Abstract
Controls on the global distribution of surge-type glaciers hold the keys to a better understanding of surge mechanisms. We investigate correlations between the distribution of surge-type glaciers and climatic and glacier geometry variables, using a new global geodatabase of 2317 surge-type glaciers. The highest densities of surge-type glaciers occur within an optimal climatic envelope bounded by temperature and precipitation thresholds. Across all regions with both surge-type and normal glaciers, the former are larger, especially at the cold, dry end of the climatic spectrum. A species distribution model, Maxent, accurately predicts the major clusters of surge-type glaciers using a series of climatic and glacier geometry variables, but under-predicts clusters found outside the climatically optimal surge zone. We interpret the results in terms of a new enthalpy cycle model. Steady states require a balance between enthalpy gains generated by the balance flux and losses via heat conduction and meltwater discharge. This condition can be most easily satisfied in cold, dry environments (thin, low-flux glaciers, efficient conductive heat losses) and warm, humid environments (high meltwater discharges). Intermediate conditions correspond to the optimal surge zone, where neither heat conduction nor runoff can effectively discharge enthalpy gains, and dynamic cycling can result.
Original language | English |
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Pages (from-to) | 646-662 |
Journal | Journal of Glaciology |
Volume | 61 |
Issue number | 228 |
DOIs | |
Publication status | Published - 1 Sept 2015 |
Keywords
- Energy balance
- Glacier surges
- Ice and climate
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Doug I Benn
- School of Geography & Sustainable Development - Professor of Environmental Change
- Bell-Edwards Geographic Data Institute
- Environmental Change Research Group
Person: Academic