Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni

Roland Proud; Fiona Allan; Andrew Whiston; Robert Kayanda; Safari Kinung'hi; Teckla Angelo; Yasinta D. Sylivester; Hillary D. J. Mrosso; Benedicto B. Kashindye; Mboni Elison; Martin J. Cox; Yang Yang; Andrew Chamberlin; Ian L. Boyd; David J. Civitello; Giulio A. De Leo; Andrew S. Brierley

doi:10.1371/journal.pntd.0013490

Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni

Roland Proud^*, Fiona Allan, Andrew Whiston, Robert Kayanda, Safari Kinung'hi, Teckla Angelo, Yasinta D. Sylivester, Hillary D. J. Mrosso, Benedicto B. Kashindye, Mboni Elison, Martin J. Cox, Yang Yang, Andrew Chamberlin, Ian L. Boyd, David J. Civitello, Giulio A. De Leo, Andrew S. Brierley

^*Corresponding author for this work

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Abstract

In areas of high infection prevalence, effective control of schistosomiasis - one of the most important Neglected Tropical Diseases - requires supplementing medical treatment with interventions targeted at the environmental reservoir of disease. In addition to provision of clean water, reliable sanitation, and molluscicide use to control the obligate intermediate host snail, top-down biological control of parasite-competent snails has recently gained increasing interest in the scientific community. However, evidence that natural predators can effectively reduce snail abundance and, ultimately, transmission risk to vulnerable human populations remains limited. In this study, we used a Before-After-Control-Intervention (BACI) design implemented in seven lakeside areas, including three intervention areas and four control areas, on the southern shores of Lake Victoria (Tanzania) in 2019-2023. We tested whether the restoration of African catfish, Clarias gariepinus, a native species of commercial value, could reduce both the abundance of Biomphalaria snails (intermediate hosts of Schistosoma mansoni) and infection intensity in school age children (SAC). Where catfish were restored, mean site-level snail counts declined by 57% (95% CI: 29.4%, 74.3%). At primary schools located within each area, SAC infection intensity (mean parasite egg count in stool samples) also decreased significantly by 55% (95% CI: 26%, 73%). This study shows that natural predators of host snails have the potential for schistosomiasis control. Scaling up to a lake-wide approach will require systemic intervention, with snail host control contributing to a broader framework for schistosomiasis management.

Original language	English
Article number	e0013490
Journal	PLOS Neglected Tropical Diseases
Volume	19
Issue number	9
DOIs	https://doi.org/10.1371/journal.pntd.0013490
Publication status	Published - 3 Sept 2025

Keywords

Catfishes - parasitology
Tanzania - epidemiology
Child
Biomphalaria - parasitology
Schistosoma mansoni - physiology
Schistosomiasis mansoni - prevention & control - transmission - epidemiology - parasitology
Humans
Animals
Lakes - parasitology

ASJC Scopus subject areas

Public Health, Environmental and Occupational Health
Infectious Diseases

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1371/journal.pntd.0013490Licence: CC BY

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Proud, R., Allan, F., Whiston, A., Kayanda, R., Kinung'hi, S., Angelo, T., Sylivester, Y. D., Mrosso, H. D. J., Kashindye, B. B., Elison, M., Cox, M. J., Yang, Y., Chamberlin, A., Boyd, I. L., Civitello, D. J., De Leo, G. A., & Brierley, A. S. (2025). Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni. PLOS Neglected Tropical Diseases, 19(9), Article e0013490. https://doi.org/10.1371/journal.pntd.0013490

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title = "Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni",

abstract = "In areas of high infection prevalence, effective control of schistosomiasis - one of the most important Neglected Tropical Diseases - requires supplementing medical treatment with interventions targeted at the environmental reservoir of disease. In addition to provision of clean water, reliable sanitation, and molluscicide use to control the obligate intermediate host snail, top-down biological control of parasite-competent snails has recently gained increasing interest in the scientific community. However, evidence that natural predators can effectively reduce snail abundance and, ultimately, transmission risk to vulnerable human populations remains limited. In this study, we used a Before-After-Control-Intervention (BACI) design implemented in seven lakeside areas, including three intervention areas and four control areas, on the southern shores of Lake Victoria (Tanzania) in 2019-2023. We tested whether the restoration of African catfish, Clarias gariepinus, a native species of commercial value, could reduce both the abundance of Biomphalaria snails (intermediate hosts of Schistosoma mansoni) and infection intensity in school age children (SAC). Where catfish were restored, mean site-level snail counts declined by 57\% (95\% CI: 29.4\%, 74.3\%). At primary schools located within each area, SAC infection intensity (mean parasite egg count in stool samples) also decreased significantly by 55\% (95\% CI: 26\%, 73\%). This study shows that natural predators of host snails have the potential for schistosomiasis control. Scaling up to a lake-wide approach will require systemic intervention, with snail host control contributing to a broader framework for schistosomiasis management.",

keywords = "Catfishes - parasitology, Tanzania - epidemiology, Child, Biomphalaria - parasitology, Schistosoma mansoni - physiology, Schistosomiasis mansoni - prevention \& control - transmission - epidemiology - parasitology, Humans, Animals, Lakes - parasitology",

