Comment on Barrell et al. “Reconciling the Onset of Deglaciation in the Upper Rangitata Valley, Southern Alps, New Zealand” (Quaternary Science Reviews 203 (2019), 141–150.)

Recently, Barrell et al. (2019) published an article that responded to our article (Shulmeister et al., 2018a) on gradual evacuation of ice from the Upper Rangitata Valley, South Island, New Zealand, during the last glaciation. They base their contrasting interpretation of substantial and rapid ice-...

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Bibliographic Details
Main Authors: Shulmeister, James, Fink, David, Winkler, Stefan, Thackray, Glenn D., Borsellino, Rosabella, Hemmingsen, Maree, Rittenour, Tammy M.
Other Authors: Pergamon Press
Format: Text
Language:unknown
Published: Hosted by Utah State University Libraries 2019
Subjects:
Glaciation
Southern Pacific
Quaternary
Geomorphology
Glacial
LGM
Kames
Moraines
CRN
Mapping
Rangitata
Earth Sciences
Geology
Physical Sciences and Mathematics
New Zealand
Pacific
Mackenzie Basin
Online Access:https://digitalcommons.usu.edu/geology_facpub/512
Description
Summary:Recently, Barrell et al. (2019) published an article that responded to our article (Shulmeister et al., 2018a) on gradual evacuation of ice from the Upper Rangitata Valley, South Island, New Zealand, during the last glaciation. They base their contrasting interpretation of substantial and rapid ice-lowering of Rangitata glacier shortly after 18 ka on a revision of our 10Be cosmogenic radionuclide (CRN) chronology and by reference to published sources (e.g. Mabin, 1980, 1987). Their interpretation relies on glacial landform features extracted from a geomorphology map of the central Southern Alps by Barrell et al. (2011). Barrell et al. (2019) highlight that rapid ice recession of the Rangitata glacier is compatible to their results from Mackenzie Basin and Rakaia Valley (Putnam et al., 2013a, b). We highlight four points in response to Barrell et al. (2019):

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