The empirical basis for modelling glacial erosion rates.

doi:10.1038/s41467-020-14583-8

All Outputs (4)

Introducing Patchwork Assessment into Natural Science curricula (2023)
Journal Article
Rogers, S. L., & Knight, P. G. (2023). Introducing Patchwork Assessment into Natural Science curricula. The Journal of Academic Development and Education, https://doi.org/10.21252/gvkg-7e47

Patchwork Assessment (or Patchwork Text Assessment) is an alternative to exams or traditional coursework, and may be particularly appropriate for introduction as part of a module being redesigned for flexible digital delivery. It involves students cr... Read More about Introducing Patchwork Assessment into Natural Science curricula.

Micro-Scale isotopic analysis of ice facies frozen from supercooled water (2020)
Journal Article
Shiggins, C. J., Harris, M. R. P., Knight, P. G., & Fogwill, C. J. (2020). Micro-Scale isotopic analysis of ice facies frozen from supercooled water. Geografiska Annaler: Series A, Physical Geography, 102(2), 104-117. https://doi.org/10.1080/04353676.2020.1762364

Subglacial glaciohydraulic supercooling can form basal ice and affect glacier dynamics, sediment transfer and geomorphology. Whilst isotopic analysis (d18O-dD) of basal ice has demonstrated the significance of supercooling, questions remain as to wha... Read More about Micro-Scale isotopic analysis of ice facies frozen from supercooled water.

The empirical basis for modelling glacial erosion rates (2020)
Journal Article
Cook, S. J., Swift, D. A., Kirkbride, M. P., Knight, P. G., & Waller, R. I. (2020). The empirical basis for modelling glacial erosion rates. Nature communications, 11, Article 759. https://doi.org/10.1038/s41467-020-14583-8

Glaciers are highly effective agents of erosion that have profoundly shaped Earth’s surface, but there is uncertainty about how glacial erosion should be parameterised in landscape evolution models. Glacial erosion rate is usually modelled as a funct... Read More about The empirical basis for modelling glacial erosion rates.

The empirical basis for modelling glacial erosion rates. (2020)
Journal Article
Waller, & Knight. (2020). The empirical basis for modelling glacial erosion rates. Nature communications, https://doi.org/10.1038/s41467-020-14583-8

Glaciers are highly effective agents of erosion that have profoundly shaped Earth's surface, but there is uncertainty about how glacial erosion should be parameterised in landscape evolution models. Glacial erosion rate is usually modelled as a funct... Read More about The empirical basis for modelling glacial erosion rates..