Swath-altimetry measurements of the main stem Amazon River: measurement errors and hydraulic implications

Wilson, M. D.; Durand, M.; Jung, H. C.; Alsdorf, D.

doi:https://doi.org/10.5194/hess-19-1943-2015

Articles | Volume 19, issue 4

https://doi.org/10.5194/hess-19-1943-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/hess-19-1943-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 19, issue 4

Research article

|

22 Apr 2015

Research article |

| 22 Apr 2015

Swath-altimetry measurements of the main stem Amazon River: measurement errors and hydraulic implications

M. D. Wilson, M. Durand, H. C. Jung, and D. Alsdorf

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Final revised paper (published on 22 Apr 2015)
Preprint (discussion started on 06 Aug 2014)

Interactive discussion

Status: closed

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

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- Supplement

RC C3333: 'Interactive comment on Swath altimetry measurements of the mainstem Amazon River: measurement errors and hydraulic implications, by M. D. Wilson, M. Durand, H. C. Jung, and D. Alsdorf', Renata Romanowicz, 25 Aug 2014
- AC C4704: 'Response to referee 1', Matthew Wilson, 30 Oct 2014
RC C3452: 'RC', Anonymous Referee #2, 29 Aug 2014
- AC C4711: 'Response to referee 2', Matthew Wilson, 30 Oct 2014

Peer-review completion

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

ED: Reconsider after major revisions (05 Nov 2014) by Roger Moussa

AR by Matthew Wilson on behalf of the Authors (09 Dec 2014) Author's response Manuscript

ED: Referee Nomination & Report Request started (10 Dec 2014) by Roger Moussa

RR by Anonymous Referee #2 (18 Dec 2014)

Suggestions for revision or reasons for rejection

Paper was improved concerning clarity but some recommendations were not followed or fully applied. The conclusions are only for the two rivers they show and cannot be generalized. On these two rivers, the authors should provide more details in order that the readers can understand their method and finally share the results.

Figure 2 explains the steps followed by the authors but some details are still missing or not clear.
In the introduction, one paragraph was added about discharge estimates techniques: this paragraph contains some statements that can be discussed and is rather confusing and out of the scope. For instance, the high discharges (when floodplains are flooded) are poorly estimated using rating curves but the paper does not deal with these high discharges (same for vegetated channels ou very unsteady flows). I think that, for flows inside one single channel, gauging stations (if adequately monitored) can be accurate. So, I propose to cancel this paragraph or completely change it.
Page 2 line 164-165: river gauges are not one dimensional: they refer either to one point or to one cross section.
Page 5 line 305: the word « rectangular » should be added in front of channel cross sections. It explains why the channel depth inside one cross section is single.
Page 5 lines 325-334: I cannot understand if across the channel, the water elevation was kept constant or not. In other words, how was performed the interpolation to a the 2-D grid ? This point should be linked to the averaging over one cross section in order to obtain the values [SWOT XS]. Without noise, are we exactly obtaining the same initial 1D value?
Another connected point is the added random noise. Because of resampling, the structure fo the noise along a cross section is not clear particularly if the length of this cross section is about 500 m. To be perfectly clear, more explanation and eventually examples of applications should be provided. (figure 7 should be one of these examples but the figure is particularly unclear, details did not really appear and what means “cycle 18 overpass 6”). Moreover, the question of the future real structure of the error for SWAT remains open (but out of the scope of the paper of course)
Page 6, lines 428-438: the reach-length discharge is calculated from eq.5 but w and y are not fully defined: what are the channel width and the river depth of one reach ? I can propose several answers but the paper is mute about that.
Page 6 line 454 : a percentage error calculation. I understand the average of the absolute value of the difference of discharges divided by the mean discharge provided as percentage. Is it exact? If it is exact, in table 2, the values of discharges in m3/s and the % do not agree. An equation (same as for E) would have been clearer.
Page 7 line 545 : « assuming no bias » was added. I think it should be clarified to what the authors refer.
More over, the conclusion seems obvious : if we have several estimates, the average will be a better estimate than only one value if the error is randomly distributed. Here, this question is related to the structure of the noise.
Page 9 line 568: the SWOT requirements were calculated with the same method used by the authors: thus, the agreement between both is not surprising and cannot be considered as a result of the authors’work.
Page 12: the difference between Q[TRUE] and Q[MODEL] is (maybe) linked to the use of LISFLOOD and the structure of the one 1-D model. Then, the percentages should be put forward with caution.
Pages 13 and 14: I cannot understand how the percentage error shown in Figure 15 is obtained. Without a clear explanation, the added paragraphs should be cancelled.
Page 15 lines 810-811: the results are not directly transferable. The reasons to extend the authors’results to other large lowland rivers should be provided.

