澳大利亚因气温上升导致的罗斯河病毒感染的当前及未来负担:一项基于人群的研究。
Current and future burden of Ross River virus infection attributable to increasing temperature in Australia: a population-based study.
作者信息
Damtew Yohannes Tefera, Varghese Blesson Mathew, Anikeeva Olga, Tong Michael, Hansen Alana, Dear Keith, Zhang Ying, Morgan Geoffrey, Driscoll Tim, Capon Tony, Gourley Michelle, Prescott Vanessa, Bi Peng
机构信息
School of Public Health, The University of Adelaide, Adelaide, South Australia, 5005, Australia.
College of Health and Medical Sciences, Haramaya University, P.O.BOX 138, Dire Dawa, Ethiopia.
出版信息
Lancet Reg Health West Pac. 2024 Jun 28;48:101124. doi: 10.1016/j.lanwpc.2024.101124. eCollection 2024 Jul.
BACKGROUND
Ross River virus (RRV), Australia's most notifiable vector-borne disease transmitted through mosquito bites, has seen increased transmission due to rising temperatures. Quantifying the burden of RRV infection attributable to increasing temperatures (both current and future) is pivotal to inform prevention strategies in the context of climate change.
METHODS
As RRV-related deaths are rare in Australia, we utilised years lived with disability (YLDs) associated with RRV infection data from the Australian Institute of Health and Welfare (AIHW) Burden of Disease database between 2003 and 2018. We obtained relative risks per 1 °C temperature increase in RRV infection from a previous meta-analysis. Exposure distributions for each Köppen-Geiger climate zone were calculated separately and compared with the theoretical-minimum-risk exposure distribution to calculate RRV burden attributable to increasing temperatures during the baseline period (2003-2018), and projected future burdens for the 2030s and 2050s under two greenhouse gas emission scenarios (Representative Concentration Pathways, RCP 4.5 and RCP 8.5), two adaptation scenarios, and different population growth series.
FINDINGS
During the baseline period (2003-2018), increasing mean temperatures contributed to 35.8 (±0.5) YLDs (19.1%) of the observed RRV burden in Australia. The mean temperature attributable RRV burden varied across climate zones and jurisdictions. Under both RCP scenarios, the projected RRV burden is estimated to increase in the future despite adaptation scenarios. By the 2050s, without adaptation, the RRV burden could reach 45.8 YLDs under RCP4.5 and 51.1 YLDs under RCP8.5. Implementing a 10% adaptation strategy could reduce RRV burden to 41.8 and 46.4 YLDs, respectively.
INTERPRETATION
These findings provide scientific evidence for informing policy decisions and guiding resource allocation for mitigating the future RRV burden. The current findings underscore the need to develop location-specific adaptation strategies for climate-sensitive disease control and prevention.
FUNDING
Australian Research Council Discovery Program.
背景
罗斯河病毒(RRV)是澳大利亚通过蚊虫叮咬传播的最需通报的媒介传播疾病,由于气温上升,其传播有所增加。量化因气温升高(当前和未来)导致的RRV感染负担,对于在气候变化背景下制定预防策略至关重要。
方法
由于RRV相关死亡在澳大利亚较为罕见,我们利用了澳大利亚卫生与福利研究所(AIHW)疾病负担数据库中2003年至2018年与RRV感染相关的失能调整生命年(YLDs)数据。我们从先前的一项荟萃分析中获取了RRV感染每升高1°C的相对风险。分别计算了每个柯本-盖格气候区的暴露分布,并与理论最小风险暴露分布进行比较,以计算基线期(2003 - 2018年)因气温升高导致的RRV负担,以及在两种温室气体排放情景(代表性浓度路径,RCP 4.5和RCP 8.5)、两种适应情景和不同人口增长序列下2030年代和2050年代的未来预测负担。
结果
在基线期(2003 - 2018年),平均气温升高导致澳大利亚观察到的RRV负担中有35.8(±0.5)个YLDs(19.1%)。因气温导致的RRV负担在不同气候区和司法管辖区有所不同。在两种RCP情景下,尽管有适应情景,预计未来RRV负担仍会增加。到2050年代,如果不采取适应措施,在RCP4.5情景下RRV负担可能达到45.8个YLDs,在RCP8.5情景下达到51.1个YLDs。实施10%的适应策略可分别将RRV负担降至41.8和46.4个YLDs。
解读
这些发现为为政策决策提供信息以及指导资源分配以减轻未来RRV负担提供了科学依据。当前的发现强调了针对气候敏感疾病控制和预防制定因地制宜的适应策略的必要性。
资金来源
澳大利亚研究理事会发现计划。
Zotero 插件