Rebecca J. Sanderson scite author profile

Rebecca J. Sanderson

3Publications

64Citation Statements Received

475Citation Statements Given

How they've been cited

How they cite others

285

464

Affiliations

Newcastle University, Northumbria University

Publications

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Subglacial lakes and their changing role in a warming climate

Livingstone

Rutishauser

et al. 2022

Nat Rev Earth Environ

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Subglacial lakes store ancient climate records, provide habitats for life, and modulate ice flow, basal hydrology, biogeochemical fluxes and geomorphic activity. In this Review, we construct the first global inventory of 773 subglacial lakes, including 675 from Antarctica (59 newly identified in this study), 64 from Greenland, 2 beneath Devon Ice Cap, 6 beneath Iceland's ice caps, and 26 from valley glaciers. The inventory is used to evaluate subglacial lake environments, dynamics, and their wider impact on ice flow and sediment transport. We suggest their behaviour is conditioned by the subglacial setting and the hydrologic, dynamic and mass balance regime of the ice mass above. Using space-time substitution, we predict fewer and smaller lakes but increased activity with higher discharge drainages of shorter duration where climate warming causes ice-surface steepening. Coupling to surface melt and rainfall inputs will modulate fill-drain cycles and seasonally enhance oxic processes. Higher discharges cause large, transient ice-flow accelerations, but might result in overall net slowdown due to development of efficient subglacial drainage. Future subglacial lake research requires new drilling technologies, and the integration of geophysics, satellite monitoring and numerical modelling, which will provide new insight into their wider role in a changing Earth system.

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Global synthesis of subglacial lakes and their changing role in a warming climate

Livingstone¹,

Björnsson²,

Bowling³

et al. 2021

Preprint

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<p>Subglacial lakes provide habitats for life and can modulate ice flow, basal hydrology, biogeochemical fluxes and geomorphic activity. They have been identified widely beneath the ice sheets of Antarctica and Greenland, and detected beneath the ice caps on Devon Island and Iceland, and beneath small valley glaciers. Past investigations focussed on lakes beneath individual ice masses. A scientific synthesis of different lake populations has not been made, so a unified understanding of the mechanisms controlling subglacial lake formation, dynamics, and interaction with other parts of the Earth system is lacking. Here, we integrate existing, often disparate data into a global database of subglacial lakes, enabling subglacial lake characteristics and dynamics to be classified. We use this assessment to evaluate how subglacial lakes shape microbial ecosystems and influence ice flow, subglacial drainage, sediment transport and biogeochemical fluxes. Through our global perspective, we examine how subglacial lake characteristics and function depend on the hydrologic, dynamic and mass balance regime of the ice mass beneath which they are located. By applying this synoptic understanding and perspective, we propose a conceptual model for how subglacial lakes and their impacts on the broader environment will change in a warming world.&#160;</p>

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Publisher Correction: Subglacial lakes and their changing role in a warming climate

Livingstone

Rutishauser

et al. 2022

Nat Rev Earth Environ

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