author = "Roland Proud and Fiona Allan and Andrew Whiston and Robert Kayanda and Safari Kinung'hi and Teckla Angelo and Sylivester, \{Yasinta D.\} and Mrosso, \{Hillary D. J.\} and Kashindye, \{Benedicto B.\} and Mboni Elison and Cox, \{Martin J.\} and Yang Yang and Andrew Chamberlin and Boyd, \{Ian L.\} and Civitello, \{David J.\} and \{De Leo\}, \{Giulio A.\} and Brierley, \{Andrew S.\}",

year = "2025",

month = sep,

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volume = "19",

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Proud, R, Allan, F, Whiston, A, Kayanda, R, Kinung'hi, S, Angelo, T, Sylivester, YD, Mrosso, HDJ, Kashindye, BB, Elison, M, Cox, MJ, Yang, Y, Chamberlin, A, Boyd, IL, Civitello, DJ, De Leo, GA & Brierley, AS 2025, 'Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni', PLOS Neglected Tropical Diseases, vol. 19, no. 9, e0013490. https://doi.org/10.1371/journal.pntd.0013490

TY - JOUR

T1 - Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni

AU - Proud, Roland

AU - Allan, Fiona

AU - Whiston, Andrew

AU - Kayanda, Robert

AU - Kinung'hi, Safari

AU - Angelo, Teckla

AU - Sylivester, Yasinta D.

AU - Mrosso, Hillary D. J.

AU - Kashindye, Benedicto B.

AU - Elison, Mboni

AU - Cox, Martin J.

AU - Yang, Yang

AU - Chamberlin, Andrew

AU - Boyd, Ian L.

AU - Civitello, David J.

AU - De Leo, Giulio A.

AU - Brierley, Andrew S.

PY - 2025/9/3

Y1 - 2025/9/3

N2 - In areas of high infection prevalence, effective control of schistosomiasis - one of the most important Neglected Tropical Diseases - requires supplementing medical treatment with interventions targeted at the environmental reservoir of disease. In addition to provision of clean water, reliable sanitation, and molluscicide use to control the obligate intermediate host snail, top-down biological control of parasite-competent snails has recently gained increasing interest in the scientific community. However, evidence that natural predators can effectively reduce snail abundance and, ultimately, transmission risk to vulnerable human populations remains limited. In this study, we used a Before-After-Control-Intervention (BACI) design implemented in seven lakeside areas, including three intervention areas and four control areas, on the southern shores of Lake Victoria (Tanzania) in 2019-2023. We tested whether the restoration of African catfish, Clarias gariepinus, a native species of commercial value, could reduce both the abundance of Biomphalaria snails (intermediate hosts of Schistosoma mansoni) and infection intensity in school age children (SAC). Where catfish were restored, mean site-level snail counts declined by 57% (95% CI: 29.4%, 74.3%). At primary schools located within each area, SAC infection intensity (mean parasite egg count in stool samples) also decreased significantly by 55% (95% CI: 26%, 73%). This study shows that natural predators of host snails have the potential for schistosomiasis control. Scaling up to a lake-wide approach will require systemic intervention, with snail host control contributing to a broader framework for schistosomiasis management.

AB - In areas of high infection prevalence, effective control of schistosomiasis - one of the most important Neglected Tropical Diseases - requires supplementing medical treatment with interventions targeted at the environmental reservoir of disease. In addition to provision of clean water, reliable sanitation, and molluscicide use to control the obligate intermediate host snail, top-down biological control of parasite-competent snails has recently gained increasing interest in the scientific community. However, evidence that natural predators can effectively reduce snail abundance and, ultimately, transmission risk to vulnerable human populations remains limited. In this study, we used a Before-After-Control-Intervention (BACI) design implemented in seven lakeside areas, including three intervention areas and four control areas, on the southern shores of Lake Victoria (Tanzania) in 2019-2023. We tested whether the restoration of African catfish, Clarias gariepinus, a native species of commercial value, could reduce both the abundance of Biomphalaria snails (intermediate hosts of Schistosoma mansoni) and infection intensity in school age children (SAC). Where catfish were restored, mean site-level snail counts declined by 57% (95% CI: 29.4%, 74.3%). At primary schools located within each area, SAC infection intensity (mean parasite egg count in stool samples) also decreased significantly by 55% (95% CI: 26%, 73%). This study shows that natural predators of host snails have the potential for schistosomiasis control. Scaling up to a lake-wide approach will require systemic intervention, with snail host control contributing to a broader framework for schistosomiasis management.

KW - Catfishes - parasitology

KW - Tanzania - epidemiology

KW - Child

KW - Biomphalaria - parasitology

KW - Schistosoma mansoni - physiology

KW - Schistosomiasis mansoni - prevention & control - transmission - epidemiology - parasitology

KW - Humans

KW - Animals

KW - Lakes - parasitology

UR - https://www.scopus.com/pages/publications/105015811736

U2 - 10.1371/journal.pntd.0013490

DO - 10.1371/journal.pntd.0013490

M3 - Article

C2 - 40901991

SN - 1935-2727

VL - 19

JO - PLOS Neglected Tropical Diseases

JF - PLOS Neglected Tropical Diseases

IS - 9

M1 - e0013490

ER -

Stocking African catfish in Lake Victoria provides effective biocontrol of snail vectors of Schistosoma mansoni

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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