在景观尺度上估算蓖麻硬蜱的密度。

Estimating Ixodes ricinus densities on the landscape scale.

作者信息

Boehnke Denise, Brugger Katharina, Pfäffle Miriam, Sebastian Patrick, Norra Stefan, Petney Trevor, Oehme Rainer, Littwin Nina, Lebl Karin, Raith Johannes, Walter Melanie, Gebhardt Reiner, Rubel Franz

机构信息

Institute of Geography and Geoecology, Karlsruhe Institute of Technology, Reinhard-Baumeister-Platz 1, 76131, Karlsruhe, Germany.

Institute for Veterinary Public Health, University of Veterinary Medicine Vienna, Veterinärplatz 1, 1210, Vienna, Austria.

出版信息

Int J Health Geogr. 2015 Aug 14;14:23. doi: 10.1186/s12942-015-0015-7.

DOI:10.1186/s12942-015-0015-7

PMID:26272596

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4536605/

Abstract

BACKGROUND

The study describes the estimation of the spatial distribution of questing nymphal tick densities by investigating Ixodes ricinus in Southwest Germany as an example. The production of high-resolution maps of questing tick densities is an important key to quantify the risk of tick-borne diseases. Previous I. ricinus maps were based on quantitative as well as semi-quantitative categorisations of the tick density observed at study sites with different vegetation types or indices, all compiled on local scales. Here, a quantitative approach on the landscape scale is introduced.

METHODS

During 2 years, 2013 and 2014, host-seeking ticks were collected each month at 25 sampling sites by flagging an area of 100 square meters. All tick stages were identified to species level to select nymphal ticks of I. ricinus, which were used to develop and calibrate Poisson regression models. The environmental variables height above sea level, temperature, relative humidity, saturation deficit and land cover classification were used as explanatory variables.

RESULTS

The number of flagged nymphal tick densities range from zero (mountain site) to more than 1,000 nymphs/100 m(2). Calibrating the Poisson regression models with these nymphal densities results in an explained variance of 72 % and a prediction error of 110 nymphs/100 m(2) in 2013. Generally, nymphal densities (maximum 374 nymphs/100 m(2)), explained variance (46 %) and prediction error (61 nymphs/100 m(2)) were lower in 2014. The models were used to compile high-resolution maps with 0.5 km(2) grid size for the study region of the German federal state Baden-Württemberg. The accuracy of the mapped tick densities was investigated by leave-one-out cross-validation resulting in root-mean-square-errors of 227 nymphs/100 m(2) for 2013 and 104 nymphs/100 m(2) for 2014.

CONCLUSIONS

The methodology introduced here may be applied to further tick species or extended to other study regions. Finally, the study is a first step towards the spatial estimation of tick-borne diseases in Central Europe.

摘要

背景

本研究以德国西南部的蓖麻硬蜱为例，描述了对宿主搜寻期若蜱密度空间分布的估计。制作宿主搜寻期蜱密度的高分辨率地图是量化蜱传疾病风险的重要关键。先前的蓖麻硬蜱地图是基于在不同植被类型或指数的研究地点观察到的蜱密度的定量以及半定量分类，所有这些都是在局部尺度上编制的。在此，引入了一种景观尺度的定量方法。

方法

在2013年和2014年的两年间，每月在25个采样点通过标记100平方米的区域来收集宿主搜寻期蜱。所有蜱虫阶段都鉴定到物种水平，以选择蓖麻硬蜱的若蜱，用于开发和校准泊松回归模型。环境变量海拔高度、温度、相对湿度、饱和亏缺和土地覆盖分类用作解释变量。

结果

标记的若蜱密度数量从零（山区站点）到超过1000只若蜱/100平方米不等。用这些若蜱密度校准泊松回归模型，2013年的解释方差为72%，预测误差为110只若蜱/100平方米。一般来说，2014年的若蜱密度（最大374只若蜱/100平方米）、解释方差（46%）和预测误差（61只若蜱/100平方米）较低。这些模型用于为德国巴登 - 符腾堡州的研究区域编制网格大小为0.5平方公里的高分辨率地图。通过留一法交叉验证研究了映射蜱密度的准确性，2013年的均方根误差为227只若蜱/100平方米，2014年为104只若蜱/100平方米。

结论

这里介绍的方法可能适用于其他蜱种或扩展到其他研究区域。最后，该研究是中欧蜱传疾病空间估计的第一步。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/27d9/4536605/118d77c24570/12942_2015_15_Fig1_HTML.jpg

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在景观尺度上估算蓖麻硬蜱的密度。

Estimating Ixodes ricinus densities on the landscape scale.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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