater/sediment fluxes, (ii) Lake damming was initiated by outwash fan-heads that interrupted water and sediment flows down-valley, and (iii) New Zealand LGM lakes were unequivocally in contact with a calving ice margin. These findings will be useful for reconstructing ice dynamics and landscape evolution in this region. • Key criteria to identify, characterise and interpret landforms and sediments associated with ice-contact proglacial lakes. • Exploitation of high-resolution LiDAR topographic data for proglacial lakes across South Island, New Zealand. • Synthesis analysis of the 3D geometry, landforms and sediments, and interpretation of the evolution of New Zealand LGM lakes. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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