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USE OF GIS IN SPATIAL EPIDEMIOLOGY - TICK BORNE-DISEASES AS A MODEL EXAMPLE

Svec, Pavel, Honig, Vaclav, Szturcova, Daniela, IVAN, Igor, Vahalik, Petr, Mrkvicka, Tomas, Grubhoffer, Libor

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bb2.v1/s11.054View metrics

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Publication details

Title
USE OF GIS IN SPATIAL EPIDEMIOLOGY - TICK BORNE-DISEASES AS A MODEL EXAMPLE
Authors
Svec, Pavel, Honig, Vaclav, Szturcova, Daniela, IVAN, Igor, Vahalik, Petr, Mrkvicka, Tomas, Grubhoffer, Libor
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on INFORMATICS, GEOINFORMATICS AND REMOTE SENSING
Publisher
Stef92 Technology
Year
2013
Pages
1033 - 1040 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References26
  1. Blaškovic D. (1967): The public health importance of tick -borne encephalitis in Europe. Bull. Wld. Hlth. Org. 36: Suppl. 1: 5–13.

  2. Carver, S.J., 1991. Integrating multi -criteria evaluation with geographical information systems. Int. J. Geogr. Inf. Sci. 5, 321-339.

  3. Daniel M., Kolář J., Zeman P., Pavelka K., Sádlo J. (1998): Predictive map of Ixodes ricinus high-risk habitats and a tick -borne encephalitis risk assessment using satellite data. Exp. Appl. Acarol., 22: s. 417-433.

  4. Daniel M., Zítek K., Danielov á V ., Kříž B., Valter J, Kott I. (2006): Risk assessment and prediction of Ixodes ricinus tick questing activity and human tick-borne encephalitis infection in space and time in the Czech Republic. Int. J. Med. Microbiol., 296 Suppl. 40: s. 41-47.

  5. Eisen R. J., Eisen L., Lane R. S. (2006): Predicting density of Ixodes pacificus nymphs in dense woodlands in Mendocino county, California, based on geographic information systems and remote sensing versus field-derived data. Am.J.Trop.Hyg., 74: s. 632-640.

  6. Gray J.S., Kirstein F., Robertson J.N., Stein J., Kahl O. (1999): Borrelia burgdorferi sensu lato in Ixodes ricinus ticks and rodents in a recreational park in south -western Ireland. Exp. Appl. Acarol. 23: 717–29.

  7. Chen, K., Blong, R., Jacobson, C., 2 001. MCE-RISK: integrating multicriteria evaluation and GIS for risk decision-making in natural hazards. Environ. Modell. Softw. 16, 387–397.

  8. Hönig, V ., Zubriková, D., Vögerl, M., Švec, P., Pfister, K., Grubhoffer L. (2011): Klíšťat a jimi přenášená on emocnění v Jihočeském kraji a Bavorsku. Jihočeská univerzita v Českých Budějovicích. České Budějovice. 80 p.

  9. Malczewski, J., 2000. On the use of weighted linear combination method in GIS: Common and best practice approaches. Transactions in GIS. 4, 5-22.

  10. Ostfeld R.S., Glass G.E., Keesing F. (2005): Spatial epidemiology: an emerging (or re - emerging) discipline. Trends Ecol. Evol., 20, s. 328-336.

  11. Pietzsch M.E., Medlock J.M., Jones L., Evenelli D., Abbott J., Harding P., Leach S. (2005): Distribution of Ixodes ricinus in British Isles: investigation of historical records. 19: 306–314.

  12. Vystoupil, J. a kol. (2006): Atlas cestovního ruchu České republiky. Ministerstvo pro místní rozvoj ČR, Praha, 156 s.

  13. Yasuykevich V .V ., Kazakova E.V:, Popov I.O., Semenov S.M. (2009): Distribution of Ixodes ricinus L., 1758 and Ixodes persulcatus Schulze, 1930 (Parasitoformes, Ixodidae) in Russia and adjacent countries in view of observable climate changes. Doklady Earth Sciences. 427: 1030–4.

  14. Blaškovic D. (1967): The public health importance of tick -borne encephalitis in Europe. Bull. Wld. Hlth. Org. 36: Suppl. 1: 5–13.

  15. Carver, S.J., 1991. Integrating multi -criteria evaluation with geographical information systems. Int. J. Geogr. Inf. Sci. 5, 321-339.

  16. Daniel M., Kolář J., Zeman P., Pavelka K., Sádlo J. (1998): Predictive map of Ixodes ricinus high-risk habitats and a tick -borne encephalitis risk assessment using satellite data. Exp. Appl. Acarol., 22: s. 417-433.

  17. Daniel M., Zítek K., Danielov á V ., Kříž B., Valter J, Kott I. (2006): Risk assessment and prediction of Ixodes ricinus tick questing activity and human tick-borne encephalitis infection in space and time in the Czech Republic. Int. J. Med. Microbiol., 296 Suppl. 40: s. 41-47.

  18. Eisen R. J., Eisen L., Lane R. S. (2006): Predicting density of Ixodes pacificus nymphs in dense woodlands in Mendocino county, California, based on geographic information systems and remote sensing versus field-derived data. Am.J.Trop.Hyg., 74: s. 632-640.

  19. Gray J.S., Kirstein F., Robertson J.N., Stein J., Kahl O. (1999): Borrelia burgdorferi sensu lato in Ixodes ricinus ticks and rodents in a recreational park in south -western Ireland. Exp. Appl. Acarol. 23: 717–29.

  20. Chen, K., Blong, R., Jacobson, C., 2 001. MCE-RISK: integrating multicriteria evaluation and GIS for risk decision-making in natural hazards. Environ. Modell. Softw. 16, 387–397.

  21. Hönig, V ., Zubriková, D., Vögerl, M., Švec, P., Pfister, K., Grubhoffer L. (2011): Klíšťat a jimi přenášená on emocnění v Jihočeském kraji a Bavorsku. Jihočeská univerzita v Českých Budějovicích. České Budějovice. 80 p.

  22. Malczewski, J., 2000. On the use of weighted linear combination method in GIS: Common and best practice approaches. Transactions in GIS. 4, 5-22.

  23. Ostfeld R.S., Glass G.E., Keesing F. (2005): Spatial epidemiology: an emerging (or re - emerging) discipline. Trends Ecol. Evol., 20, s. 328-336.

  24. Pietzsch M.E., Medlock J.M., Jones L., Evenelli D., Abbott J., Harding P., Leach S. (2005): Distribution of Ixodes ricinus in British Isles: investigation of historical records. 19: 306–314.

  25. Vystoupil, J. a kol. (2006): Atlas cestovního ruchu České republiky. Ministerstvo pro místní rozvoj ČR, Praha, 156 s.

  26. Yasuykevich V .V ., Kazakova E.V:, Popov I.O., Semenov S.M. (2009): Distribution of Ixodes ricinus L., 1758 and Ixodes persulcatus Schulze, 1930 (Parasitoformes, Ixodidae) in Russia and adjacent countries in view of observable climate changes. Doklady Earth Sciences. 427: 1030–4.

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