ASSESSMENT OF FISH SPECIES COMPOSITION USING ENVIRONMENTAL DNA METABARCODING AND CATCH SURVEY IN THE SATELLITE LAKES OF LAKE VICTORIA, KENYA
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Date
2025-09
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EGERTON UNIVERSITY
Abstract
The satellite lakes of Lake Victoria are identified as key refugia for native fish species, most
of which are threatened by factors such as invasive species and habitat loss. Nevertheless, fish
species composition in these lakes are understudied, which drastically hampers fisheries
management and conservation measures. This research applied both molecular (eDNA
metabarcoding) and conventional methods through catch surveys to identify the fish species
composition in Lakes Kanyaboli, Namboyo, Sare, and Bob. The morphometrics, DNA tissues,
and questionnaire data were collected twice a month from November 2024 to February 2025.
The Total Length (TL) and total weight (TW) of the fish were measured using a measuring
board and an analytical balance, respectively. The eDNA and tissue samples were transported
to SPYGEN Laboratory (France) for sequencing and bioinformatics analysis. A total of 95
fishermen were interviewed across the satellite lakes. 37.8% and 33.3% of fishermen in
Kanyaboli and Bob, respectively, were in the age range of 30-39 years. The eDNA metabarcoding detected 31 taxa, while the catch survey recorded 21 taxa. Shannon Weiner diversity
indices showed that Lakes Namboyo and Bob recorded the highest diversity, 1.64 and 1.43,
respectively. Kanyaboli 1.3 and Lake Sare recorded the least diversity, 0.73, based on eDNA
metabarcoding. Common species detected include the tilapiines, C. gariepinus, and P.
aethiopicus. Two invasive species, Gambusia sp and Lates niloticus, and five haplochromine
species (Pundamilia nyererei- found in all four lakes, Pundamilia pundamilia- found in all
lakes except in Sare, Haplochromis maxillaris, Astatotilapia nubilus and Haplochromis
argenteus were found in Kanyaboli. One-way Analysis of Variance (ANOVA) indicated
significant differences between the total weight in all the lakes (p=0.001). The length-weight
relationship of O. niloticus in Lakes Kanyaboli, Sare and Bob showed an isometric growth
pattern (b=3), O. leucostictus and O. esculentus in Kanyaboli showed a negative allometric
growth (b<3), O. leucostictus in Sare revealed a positive allometric growth (b=3.2), and O.
variabilis in Sare had an isometric growth (b=3). Both C. gariepinus and P. aethiopicus across
the four lakes showed a negative allometric growth with (b<3). The condition factor (K) and
the Relative condition factor (Kn) were all above 1.0, indicating that the fish were in good
condition across all the lakes. The study demonstrates the effectiveness of eDNA as a tool for
fish biodiversity assessment in the satellite lakes. The findings will benefit fisheries officers,
Researchers, policymakers and local communities by guiding conservation strategies and
ensuring sustainable use of these aquatic ecosystems.