Trends in mosquito species distribution modeling: insights for vector surveillance and disease control

Catherine A. Lippi; Stephanie J. Mundis; Rachel Sippy; J. Matthew Flenniken; Anusha Chaudhary; Gavriella Hecht; Colin J. Carlson; Sadie J. Ryan

doi:10.1186/s13071-023-05912-z

Parasites & Vectors (Aug 2023)

Trends in mosquito species distribution modeling: insights for vector surveillance and disease control

Catherine A. Lippi,
Stephanie J. Mundis,
Rachel Sippy,
J. Matthew Flenniken,
Anusha Chaudhary,
Gavriella Hecht,
Colin J. Carlson,
Sadie J. Ryan

Affiliations

Catherine A. Lippi: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
Stephanie J. Mundis: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
Rachel Sippy: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
J. Matthew Flenniken: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
Anusha Chaudhary: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
Gavriella Hecht: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida
Colin J. Carlson: Center for Global Health Science and Security, Georgetown University Medical Center, Georgetown University
Sadie J. Ryan: Quantitative Disease Ecology and Conservation (QDEC) Lab, Department of Geography, University of Florida

DOI: https://doi.org/10.1186/s13071-023-05912-z
Journal volume & issue: Vol. 16, no. 1
pp. 1 – 17

Abstract

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Abstract Species distribution modeling (SDM) has become an increasingly common approach to explore questions about ecology, geography, outbreak risk, and global change as they relate to infectious disease vectors. Here, we conducted a systematic review of the scientific literature, screening 563 abstracts and identifying 204 studies that used SDMs to produce distribution estimates for mosquito species. While the number of studies employing SDM methods has increased markedly over the past decade, the overwhelming majority used a single method (maximum entropy modeling; MaxEnt) and focused on human infectious disease vectors or their close relatives. The majority of regional models were developed for areas in Africa and Asia, while more localized modeling efforts were most common for North America and Europe. Findings from this study highlight gaps in taxonomic, geographic, and methodological foci of current SDM literature for mosquitoes that can guide future efforts to study the geography of mosquito-borne disease risk. Graphical Abstract

Published in Parasites & Vectors

ISSN: 1756-3305 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Infectious and parasitic diseases
Website: https://parasitesandvectors.biomedcentral.com/

About the journal

Abstract

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