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Determinants of the current and future distribution of the West Nile virus mosquito vector Culex pipiens in Spain

机译:西尼罗河病毒蚊子矢量Culex Pipiens的当前和未来分布的决定因素

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摘要

Changes in environmental conditions, whether related or not to human activities, are continuously modifying the geographic distribution of vectors, which in turn affects the dynamics and distribution of vector-borne infectious diseases. Determining the main ecological drivers of vector distribution and how predicted changes in these drivers may alter their future distributions is therefore of major importance. However, the drivers of vector populations are largely specific to each vector species and region. Here, we identify the most important human-activity-related and bioclimatic predictors affecting the current distribution and habitat suitability of the mosquito Culex pipiens and potential future changes in its distribution in Spain. We determined the niche of occurrence (NOO) of the species, which considers only those areas lying within the range of suitable environmental conditions using presence data. Although almost ubiquitous, the distribution of Cx. pipiens is mostly explained by elevation and the degree of urbanization but also, to a lesser extent, by mean temperatures during the wettest season and temperature seasonality. The combination of these predictors highlights the existence of a heterogeneous pattern of habitat suitability, with most suitable areas located in the southern and northeastern coastal areas of Spain, and unsuitable areas located at higher altitude and in colder regions. Future climatic predictions indicate a net decrease in distribution of up to 29.55%, probably due to warming and greater temperature oscillations. Despite these predicted changes in vector distribution, their effects on the incidence of infectious diseases are, however, difficult to forecast since different processes such as local adaptation to temperature, vector-pathogen interactions, and human-derived changes in landscape may play important roles in shaping the future dynamics of pathogen transmission.
机译:环境条件的变化,无论是相关还是不对人类活动,都是不断修改载体的地理分布,这反过来影响载体传染性传染病的动态和分布。确定矢量分布的主要生态驱动因素以及这些驱动因素的预测变化如何改变其未来的分布是重大重要性的。然而,传染媒介群体的驱动程序在很大程度上是每个载体物种和地区的特定。在这里,我们确定了影响蚊虫蚊虫的当前分布和栖息地适合其在西班牙分布的当前分布和栖息地适用性的最重要的人类活动和生物融合器。我们确定了物种的出现(NOO)的利基,这仅考虑使用存在数据的合适环境条件范围内的那些区域。虽然几乎普遍存在,CX的分布。 Pipiens主要通过高度和城市化程度来解释,而且在较小程度上以较小的程度为主,其温度在最潮湿的季节和温度季节性。这些预测变量的组合突出了存在的栖息地适用性模式,位于西班牙南部和东北沿海地区的最合适的地区,不合适的地区位于更高的海拔和更冷的地区。未来的气候预测表明分布的净减少高达29.55%,可能是由于变暖和更高的温度振荡。尽管这些预测的载体分布变化,但它们对传染病发生率的影响是难以预测的,因为局部适应温度,载体病原体相互作用和人为景观的人为衍生的变化可能起着重要作用塑造病原体传输的未来动态。

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  • 来源
    《Environmental research》 |2020年第9期|109837.1-109837.11|共11页
  • 作者

    L. Gangoso; D. Aragones; J. Martinez-de la Puente; J. Lucientes; S. Delacour-Estrella; R. Estrada Pena; T. Montalvo; R. Bueno-Mari; D. Bravo-Barriga; E. Frontera; E. Marques; I. Ruiz-Arrondo; A. Munoz; J.A. Oteo; M.A. Miranda; C. Barcelo; M.S. Arias Vazquez; M.I. Silva-Torres; M. Ferraguti; S. Magallanes; J. Muriel; A. Marzal; C. Aranda; S. Ruiz; M.A. Gonzalez; R. Morchon; D. Gomez-Barroso; J. Figuerola;

  • 作者单位

    Department of Wetland Ecology Estacion Biologica de Donana EBD-CSIC C/ America Vespucio 26 41092 Seville Spain;

    Remote Sensing and Geographic Information Systems Laboratory (LAST-EBD) Estacion Biologica de Donana EBD-CSIC C/ Amirico Vespucio 26 41092 Seville Spain;

    Department of Wetland Ecology Estacion Biologica de Donana EBD-CSIC C/ America Vespucio 26 41092 Seville Spain CIBER of Epidemiology and Public Health (CIBERESP) C/ Monforte de Lemos 3-5 Pabellon 11 28029 Madrid Spain;

    Animal Health Department The AgriFood Institute of Aragon (IA2) Faculty of Veterinary Medicine C/ Miguel Servet 177 50013 Zaragoza Spain;

    Animal Health Department The AgriFood Institute of Aragon (IA2) Faculty of Veterinary Medicine C/ Miguel Servet 177 50013 Zaragoza Spain;

