预测恰加斯病病媒在美洲的潜在分布和共存情况。

Mariano Altamiranda-Saavedra, Sandra Carolina Montaño Contreras, Juan Camilo Rivera Pacheco, Karen Andrea Bernal Contreras, Clara Roció Galvis López, Adolfo Vasquez Trujillo, David A Moo-Llanes
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摘要

预测恰加斯病病媒在美洲的潜在分布和共存情况,是了解该疾病生态流行动态的一项重要任务。我们对 3 个物种--Rhodnius prolixus(半翅目:Reduviidae)、Cavernicola pilosa(半翅目:Reduviidae)和 Rhodnius pictipes(半翅目:Reduviidae)的潜在分布和共存情况进行了模拟。根据相关性分析、积刀分析以及对物种生物学和自然史的了解,获得了存在记录并选择了环境变量。利用 R 软件包 kuenm 中的 MaxEnt 算法建立了潜在分布模型,并对 BAM 图(生物变量、非生物变量和运动变量)的各种方案进行了评估。每个物种的最终模型的变量都不同。象皮杜鹃可能分布在南美洲,特别是巴西、玻利维亚、秘鲁、哥伦比亚、委内瑞拉、圭亚那和苏里南。环境条件适合 R. prolixus 的地区位于巴西南部、秘鲁、哥伦比亚、墨西哥南部、危地马拉、萨尔瓦多和洪都拉斯,而 C. pilosa 则位于巴西东南部、中美洲东南部、秘鲁、厄瓜多尔、哥伦比亚、委内瑞拉、圭亚那、苏里南和法属圭亚那。共现分析揭示了新热带地区的独特模式,有些地区可能分布有一个或多个物种。在巴西,出现和共现区域主要集中在西北部和东南部地区。总之,这项研究为病媒的潜在分布和共存提供了宝贵的信息,可以为有针对性的病媒控制策略提供参考,并为全球抗击南美锥虫病的努力做出贡献。
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Predicting the potential distribution and coexistence of Chagas disease vectors in the Americas.

Predicting the potential distribution and coexistence of suitable geographic areas for Chagas disease vectors in the Americas is a crucial task for understanding the eco-epidemiological dynamics of this disease. The potential distribution and coexistence of 3 species-Rhodnius prolixus (Hemiptera: Reduviidae), Cavernicola pilosa (Hemiptera: Reduviidae), and Rhodnius pictipes (Hemiptera: Reduviidae) were modeled. Presence records were obtained and environmental variables were selected based on correlation analysis, Jackknife analysis and knowledge of the biology and natural history of the species. The MaxEnt algorithm included in the kuenm package of R software was used for modeling the potential distribution, and various scenarios of the BAM diagram (Biotic, Abiotic, and Movement variables) were evaluated. The variables contributing to the final models were different for each species. Rhodnius pictipes showed a potential distribution in South America, particularly in Brazil, Bolivia, Peru, Colombia, Venezuela, Guyana, and Suriname. Areas with environmentally suitable conditions for R. prolixus were located in southern Brazil, Peru, Colombia, southern Mexico, Guatemala, El Salvador, and Honduras, whereas for C. pilosa they were in southeastern Brazil, southeastern Central America, Peru, Ecuador, Colombia, Venezuela, Guyana, Suriname, and French Guiana. Co-occurrence analysis revealed distinct patterns in the neotropical region, with some areas indicating the potential distribution of 1 or more species. In Brazil, occurrence and co-occurrence areas were concentrated in the northwest and southeast regions. Overall, this study provides valuable information on the potential distribution and coexistence of vectors, which can inform targeted vector control strategies and contribute to global efforts in combating Chagas disease.

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