全球变化对 2050 年前蛇咬伤发病率的影响:模型评估。

IF 24.1 1区 医学 Q1 ENVIRONMENTAL SCIENCES
Gerardo Martín PhD , Joseph James Erinjery PhD , Dileepa Ediriweera PhD , Eyal Goldstein MSc , Ruchira Somaweera PhD , Prof H Janaka de Silva PhD , Prof David G Lalloo DM , Takuya Iwamura PhD , Prof Kris A Murray
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引用次数: 0

摘要

背景:人类活动推动了气候、土地覆盖和人口的变化(全球变化),并改变了蛇咬伤的基线地理分布。人们对全球变化对蛇类和有被蛇咬伤风险的社区的交互影响知之甚少,这限制了预测和管理未来蛇咬伤风险变化的能力:在这项模拟研究中,我们预测了全球变化将如何影响斯里兰卡的蛇咬伤发病率,斯里兰卡是蛇咬伤发病率较高的示范系统。我们使用了共享社会经济路径(SSP)情景分析框架来整合以下领域的预测:气候变化(WorldClim 的历史趋势加上南亚协调区域降尺度实验库中的三个基本区域环流模型,以及两种排放路径[代表性浓度路径 RCP4.5 和 RCP8.5]);土地覆被变化(Dyna-CLUE 模型);以及从 2010 年 1 月 1 日到 2050 年 12 月 31 日的人口密度变化(基于网格化世界人口数据)。预测在三种不同的发展情景下综合进行:可持续发展路径(SSP1 和无进一步排放)、中间路径(SSP2 和 RCP4.5)以及化石燃料路径(SSP5 和 RCP8.5)。对于 SSP2 和 SSP5,我们嵌套了三个不同的 RCM(CNRM-CM5、GFDL-CCM3 和 MPI-ESM-LR;平均值代表共识),以考虑气候预测的变异性。数据被用作基于人蛇接触模式预测蛇咬伤发病率的机理模型的输入:研究结果:从 2010 年到 2050 年,在全国范围内,斯里兰卡的蛇咬伤发病率预计将下降 12%-0%-23%-0%,具体降幅取决于不同的情景。SSP5-RCP8.5情景下的带毒率下降率高于SSP1和SSP2-RCP4.5情景下的带毒率下降率。全国范围内的带毒率变化各不相同。在 SSP1 中,预计人口增长的城市地区以及土地覆被向人类化等级变化的地区的发生率有所下降。在 SSP2-RCP4.5 和 SSP5-RCP8.5 中,大多数地区的发病率预计会下降(SSP5-RCP8.5 显示发病率下降的面积最大),而中部高原和北部等地区则出现局部上升。在该模型中,发病率的下降与人口增长、土地利用向人类化方向转变(可能转移了职业风险因素)以及一些蛇类物种数量的减少有关,这可能是由于全球变暖、气候和栖息地适宜性降低以及一些蛇类物种的迁移造成的:预计未来几十年,斯里兰卡的蛇咬伤发病率将总体下降,但与可持续发展的目标明显存在冲突。因此,减少蛇咬伤发病率的工作需要考虑可持续性干预措施的潜在影响,特别是与气候和土地使用变化有关的影响,以及在预计发病率会增加的地区。鉴于全球变化,被忽视的热带疾病和与生物多样性有关的公共卫生问题(如蛇咬伤)应由环境和健康利益相关者共同管理:英国医学研究委员会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of global change on snakebite envenoming incidence up to 2050: a modelling assessment

Background

Human activities are driving climate, land cover, and population change (global change), and shifting the baseline geographical distribution of snakebite. The interacting effects of global change on snakes and communities at risk of snakebite are poorly understood, limiting capacity to anticipate and manage future changes in snakebite risk.

Methods

In this modelling study, we projected how global change will affect snakebite envenoming incidence in Sri Lanka, as a model system that has a high incidence of snakebite. We used the shared socioeconomic pathway (SSP) scenario analysis framework to integrate forecasts across the domains of: climate change (historical trend from WorldClim plus three underlying regional circulation models [RCMs] in the Coordinated Regional Downscaling Experiment-South Asia repository, with two emissions pathways [representative concentration pathways RCP4.5 and RCP8.5]); land cover change (Dyna-CLUE model); and human population density change (based on Gridded Population of the World data) from Jan 1, 2010 to Dec 31, 2050. Forecasts were integrated under three different development scenarios: a sustainability pathway (SSP1 and no further emissions), a middle-of-the-road pathway (SSP2 and RCP4.5), and a fossil-fuelled pathway (SSP5 and RCP8.5). For SSP2 and SSP5, we nested three different RCMs (CNRM-CM5, GFDL-CCM3, and MPI-ESM-LR; mean averaged to represent consensus) to account for variability in climate predictions. Data were used as inputs to a mechanistic model that predicted snakebite envenoming incidence based on human–snake contact patterns.

Findings

From 2010 to 2050, at the national level, envenoming incidence in Sri Lanka was projected to decrease by 12·0–23·0%, depending on the scenario. The rate of decrease in envenoming incidence was higher in SSP5-RCP8.5 than in SSP1 and SSP2-RCP4.5. Change in envenoming incidence was heterogenous across the country. In SSP1, incidence decreased in urban areas expected to have population growth, and with land cover changes towards anthropised classes. In SSP2-RCP4.5 and SSP5-RCP8.5, most areas were projected to have decreases in incidence (SSP5-RCP8.5 showing the largest area with incidence reductions), while areas such as the central highlands and the north of the country showed localised increases. In the model, decreases occurred with human population growth, land use change towards anthropised classes (potentially shifting occupational risk factors), and decreasing abundance of some snake species, potentially due to global warming and reduced climatic and habitat suitability, with displacement of some snake species.

Interpretation

Snakebite envenoming incidence was projected to decrease overall in the coming decades in Sri Lanka, but with an apparent emerging conflict with sustainability objectives. Therefore, efforts to mitigate snakebite envenoming incidence will need to consider the potential impacts of sustainability interventions, particularly related to climate and land use change and in areas where increases in incidence are projected. In view of global change, neglected tropical diseases and public health issues related to biodiversity, such as snakebite, should be managed collaboratively by both environment and health stakeholders.

Funding

UK Medical Research Council.

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来源期刊
CiteScore
28.40
自引率
2.30%
发文量
272
审稿时长
8 weeks
期刊介绍: The Lancet Planetary Health is a gold Open Access journal dedicated to investigating and addressing the multifaceted determinants of healthy human civilizations and their impact on natural systems. Positioned as a key player in sustainable development, the journal covers a broad, interdisciplinary scope, encompassing areas such as poverty, nutrition, gender equity, water and sanitation, energy, economic growth, industrialization, inequality, urbanization, human consumption and production, climate change, ocean health, land use, peace, and justice. With a commitment to publishing high-quality research, comment, and correspondence, it aims to be the leading journal for sustainable development in the face of unprecedented dangers and threats.
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