Modelling the temperature suitability for the risk of West Nile virus establishment in European Culex pipiens populations Di Pol G, Crotta M, Taylor RA2022
Predicting the spatio-temporal spread of West Nile virus in Europe García-Carrasco JM, Muñoz AR, Olivero J, Segura M, Real R2021
Seasonal activity of Dermacentor reticulatus ticks in the era of progressive climate change in eastern Poland Zając Z, Kulisz J, Woźniak A, Bartosik K, Khan A2021
The rise of West Nile Virus in Southern and Southeastern Europe: A spatial-temporal analysis investigating the combined effects of climate, land use and economic changes Watts MJ, Sarto IMV, Mortyn PG, Kotsila P2021
Global climate change and human dirofilariasis in Russia Kondrashin AV, Morozova LF, Stepanova EV, Turbabina NA, Maksimova MS, Morozov AE, Anikina AS, Morozov EN2022
Associating land cover changes with patterns of incidences of climate-sensitive infections: An example on tick-borne diseases in the Nordic area Leibovici DG, Bylund H, Björkman C, Tokarevich N, Thierfelder T, Evengård B, Quegan S2021
The role of climatic changes in the expansion of West Nile fever nosoarea in Russia: Assessment of spatiotemporal trends Zelikhina SV, Shartova NV, Mironova VA, Varentsov MI2021
Babesiosis in southeastern, central and northeastern Europe: An emerging and re-emerging tick-borne disease of humans and animals Bajer A, Beck A, Beck R, Behnke JM, Dwużnik-Szarek D, Eichenberger RM, Farkas R, Fuehrer HP, Heddergott M, Jokelainen P, Leschnik M, Oborina V, Paulauskas A, Radzijevskaja J, Ranka R, Schnyder M, Springer A, Strube C, Tolkacz K, Walochnik J2022
Spatiotemporal analysis of West Nile virus epidemic in South Banat District, Serbia, 2017-2019 Radojicic S, Zivulj A, Petrovic T, Nisavic J, Milicevic V, Sipetic-Grujicic S, Misic D, Korzeniowska M, Stanojevic S2021
Modelling the current and future temperature suitability of the UK for the vector Hyalomma marginatum (acari: Ixodidae) Gillingham EL, Medlock JM, Macintyre H, Phalkey R2023
