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Supervised classification of slush and ponded water on Antarctic ice shelves using Landsat 8 imagery – CORRIGENDUM

Published online by Cambridge University Press:  04 April 2022

Rebecca L. Dell Open the ORCID record for Rebecca L. Dell [Opens in a new window] ,
Alison F. Banwell Open the ORCID record for Alison F. Banwell [Opens in a new window] ,
Ian C. Willis Open the ORCID record for Ian C. Willis [Opens in a new window] ,
Neil S. Arnold ,
Anna Ruth W. Halberstadt ,
Thomas R. Chudley Open the ORCID record for Thomas R. Chudley [Opens in a new window]  and
Hamish D. Pritchard
Rights & Permissions [Opens in a new window]

Abstract

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Type
Corrigendum
Information
Journal of Glaciology , Volume 68 , Issue 268 , April 2022 , pp. 415 - 416
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

First, a methodological error and a typographic error were found in the accuracy assessment, which affects Sections 3.1 and 4.1 and Tables 2–5 of this paper. During expert interpretation of Shackleton Ice Shelf, one expert erroneously classified pixels from another ice shelf. To solve this, we have removed this set of expert interpretations for the Shackleton Ice Shelf from the accuracy assessment dataset, and the classified data for this ice shelf is therefore now compared against a set of three expert interpretations instead of four. Additionally, the accuracy score reported for slush on Amery Ice Shelf for Expert 4 was a typographic error and has been corrected. This corrigendum presents revised Tables 2–5, with changes to correct for both the expert interpretation and typographic errors presented in bold text. We advise readers to refer to the numbers in these tables when considering data and text related to accuracy scores.

Table 2. Accuracy scores for the intercomparison dataset (the 50 pixels shared by experts for each ice-shelf validation image), listed by expert

Table 3. High-confidence accuracy scores for the intercomparison dataset (the 50 pixels shared by experts for each ice-shelf validation image), listed by expert

Table 4. Accuracy scores for the main validation dataset (which is 200 individual pixels (50 per expert) for each ice-shelf validation image excluding Shackleton for which there are only 150 individual pixels (50 for experts 1-3 only) for the ponded water and slush classes separately. The percentage of pixel confidence scores for each ice shelf are also given.

Table 5. High-confidence accuracy scores for the main validation dataset (which is 200 individual pixels (50 per expert) for each ice-shelf validation image excluding Shackleton for which there are only 150 individual pixels (50 for experts 1-3 only) for the ponded water and slush classes separately.

Second, a few typographic and calculation errors were found in Figure 2, and within Sections 2.4, 3.1, and 4.1. These errors, which are unrelated to the first errors described above, are listed below:

  • Figure 2 states that 200 pixels were sampled per scene; this has been corrected to 250 (see new Figure 2 in this corrigendum). Figure 2 caption also clarifies sampling sizes, which should be noted when referring to both Figure 2 and Section 2.3 of the manuscript.

  • The final paragraph in Section 2.4 states that we present confusion matrices. However, whilst these data are calculated, readers should note we only present the overall accuracy scores.

  • Within the first paragraph of Section 3.1, some of the spreads between accuracy scores are incorrect, and these should be recalculated from the new tables presented below.

  • To correct for the typographic errors within the last paragraph of Section 3.1, we provide the following alternative text: “For the ponded water class, Expert 1 had the lowest agreement with the classifier (Table 3). This was due to the classifier designating certain pixels as slush and ‘other’ (e.g. non-wet surface facies), whereas the expert interpreted the pixels to be ponded water. For the slush class, Expert 4 had the lowest agreement with the classifier (Table 3), which classified certain pixels as ‘other’ that were interpreted to be slush by the expert.”

  • Within Section 4.1 we previously state that “the classifier accuracy was lowest over Amery, achieving 65% accuracy for ponded water and 73% for slush”. This should be corrected to: “the classifier accuracy was lowest over Amery for ponded water (65%), and lowest over Roi Baudouin for slush (72%)”

Third, we would like to add to the Data Availability section that ice shelf boundaries are from the SCAR Antarctic Digital Database, acquired using Quantarctica (Matsuoka and others, Reference Matsuoka2021).

Fig. 2. Workflow detailing the pre-processing, training, and validation steps for creating a supervised classifier to map slush and ponded water across Antarctic ice shelves using GEE. *Sampling sizes of 100,000 and 10,000 pixels for k-means clustering reflect the number of pixels we aimed to sample in GEE, but fewer pixels are retrieved as the sampling function was run on a partially masked image. Other sampled figures reported here reflect the number of sampled pixels retrieved and used.

References

Dell, RL and 6 others (2022) Supervised classification of slush and ponded water on Antarctic ice shelves using Landsat 8 imagery. Journal of Glaciology 68(268), 401414. doi: 10.1017/jog.2021.114Google Scholar
Matsuoka, K and 21 others (2021) Quantarctica, an integrated mapping environment for Antarctica, the Southern Ocean, and sub-Antarctic islands. Environmental Modelling & Software 140, 105015.CrossRefGoogle Scholar
Figure 0

Table 2. Accuracy scores for the intercomparison dataset (the 50 pixels shared by experts for each ice-shelf validation image), listed by expert

Figure 1

Table 3. High-confidence accuracy scores for the intercomparison dataset (the 50 pixels shared by experts for each ice-shelf validation image), listed by expert

Figure 2

Table 4. Accuracy scores for the main validation dataset (which is 200 individual pixels (50 per expert) for each ice-shelf validation image excluding Shackleton for which there are only 150 individual pixels (50 for experts 1-3 only) for the ponded water and slush classes separately. The percentage of pixel confidence scores for each ice shelf are also given.

Figure 3

Table 5. High-confidence accuracy scores for the main validation dataset (which is 200 individual pixels (50 per expert) for each ice-shelf validation image excluding Shackleton for which there are only 150 individual pixels (50 for experts 1-3 only) for the ponded water and slush classes separately.

Figure 4

Fig. 2. Workflow detailing the pre-processing, training, and validation steps for creating a supervised classifier to map slush and ponded water across Antarctic ice shelves using GEE. *Sampling sizes of 100,000 and 10,000 pixels for k-means clustering reflect the number of pixels we aimed to sample in GEE, but fewer pixels are retrieved as the sampling function was run on a partially masked image. Other sampled figures reported here reflect the number of sampled pixels retrieved and used.