The use of unmanned aircraft systems and high-resolution satellite imagery to monitor tilapia fish-cage aquaculture expansion in Lake Victoria, Kenya

Stuart Hamilton; Silviya M Gallo; Noah Krach; Chrisphine S Nyamweya; John K Okechi; Christopher M Aura; Zachary Ogari; Paige M Roberts; Les Kaufman

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The use of unmanned aircraft systems and high-resolution satellite imagery to monitor tilapia fish-cage aquaculture expansion in Lake Victoria, Kenya

Stuart Hamilton ^[1] ; Silviya M ^[1] ; Noah Krach ^[1] ; Chrisphine S Nyamweya ^[2] ; John K Okechi ^[2] ; Christopher M Aura ^[2] ; Zachary Ogari ^[2] ; Paige M Roberts ^[1] ; Les Kaufman ^[3]
1. [1] Salisbury University
  
  Salisbury University
  
  Estados Unidos
2. [2] Kenya Marine and Fisheries Research Institute
  
  Kenya Marine and Fisheries Research Institute
  
  Kenia
3. [3] Boston University
  
  Boston University
  
  City of Boston, Estados Unidos
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Localización: Bulletin of Marine Science, ISSN 0007-4977, Vol. 96, Nº. 1, 2020, págs. 71-94
Idioma: inglés
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Resumen
- Lake Victoria, the largest lake in the tropics, has a storied history that includes recent shifts in ecology due to a variety of point and nonpoint source anthropogenic impacts. Among the expanding industries contributing to environmental impacts (if not properly managed) is the recent and rapid expansion of cage aquaculture of Nile tilapia (Oreochromis niloticus). As part of an effort to assess the ecological consequences of this new industry, unmanned aerial systems (UAS), very high-resolution satellite imagery, and geographic information systems (GIS) were used to map the tilapia fish cages in the Kenya portion of Lake Victoria, Africa. Understanding the impacts of the growth of commercial finfish cage culture within Lake Victoria requires a systems view which, through the use of UAS and satellite technologies, can provide spatial context and change detection. This synthesis of UAS, very high-resolution satellite imagery, and GIS has allowed for accurate and rapid mapping of inshore tilapia fish cages with high positional accuracy. The significance of these observations lies in the speed and detection accuracy in the methodology, allowing for rapid visualization and assessment of cage culture in the Kenyan portion of Lake Victoria. As of 2012, there were very few floating aquaculture finfish cages in the Kenyan portion of Lake Victoria. Using UAS, satellite, and GIS technologies, in 2018 the same portion of the lake was found to contain 4357 fish cages covering 62,132 m>2.