Atmospheric observations of the water vapour continuum in the near-infrared windows between 2500 and 6600&thinsp;cm<sup>−1</sup>

Elsey, Jonathan; Coleman, Marc D.; Gardiner, Tom D.; Menang, Kaah P.; Shine, Keith P.

doi:https://doi.org/10.5194/amt-13-2335-2020

Articles | Volume 13, issue 5

https://doi.org/10.5194/amt-13-2335-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-13-2335-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 13, issue 5

Research article

|

13 May 2020

Research article |

| 13 May 2020

Atmospheric observations of the water vapour continuum in the near-infrared windows between 2500 and 6600 cm⁻¹

Jonathan Elsey, Marc D. Coleman, Tom D. Gardiner, Kaah P. Menang, and Keith P. Shine

Download

Final revised paper (published on 13 May 2020)
Supplement to the final revised paper
Preprint (discussion started on 16 Dec 2019)
Supplement to the preprint

Interactive discussion

Status: closed

AC: Author comment | RC: Referee comment | SC: Short comment | EC: Editor comment

- Printer-friendly version

- Supplement

RC1: 'Review', Anonymous Referee #1, 09 Jan 2020
- AC1: 'Authors response to Reviewer #1', Jon Elsey, 10 Feb 2020
RC2: 'Review amt-2019-403', Anonymous Referee #2, 24 Jan 2020
- AC2: 'Authors response to Reviewer #2', Jon Elsey, 10 Feb 2020
RC3: 'Review addendum', Anonymous Referee #2, 10 Feb 2020
- AC3: 'Authors response to Reviewer #2 Addendum', Jon Elsey, 19 Feb 2020

Peer-review completion

AR: Author's response | RR: Referee report | ED: Editor decision

AR by Jon Elsey on behalf of the Authors (17 Mar 2020) Author's response Manuscript

ED: Publish subject to minor revisions (review by editor) (28 Mar 2020) by Christof Janssen

Dear Authors,

Thank you for the detailed response to the reviewers' requests.

All issues raised have been fully addressed and the paper can be published upon the reviewers' recommendations. Before proceeding to the publication stage, I would like to ask you considering the following minor technical and technical issues (line and page numbers follow manuscript version 4):

p 23, lines 14+. The reasoning starting with "Interestingly" is misleading. The fact that the two field values based on different foreign continuum hypotheses are significantly different does not depend on the MT_CKD_3.2 self continuum. This inconsistency is foremost an indication of biases related to the two hypotheses. The conclusion that the assumption of a given foreign continuum is important for the actual analysis therefore is thus logically independent of the comparison with MT_CKD_3.2 and the disagreement with MT_CKD_3.2 should not be invoked to arrive at this conclusion.

Some of the following arguments in the paragraph might also be a little bit overstretched. Eg, the CAVIAR-lab 297 K data point seems to agree (within 1.2 sigma) with the Richard et al data and the CAVIAR lab temperature dependence. Consequently, there does not seem to be any anomaly here. Then, "the CAVIAR field estimate being closer to this temperature dependence when using the CAVIAR-lab foreign continuum", is not an argument, because it is based on the assumption that the Richard et al values must be used as a reference. If the Baranov & Lafferty data had been used as a reference then the CAVIAR-field w MT_CKD foreign continuum would be closer to that temperature dependence.

The whole paragraph (lines 8-22) needs to be rewritten as to avoid logical fallacies and circular reasoning.

p 24, line 2 : set "k" in italics.

Supplement,
last phrase p1 : what is "gradient in which"
3rd equation p2 : LHS (Delta tau ?) and equation number are missing
It seems that this equation should come after "Then subtracting tau' from tau:"

Hide

AR by Jon Elsey on behalf of the Authors (02 Apr 2020) Author's response Manuscript

ED: Publish subject to technical corrections (07 Apr 2020) by Christof Janssen

Short summary

Water vapour is an important component in trying to understand the flows of energy between the Sun and Earth, since it is opaque to radiation emitted by both the surface and the Sun. In this paper, we study how it absorbs sunlight by way of its continuum, a property which is poorly understood and with few measurements. Our results indicate that this continuum absorption may be more significant than previously thought, potentially impacting satellite observations and climate studies.

Atmospheric observations of the water vapour continuum in the near-infrared windows between 2500 and 6600 cm−1

Download

Interactive discussion

Peer-review completion

Atmospheric observations of the water vapour continuum in the near-infrared windows between 2500 and 6600 cm⁻¹