The International Research Institute for Climate and Society, The Earth Institute, Columbia University, 61 Route 9W, Lamont-Doherty, Palisades, NY, 10964, USA.
The Special Programme for Research and Training in Tropical Diseases (TDR), World Health Organization, Geneva, Switzerland.
Infect Dis Poverty. 2018 Nov 29;7(1):126. doi: 10.1186/s40249-018-0501-9.
During the last 30 years, the development of geographical information systems and satellites for Earth observation has made important progress in the monitoring of the weather, climate, environmental and anthropogenic factors that influence the reduction or the reemergence of vector-borne diseases. Analyses resulting from the combination of geographical information systems (GIS) and remote sensing have improved knowledge of climatic, environmental, and biodiversity factors influencing vector-borne diseases (VBDs) such as malaria, visceral leishmaniasis, dengue, Rift Valley fever, schistosomiasis, Chagas disease and leptospirosis. These knowledge and products developed using remotely sensed data helped and continue to help decision makers to better allocate limited resources in the fight against VBDs.
Because VBDs are linked to climate and environment, we present here our experience during the last four years working with the projects under the, World Health Organization (WHO)/ The Special Programme for Research and Training in Tropical Diseases (TDR)-International Development Research Centre (IDRC) Research Initiative on VBDs and Climate Change to integrate climate and environmental information into research and decision-making processes. The following sections present the methodology we have developed, which uses remote sensing to monitor climate variability, environmental conditions, and their impacts on the dynamics of infectious diseases. We then show how remotely sensed data can be accessed and evaluated and how they can be integrated into research and decision-making processes for mapping risks, and creating Early Warning Systems, using two examples from the WHO TDR projects based on schistosomiasis analysis in South Africa and Trypanosomiasis in Tanzania.
The tools presented in this article have been successfully used by the projects under the WHO/TDR-IDRC Research Initiative on VBDs and Climate Change. Combined with capacity building, they are an important piece of work which can significantly contribute to the goals of WHO Global Vector Control Response and to the Sustainable Development Goals especially those on health and climate action.
在过去的 30 年中,地理信息系统和地球观测卫星的发展在监测影响虫媒病减少或再现的天气、气候、环境和人为因素方面取得了重要进展。地理信息系统(GIS)和遥感相结合的分析提高了对影响虫媒病(如疟疾、内脏利什曼病、登革热、裂谷热、血吸虫病、恰加斯病和钩端螺旋体病)的气候、环境和生物多样性因素的认识。使用遥感数据开发的这些知识和产品帮助并将继续帮助决策者更好地分配有限的资源用于防治虫媒病。
由于虫媒病与气候和环境有关,我们在此介绍过去四年我们在世界卫生组织(世卫组织)/热带病研究和培训特别规划署(热带病特别规划署)-国际发展研究中心(IDRC)虫媒病和气候变化研究倡议项目下开展的工作经验,即将气候和环境信息纳入研究和决策过程。以下各节介绍了我们开发的方法,该方法使用遥感监测气候变异性、环境条件及其对传染病动态的影响。然后,我们展示了如何访问和评估遥感数据,以及如何将其纳入研究和决策过程,以绘制风险地图并创建早期预警系统,这两个例子都来自世卫组织热带病特别规划署基于南非血吸虫病分析和坦桑尼亚锥虫病的项目。
世卫组织/热带病特别规划署-IDRC 虫媒病和气候变化研究倡议项目下使用的这些工具取得了成功。结合能力建设,它们是一项重要工作,可大大有助于世卫组织全球病媒控制对策的目标以及可持续发展目标,特别是健康和气候行动方面的目标。
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