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RR by Renata Romanowicz (28 Dec 2014)

ED: Reconsider after major revisions (03 Jan 2015) by Roger Moussa

AR by Matthew Wilson on behalf of the Authors (14 Feb 2015) Author's response Manuscript

ED: Referee Nomination & Report Request started (03 Mar 2015) by Roger Moussa

RR by Anonymous Referee #2 (12 Mar 2015)

Suggestions for revision or reasons for rejection

Most of my questions or remarks received suitable answers in this new version of the paper. But I still disagree on two parts that are in fact additions to the original paper and that I think are mainly opinions of the authors and are not parts of their research work. My opinion is that both parts aim at underestimating the potentialities of field measurements and overestimating the potentialities of satellite observations. The authors demonstrate the potential use of their method on wide rivers on which discharge remains rather steady during long periods of time. On narrow rivers with discharges varying rapidly, continuous field monitoring is much better and there are new field techniques (for instance, measurement of surface velocity) to obtain accurate discharges.
Thus, I still recommend to cancel (or replace by one simpler sentence) the paragraph of the introduction dealing with rating curves (lines 70-98). Other field methods are not quoted and/or the references are certainly not the more relevant ones. Apart wide rivers with mainly single channel, the cases in which field measurements are difficult are also the cases in which satellite observations will not bring enough information.
Figure 15 (and the text around) is misleading because it shows only one cause of error. One will reproduce this figure without caution and will write that satellite can provide very accurate results which is not the case except for very specific cases. Particularly, the results cannot be extrapolated to narrow rivers (say width below 500 metres) and thus should be excluded on figure 15. Thus, because this figure 15 can be discussed a lot, I propose to cancel it and to modify the text around (lines 685-754) accordingly.

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ED: Publish subject to minor revisions (Editor review) (16 Mar 2015) by Roger Moussa

Dear Authors,

I can now inform you that the reviewers and editor have evaluated the manuscript " Swath altimetry measurements of the mainstem Amazon River: measurement errors and hydraulic implications " (M.D. Wilson, M. Durand, H.C. Jung, and D. Alsdorf). As you will see from the comments below, minor revision has been requested.

Please consider the reviews to see if revision would be feasible. Should you disagree with any part of the reviews, please explain why. I hope that you will find the comments to be of use to you and am looking forward with interest to receiving your revision.

Thank you for submitting your work to Hydrology and Earth System Sciences.

With kind regards,

Roger MOUSSA

Suggestions for revision (from Referee #2):

Most of my questions or remarks received suitable answers in this new version of the paper. But I still disagree on two parts that are in fact additions to the original paper and that I think are mainly opinions of the authors and are not parts of their research work. My opinion is that both parts aim at underestimating the potentialities of field measurements and overestimating the potentialities of satellite observations. The authors demonstrate the potential use of their method on wide rivers on which discharge remains rather steady during long periods of time. On narrow rivers with discharges varying rapidly, continuous field monitoring is much better and there are new field techniques (for instance, measurement of surface velocity) to obtain accurate discharges.

Thus, I still recommend canceling (or replacing by one simpler sentence) the paragraph of the introduction dealing with rating curves (lines 70-98). Other field methods are not quoted and/or the references are certainly not the more relevant ones. Apart wide rivers with mainly single channel, the cases in which field measurements are difficult are also the cases in which satellite observations will not bring enough information.

Figure 15 (and the text around) is misleading because it shows only one cause of error. One will reproduce this figure without caution and will write that satellite can provide very accurate results which are not the case except for very specific cases. Particularly, the results cannot be extrapolated to narrow rivers (say width below 500 meters) and thus should be excluded on figure 15. Thus, because this figure 15 can be discussed a lot, I propose to cancel it and to modify the text around (lines 685-754) accordingly.

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AR by Matthew Wilson on behalf of the Authors (20 Mar 2015) Author's response Manuscript

ED: Publish as is (24 Mar 2015) by Roger Moussa

AR by Matthew Wilson on behalf of the Authors (25 Mar 2015) Manuscript

Short summary

We use a virtual mission analysis on a ca. 260km reach of the central Amazon River to assess the hydraulic implications of potential measurement errors in swath-altimetry imagery from the forthcoming Surface Water and Ocean Topography (SWOT) satellite mission. We estimated water surface slope from imagery of water heights and then derived channel discharge. Errors in estimated discharge were lowest when using longer reach lengths and channel cross-sectional averaging to estimate water slopes.