    Animal Health Department The AgriFood Institute of Aragon (IA2) Faculty of Veterinary Medicine C/ Miguel Servet 177 50013 Zaragoza Spain;

    Agenda de Salut Publica de Barcelona Consorci Sanitari de Barcelona Placet Lesseps 8 08023 Barcelona Spain CIBER of Epidemiology and Public Health (CIBERESP) C/ Monforte de Lemos 3-5 Pabellon 11 28029 Madrid Spain;

    Departamento de Investigation y Desarrollo (I + D) Laboratorios Lokimica Pollgono Industrial El Bony C/42 n~°4 46470 Catarroja Valencia Spain;

    Department of Animal Health Veterinary Faculty University of Extremadura Av. de la Universidad s 10003 Cdceres Spain;

    Department of Animal Health Veterinary Faculty University of Extremadura Av. de la Universidad s 10003 Cdceres Spain;

    Service of Mosquito Control (Badia de Roses i del Baix Ter) Placa del Bruel 1 Castello d'Empuries 17486 Empuriabrava Girona Spain;

    Center of Rickettsiosis and Arthropod-Borne Diseases Hospital Vniversitario San Pedro-CIBIR C/ Piqueras 98 26006 Logrono la Rioja Spain;

    Quimera Biological Systems S.L. Pol Malpica-Alfmdin C/ Olivo 14 Nave 6 50171 La Puebla de Alfinden Zaragoza Spain;

    Center of Rickettsiosis and Arthropod-Borne Diseases Hospital Vniversitario San Pedro-CIBIR C/ Piqueras 98 26006 Logrono la Rioja Spain;

    Applied Zoology and Animal Conservation group Department of Biology University of the Balearic Islands (U1B) Ctra. de Valldemossa km 7.5 07122 Palma Illes Balears Spain;

    Applied Zoology and Animal Conservation group Department of Biology University of the Balearic Islands (U1B) Ctra. de Valldemossa km 7.5 07122 Palma Illes Balears Spain;

    Zoonoses and Public Health. COPAR Research Group Faculty of Veterinary University of Santiago de Compostela Av. Carvallo Calero 27002 Lugo Spain;

    Zoonoses and Public Health. COPAR Research Group Faculty of Veterinary University of Santiago de Compostela Av. Carvallo Calero 27002 Lugo Spain;

    Department of Anatomy Cellular Biology and Zoology University of Extremadura Av. de Elvas s 06006 Badajoz Spain;

    Department of Anatomy Cellular Biology and Zoology University of Extremadura Av. de Elvas s 06006 Badajoz Spain;

    Department of Anatomy Cellular Biology and Zoology University of Extremadura Av. de Elvas s 06006 Badajoz Spain Instituto Pirenaico de Ecologla IPE (CSIC) Av. Nuestra Senora de la Victoria 16 22700 Jaca Spain;

    Department of Anatomy Cellular Biology and Zoology University of Extremadura Av. de Elvas s 06006 Badajoz Spain;

    Centre de Recerca en Sanitat Animal (CReSA IRTA-UAB) Campus de la Universitat Autonoma de Barcelona 08193 Bellaterra Barcelona Spain Servei de Control de Mosquits Cornell Comarcal del Baix Llobregat N-340 08980 Sant Feliu de Llobregat Barcelona Spain;

    Service of Mosquito Control de la Diputacion Provincial de Huelva Ctra. Hospital Infanta Elena s 21007 Huelva Spain;

    Department of Animal Health NEIKER-Basque Institute for Agricultural Research and Development Basque Research and Technology Alliance (BRTA) Berreaga 1 48160 Derio Bizkaia Spain;

    Group of Animal and Human dirofilariosis. University of Salamanca Faculty of Pharmacy Campus Miguel Unamuno C/ Lie. Mendez Nieto s 37007 Salamanca Spain;

    Centro Nacional de Epidemiologia. Instituto de Salud Carlos Ⅲ C/ Monforte de Lemos 5 28029 Madrid. Spain CIBER of Epidemiology and Public Health (CIBERESP) C/ Monforte de Lemos 3-5 Pabellon 11 28029 Madrid Spain;

    Department of Wetland Ecology Estacion Biologica de Donana EBD-CSIC C/ America Vespucio 26 41092 Seville Spain CIBER of Epidemiology and Public Health (CIBERESP) C/ Monforte de Lemos 3-5 Pabellon 11 28029 Madrid Spain;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Climate change; Culicidae; Habitat suitability; Species distribution model; Vector-borne pathogens;

    机译:气候变化;辛迪亚;栖息地适用性;物种分布模型;矢量传播病原体;

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