Decoding the Geography of Natural TBEV Microfoci in Germany: A Geostatistical Approach Based on Land-Use Patterns and Climatological Conditions

Tickborne-encephalitis (TBE) is a potentially life-threating neurological disease that is mainly transmitted by ticks. The goal of the present study is to analyze the potential uniform environmental patterns of the identified TBEV microfoci in Germany. The results are used to calculate probabilities...

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Bibliographic Details
Published in:International journal of environmental research and public health 2022-09, Vol.19 (18), p.11830
Main Authors: Borde, Johannes P, Glaser, Rüdiger, Braun, Klaus, Riach, Nils, Hologa, Rafael, Kaier, Klaus, Chitimia-Dobler, Lidia, Dobler, Gerhard
Format: Article
Language:English
Subjects:
Air temperature
Animals
Arachnids
Coniferous forests
Datasets
Disease transmission
Encephalitis
Encephalitis Viruses, Tick-Borne
Encephalitis, Tick-Borne
Epidemiology
Evapotranspiration
Geography
Geostatistics
Germany
High resolution
Humans
Infections
Ixodes
Land cover
Land use
Neurological diseases
Prediction models
Rodents
Ticks
Viruses
Zoonoses
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Summary:Tickborne-encephalitis (TBE) is a potentially life-threating neurological disease that is mainly transmitted by ticks. The goal of the present study is to analyze the potential uniform environmental patterns of the identified TBEV microfoci in Germany. The results are used to calculate probabilities for the present distribution of TBEV microfoci in Germany based on a geostatistical model. We aim to consider the specification of environmental characteristics of locations of TBEV microfoci detected in Germany using open access epidemiological, geographical and climatological data sources. We use a two-step geostatistical approach, where in a first step, the characteristics of a broad set of environmental variables between the 56 TBEV microfoci and a control or comparator set of 3575 sampling points covering Germany are compared using Fisher's Exact Test. In the second step, we select the most important variables, which are then used in a MaxEnt distribution model to calculate a high resolution (400 × 400 m) probability map for the presence of TBEV covering the entire area of Germany. The findings from the MaxEnt prediction model indicate that multi annual actual evapotranspiration (27.0%) and multi annual hot days (22.5%) have the highest contribution to our model. These two variables are followed by four additional variables with a lower, but still important, explanatory influence: Land cover classes (19.6%), multi annual minimum air temperature (14.9%), multi annual sunshine duration (9.0%), and distance to coniferous and mixed forest border (7.0%). : Our findings are based on defined TBEV microfoci with known histories of infection and the repeated confirmation of the virus in the last years, resulting in an in-depth high-resolution model/map of TBEV microfoci in Germany. Multi annual actual evapotranspiration (27%) and multi annual hot days (22.5%) have the most explanatory power in our model. The results may be used to tailor specific regional preventive measures and investigations.
ISSN:1660-4601
1661-7827
1660-4601
DOI:10.3390/ijerph191811830