评估气候变化对海地公共卫生的影响:关于疾病分布、建模和适应战略的综合研究

Ibrahima Diouf, Ibrahima Sy, Moussa Diakhaté
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摘要

本研究探讨了气候变化与海地公共卫生之间的关系,海地已经面临着社会经济方面的挑战。预计海地弱势人口的福祉将受到气候变化的进一步影响,导致病媒传染病、水传播疾病和与高温有关的疾病增加。作为最易受气候变化影响的国家之一,海地目前正经历着疟疾、登革热、基孔肯雅病等病媒传染病以及水媒传染病和新出现的人畜共患病爆发的增加。这项研究旨在利用健康数据、气候信息和影响模型,改进规划、决策和应对公共卫生挑战的措施。研究方法包括创建一个全面的气候与健康数据库,以揭示全国范围内详细的时空关系。通过评估历史时期(1950-2014 年)和未来预测(2015-2100 年)的疾病指标,使用 CMIP6 模型多模型集合平均值的共享社会经济路径(SSP),对包括疟疾、脑膜炎、登革热和热敏性慢性疾病在内的目标疾病进行评估。我们的结果表明,在极端 SSP585 情景下,降雨量减少,气温大幅上升,尤其是在海地西部。我们对影响模型模拟疟疾发病率、登革热和热浪的季节性和空间分布的能力进行了分析。与气候敏感疾病气候参数相关的风险分析表明,海地中西部地区主要面临病媒传染病和水媒传染病的威胁。根据模型预测,由于气温炎热和降雨量减少,疟疾病例将因气候变化而减少,而登革热的传播模式可能会发生变化。这些发现将为实施针对具体情况的预警系统和气候敏感性疾病的适应战略提供信息,同时承认将气候变化数据纳入卫生政策所面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing climate change impacts on public health in Haiti: a comprehensive study of disease distribution, modeling, and adaptation strategies
This study examines the relationship between climate change and public health in Haiti, a country already facing socioeconomic challenges. The well-being of Haiti’s vulnerable population is expected to be further affected by climate change, leading to an increase in vector-borne, water-borne, and heat-related diseases. As one of the most vulnerable countries to climate change effects, Haiti is currently experiencing an increase in vector-borne diseases such as malaria, dengue, and chikungunya, as well as water-borne diseases and emerging zoonotic outbreaks. This study aims to improve planning, decision-making, and responses to public health challenges by utilizing health data, climatic information, and impact models. The methodology involves the creation of a comprehensive climate and health database to uncover detailed spatial-temporal relationships on a national scale. By evaluating disease indicators from historical periods (1950-2014) and future projections (2015-2100) using the Shared Socio-Economic Pathways (SSPs) from the multi-model ensemble mean of the CMIP6 models, target diseases, including malaria, meningitis, dengue, and heat-sensitive chronic diseases are assessed. Our results highlight a decrease in rainfall and a strong increase in temperatures, especially within western Haiti under the extreme SSP585 scenario. The ability of the impact models to simulate the seasonality and spatial distribution of malaria incidence, dengue and heatwaves was performed. The analysis of risks related to climate-sensitive diseases’ climatic parameters shows that Haiti’s west and central regions are mostly exposed to vector-borne and water-borne diseases. Models predict a decrease in malaria cases due to climate change with hot temperatures and a decline in rainfall, while dengue transmission patterns may undergo changes. These findings will inform the implementation of context-specific early-warning systems and adaptation strategies for climate-sensitive diseases while acknowledging the challenges of integrating climate-altered data into health policies.
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