A Bayesian maximum entropy model for predicting tsetse ecological distributions.

IF 3 2区 医学 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH International Journal of Health Geographics Pub Date : 2023-11-16 DOI:10.1186/s12942-023-00349-0
Lani Fox, Brad G Peter, April N Frake, Joseph P Messina
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引用次数: 0

Abstract

Background: African trypanosomiasis is a tsetse-borne parasitic infection that affects humans, wildlife, and domesticated animals. Tsetse flies are endemic to much of Sub-Saharan Africa and a spatial and temporal understanding of tsetse habitat can aid surveillance and support disease risk management. Problematically, current fine spatial resolution remote sensing data are delivered with a temporal lag and are relatively coarse temporal resolution (e.g., 16 days), which results in disease control models often targeting incorrect places. The goal of this study was to devise a heuristic for identifying tsetse habitat (at a fine spatial resolution) into the future and in the temporal gaps where remote sensing and proximal data fail to supply information.

Methods: This paper introduces a generalizable and scalable open-access version of the tsetse ecological distribution (TED) model used to predict tsetse distributions across space and time, and contributes a geospatial Bayesian Maximum Entropy (BME) prediction model trained by TED output data to forecast where, herein the Morsitans group of tsetse, persist in Kenya, a method that mitigates the temporal lag problem. This model facilitates identification of tsetse habitat and provides critical information to control tsetse, mitigate the impact of trypanosomiasis on vulnerable human and animal populations, and guide disease minimization in places with ephemeral tsetse. Moreover, this BME analysis is one of the first to utilize cluster and parallel computing along with a Monte Carlo analysis to optimize BME computations. This allows for the analysis of an exceptionally large dataset (over 2 billion data points) at a finer resolution and larger spatiotemporal scale than what had previously been possible.

Results: Under the most conservative assessment for Kenya, the BME kriging analysis showed an overall prediction accuracy of 74.8% (limited to the maximum suitability extent). In predicting tsetse distribution outcomes for the entire country the BME kriging analysis was 97% accurate in its forecasts.

Conclusions: This work offers a solution to the persistent temporal data gap in accurate and spatially precise rainfall predictions and the delayed processing of remotely sensed data collectively in the - 45 days past to + 180 days future temporal window. As is shown here, the BME model is a reliable alternative for forecasting future tsetse distributions to allow preplanning for tsetse control. Furthermore, this model provides guidance on disease control that would otherwise not be available. These 'big data' BME methods are particularly useful for large domain studies. Considering that past BME studies required reduction of the spatiotemporal grid to facilitate analysis. Both the GEE-TED and the BME libraries have been made open source to enable reproducibility and offer continual updates into the future as new remotely sensed data become available.

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预测采采蝇生态分布的贝叶斯最大熵模型。
背景:非洲锥虫病是一种采采蝇传播的寄生虫感染,影响人类、野生动物和家畜。采采蝇是撒哈拉以南非洲大部分地区的地方病,对采采蝇栖息地的时空了解有助于监测和支持疾病风险管理。问题是,目前提供的精细空间分辨率遥感数据存在时间滞后,而且时间分辨率相对较粗(例如,16天),这导致疾病控制模型往往针对不正确的地点。本研究的目的是设计一种启发式方法,用于在遥感和近端数据无法提供信息的时间缺口中识别采采蝇栖息地(以精细的空间分辨率)。方法:本文引入了一个可推广和可扩展的开放获取版本的采采生态分布(TED)模型,用于预测采采在空间和时间上的分布,并提供了一个由TED输出数据训练的地理空间贝叶斯最大熵(BME)预测模型,用于预测肯尼亚Morsitans采采群体的持续时间,这是一种缓解时间滞后问题的方法。该模型有助于识别采采蝇的栖息地,并为控制采采蝇、减轻锥虫病对脆弱的人类和动物种群的影响提供关键信息,并指导在存在短暂采采蝇的地方尽量减少疾病。此外,这个BME分析是第一个利用集群和并行计算以及蒙特卡罗分析来优化BME计算的分析之一。这允许以比以前更精细的分辨率和更大的时空尺度分析一个特别大的数据集(超过20亿个数据点)。结果:在肯尼亚最保守的评估下,BME克里格分析的总体预测准确率为74.8%(限于最大适宜程度)。在预测整个国家采采蝇分布结果时,BME克里格分析的预测准确率为97%。结论:这项工作为精确和空间精确的降雨预测以及在过去- 45天到未来+ 180天时间窗口内遥感数据的延迟处理提供了一个解决方案。如图所示,BME模型是预测未来采采蝇分布的可靠替代方法,可以预先规划采采蝇控制。此外,该模型提供了疾病控制方面的指导,否则将无法获得这些指导。这些“大数据”BME方法对于大型领域研究特别有用。考虑到过去的BME研究需要减少时空网格以方便分析。GEE-TED和BME库都是开源的,以实现可再现性,并在未来随着新的遥感数据可用而不断更新。
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来源期刊
International Journal of Health Geographics
International Journal of Health Geographics PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH -
CiteScore
10.20
自引率
2.00%
发文量
17
审稿时长
12 weeks
期刊介绍: A leader among the field, International Journal of Health Geographics is an interdisciplinary, open access journal publishing internationally significant studies of geospatial information systems and science applications in health and healthcare. With an exceptional author satisfaction rate and a quick time to first decision, the journal caters to readers across an array of healthcare disciplines globally. International Journal of Health Geographics welcomes novel studies in the health and healthcare context spanning from spatial data infrastructure and Web geospatial interoperability research, to research into real-time Geographic Information Systems (GIS)-enabled surveillance services, remote sensing applications, spatial epidemiology, spatio-temporal statistics, internet GIS and cyberspace mapping, participatory GIS and citizen sensing, geospatial big data, healthy smart cities and regions, and geospatial Internet of Things and blockchain.
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