基于遥感的时间序列模型在埃塞俄比亚高地进行疟疾预警。

Remote sensing-based time series models for malaria early warning in the highlands of Ethiopia.

机构信息

Geographic Information Science Center of Excellence, South Dakota State University, Brookings, SD 57007, USA.

出版信息

Malar J. 2012 May 14;11:165. doi: 10.1186/1475-2875-11-165.

DOI:10.1186/1475-2875-11-165

PMID:22583705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3493314/

Abstract

BACKGROUND

Malaria is one of the leading public health problems in most of sub-Saharan Africa, particularly in Ethiopia. Almost all demographic groups are at risk of malaria because of seasonal and unstable transmission of the disease. Therefore, there is a need to develop malaria early-warning systems to enhance public health decision making for control and prevention of malaria epidemics. Data from orbiting earth-observing sensors can monitor environmental risk factors that trigger malaria epidemics. Remotely sensed environmental indicators were used to examine the influences of climatic and environmental variability on temporal patterns of malaria cases in the Amhara region of Ethiopia.

METHODS

In this study seasonal autoregressive integrated moving average (SARIMA) models were used to quantify the relationship between malaria cases and remotely sensed environmental variables, including rainfall, land-surface temperature (LST), vegetation indices (NDVI and EVI), and actual evapotranspiration (ETa) with lags ranging from one to three months. Predictions from the best model with environmental variables were compared to the actual observations from the last 12 months of the time series.

RESULTS

Malaria cases exhibited positive associations with LST at a lag of one month and positive associations with indicators of moisture (rainfall, EVI and ETa) at lags from one to three months. SARIMA models that included these environmental covariates had better fits and more accurate predictions, as evidenced by lower AIC and RMSE values, than models without environmental covariates.

CONCLUSIONS

Malaria risk indicators such as satellite-based rainfall estimates, LST, EVI, and ETa exhibited significant lagged associations with malaria cases in the Amhara region and improved model fit and prediction accuracy. These variables can be monitored frequently and extensively across large geographic areas using data from earth-observing sensors to support public health decisions.

摘要

背景

疟疾是撒哈拉以南非洲大部分地区（尤其是埃塞俄比亚）的主要公共卫生问题之一。由于疾病的季节性和不稳定传播，几乎所有人群都面临疟疾风险。因此，需要开发疟疾预警系统，以增强公共卫生决策，控制和预防疟疾疫情。来自轨道地球观测传感器的数据可监测引发疟疾疫情的环境风险因素。本研究利用遥感环境指标来考察气候和环境变异性对埃塞俄比亚阿姆哈拉地区疟疾病例时间模式的影响。

方法

本研究采用季节性自回归综合移动平均（SARIMA）模型来量化疟疾病例与遥感环境变量（包括降雨量、地表温度（LST）、植被指数（NDVI 和 EVI）和实际蒸散量（ETa））之间的关系，滞后期从一个月到三个月不等。将具有环境变量的最佳模型的预测结果与时间序列最后 12 个月的实际观测值进行比较。

结果

疟疾病例与一个月时滞的 LST 呈正相关，与一个月至三个月时滞的湿度指标（降雨量、EVI 和 ETa）呈正相关。包含这些环境协变量的 SARIMA 模型具有更好的拟合度和更准确的预测，这表现为 AIC 和 RMSE 值较低。

结论

卫星基降雨量估计、LST、EVI 和 ETa 等疟疾风险指标与阿姆哈拉地区的疟疾病例呈显著滞后相关，提高了模型拟合度和预测精度。这些变量可以使用地球观测传感器的数据在大地理区域内进行频繁和广泛的监测，以支持公共卫生决策。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/14f8/3493314/6ba087cb5ca6/1475-2875-11-165-1.jpg

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基于遥感的时间序列模型在埃塞俄比亚高地进行疟疾预警。

Remote sensing-based time series models for malaria early warning in the highlands of Ethiopia.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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