Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda

Ssekyanzi, Athanasius; Nevejan, Nancy; Van der Zande, Dimitry; Brown, Molly E.; Van Stappen, Gilbert

Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda

Athanasius Ssekyanzi, Nancy Nevejan (UGent) , Dimitry Van der Zande, Molly E. Brown and Gilbert Van Stappen (UGent)

(2021) WATER. 13(19).

Author

Athanasius Ssekyanzi, Nancy Nevejan (UGent) , Dimitry Van der Zande, Molly E. Brown and Gilbert Van Stappen (UGent)

Organization

Department of Animal Sciences and Aquatic Ecology

Project

Phase II partner programme for the Institutional University Cooperation with Mountains of the Moon Uganda (MMU)

Abstract

Aquaculture has the potential to sustainably meet the growing demand for animal protein. The availability of water is essential for aquaculture development, but there is no knowledge about the potential inland water resources of the Rwenzori region of Uganda. Though remote sensing is popularly utilized during studies involving various aspects of surface water, it has never been employed in mapping inland water bodies of Uganda. In this study, we assessed the efficiency of seven remote-sensing derived water index methods to map the available surface water resources in the Rwenzori region using moderate resolution Sentinel 2A/B imagery. From the four targeted sites, the Automated Water Extraction Index for urban areas (AWEInsh) and shadow removal (AWEIsh) were the best at identifying inland water bodies in the region. Both AWEIsh and AWEInsh consistently had the highest overall accuracy (OA) and kappa (OA > 90%, kappa > 0.8 in sites 1 and 2; OA > 84.9%, kappa > 0.61 in sites 3 and 4), as well as the lowest omission errors in all sites. AWEI was able to suppress classification noise from shadows and other non-water dark surfaces. However, none of the seven water indices used during this study was able to efficiently extract narrow water bodies such as streams. This was due to a combination of factors like the presence of terrain shadows, a dense vegetation cover, and the image resolution. Nonetheless, AWEI can efficiently identify other surface water resources such as crater lakes and rivers/streams that are potentially suitable for aquaculture from moderate resolution Sentinel 2A/B imagery.

Keywords

LANDSAT 8, INDEX, CLARITY, LEVEL, MODEL, FISH, CDOM, water, water index, optimum threshold, omission error, NDWI, MNDWI1, MNDWI2, AWEIsh, AWEInsh, MuWI_C, MuWI_R, Sentinel-2, aquaculture, Rwenzori region

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8763165

MLA: Ssekyanzi, Athanasius, et al. “Identification of Potential Surface Water Resources for Inland Aquaculture from Sentinel-2 Images of the Rwenzori Region of Uganda.” WATER, vol. 13, no. 19, 2021, doi:10.3390/w13192657.
APA: Ssekyanzi, A., Nevejan, N., Van der Zande, D., Brown, M. E., & Van Stappen, G. (2021). Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda. WATER, 13(19). https://doi.org/10.3390/w13192657
Chicago author-date: Ssekyanzi, Athanasius, Nancy Nevejan, Dimitry Van der Zande, Molly E. Brown, and Gilbert Van Stappen. 2021. “Identification of Potential Surface Water Resources for Inland Aquaculture from Sentinel-2 Images of the Rwenzori Region of Uganda.” WATER 13 (19). https://doi.org/10.3390/w13192657.
Chicago author-date (all authors): Ssekyanzi, Athanasius, Nancy Nevejan, Dimitry Van der Zande, Molly E. Brown, and Gilbert Van Stappen. 2021. “Identification of Potential Surface Water Resources for Inland Aquaculture from Sentinel-2 Images of the Rwenzori Region of Uganda.” WATER 13 (19). doi:10.3390/w13192657.
Vancouver: 1.
Ssekyanzi A, Nevejan N, Van der Zande D, Brown ME, Van Stappen G. Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda. WATER. 2021;13(19).
IEEE: [1]
A. Ssekyanzi, N. Nevejan, D. Van der Zande, M. E. Brown, and G. Van Stappen, “Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda,” WATER, vol. 13, no. 19, 2021.

@article{8763165,
  abstract     = {{Aquaculture has the potential to sustainably meet the growing demand for animal protein. The availability of water is essential for aquaculture development, but there is no knowledge about the potential inland water resources of the Rwenzori region of Uganda. Though remote sensing is popularly utilized during studies involving various aspects of surface water, it has never been employed in mapping inland water bodies of Uganda. In this study, we assessed the efficiency of seven remote-sensing derived water index methods to map the available surface water resources in the Rwenzori region using moderate resolution Sentinel 2A/B imagery. From the four targeted sites, the Automated Water Extraction Index for urban areas (AWEInsh) and shadow removal (AWEIsh) were the best at identifying inland water bodies in the region. Both AWEIsh and AWEInsh consistently had the highest overall accuracy (OA) and kappa (OA > 90%, kappa > 0.8 in sites 1 and 2; OA > 84.9%, kappa > 0.61 in sites 3 and 4), as well as the lowest omission errors in all sites. AWEI was able to suppress classification noise from shadows and other non-water dark surfaces. However, none of the seven water indices used during this study was able to efficiently extract narrow water bodies such as streams. This was due to a combination of factors like the presence of terrain shadows, a dense vegetation cover, and the image resolution. Nonetheless, AWEI can efficiently identify other surface water resources such as crater lakes and rivers/streams that are potentially suitable for aquaculture from moderate resolution Sentinel 2A/B imagery.}},
  articleno    = {{2657}},
  author       = {{Ssekyanzi, Athanasius and Nevejan, Nancy and Van der Zande, Dimitry and Brown, Molly E. and Van Stappen, Gilbert}},
  issn         = {{2073-4441}},
  journal      = {{WATER}},
  keywords     = {{LANDSAT 8,INDEX,CLARITY,LEVEL,MODEL,FISH,CDOM,water,water index,optimum threshold,omission error,NDWI,MNDWI1,MNDWI2,AWEIsh,AWEInsh,MuWI_C,MuWI_R,Sentinel-2,aquaculture,Rwenzori region}},
  language     = {{eng}},
  number       = {{19}},
  pages        = {{17}},
  title        = {{Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda}},
  url          = {{http://doi.org/10.3390/w13192657}},
  volume       = {{13}},
  year         = {{2021}},
}

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Identification of potential surface water resources for inland aquaculture from Sentinel-2 images of the Rwenzori region of Uganda

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