A spatial individual-based model predicting a great impact of copious sugar sources and resting sites on survival of Anopheles gambiae and malaria parasite transmission
Authored by Donald L DeAngelis, Lin Zhu, Whitney A Qualls, John M Marshall, Kris L Arheart, John W McManus, Sekou F Traore, Seydou Doumbia, Yosef Schlein, Guenter C Mueller, John C Beier
Date Published: 2015
DOI: 10.1186/s12936-015-0555-0
Sponsors:
United States National Institutes of Health (NIH)
Platforms:
MASON
Model Documentation:
ODD
Flow charts
Model Code URLs:
Model code not found
Abstract
Background: Agent-based modelling (ABM) has been used to simulate
mosquito life cycles and to evaluate vector control applications.
However, most models lack sugar-feeding and resting behaviours or are
based on mathematical equations lacking individual level randomness and
spatial components of mosquito life. Here, a spatial individual-based
model (IBM) incorporating sugar-feeding and resting behaviours of the
malaria vector Anopheles gambiae was developed to estimate the impact of
environmental sugar sources and resting sites on survival and biting
behaviour.
Methods: A spatial IBM containing An. gambiae mosquitoes and humans, as
well as the village environment of houses, sugar sources, resting sites
and larval habitat sites was developed. Anopheles gambiae behaviour
rules were attributed at each step of the IBM: resting, host seeking, sugar feeding and breeding. Each step represented one second of time, and each simulation was set to run for 60 days and repeated 50 times.
Scenarios of different densities and spatial distributions of sugar
sources and outdoor resting sites were simulated and compared.
Results: When the number of natural sugar sources was increased from 0
to 100 while the number of resting sites was held constant, mean daily
survival rate increased from 2.5\% to 85.1\% for males and from 2.5\% to
94.5\% for females, mean human biting rate increased from 0 to 0.94
bites per human per day, and mean daily abundance increased from 1 to
477 for males and from 1 to 1,428 for females. When the number of
outdoor resting sites was increased from 0 to 50 while the number of
sugar sources was held constant, mean daily survival rate increased from
77.3\% to 84.3\% for males and from 86.7\% to 93.9\% for females, mean
human biting rate increased from 0 to 0.52 bites per human per day, and
mean daily abundance increased from 62 to 349 for males and from 257 to
1120 for females. All increases were significant (P < 0.01). Survival
was greater when sugar sources were randomly distributed in the whole
village compared to clustering around outdoor resting sites or houses.
Conclusions: Increases in densities of sugar sources or outdoor resting
sites significantly increase the survival and human biting rates of An.
gambiae mosquitoes. Survival of An. gambiae is more supported by random
distribution of sugar sources than clustering of sugar sources around
resting sites or houses. Density and spatial distribution of natural
sugar sources and outdoor resting sites modulate vector populations and
human biting rates, and thus malaria parasite transmission.
Tags
Insecticide-treated nets
Sensu-stricto diptera
Vectorial capacity
West-africa
Resource availability
Inoculation rates
Feeding behavior
Kenyan coast
Host-seeking
Culicidae