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| Regular Paper | Abstruct | Lead Author | Regular Paper or Abstract Title |
 | | Benschop, J. | APPLICATION OF A NOVEL METHOD OF SPATIALLY ADAPTIVE SMOOTHING |
|  | Berke, Olaf | ON THE EMERGENCE OF ECHINOCOCCUS MULTILOCULARIS INFECTIONS AMONG RED FOXES: LOWER SAXONY, 1991–2005 |
| | Bessell, Paul | Geographic and topographic determinants of Foot and Mouth Disease transmission |
| | Birch, Colin | CELLULAR AUTOMATA MODELLING OF SCRAPIE TRANSMISSION BETWEEN FLOCKS USING A CARTOGRAM |
| | Boender, Gert Jan | Risk maps for the spatial spread of contagious animal diseases with application to highly pathogenic avian influenza in poultry |
| | Durr, P.A. | Denominators count: a method for real-time visualization of outbreaks during animal health epidemics. |
| | East, Iain J. | IDENTIFICATION OF AUSTRALIAN POULTRY REARING AREAS AT HIGH RISK OF EXPOSURE TO AVIAN INFLUENZA |
| | Ersbøll, Annette Kjær | Improving semivarigram estimates by means of regional polish and robust estimation in the case of spread of Salmonella Dublin between irregularly spaced cattle herds |
| | Gay, Emilie | A SPATIAL HAZARD MODEL FOR CLUSTER DETECTION AND RISK FACTORS ANALYSIS OF CONTINUOUS VARIABLES |
| | Hartemink, N.A. | An approach to map the risk for bluetongue virus in Northern Europe |
| | Hicks, J E A | Development and application of a range of GIS solutions to support the successful control of three incursions of avian influenza in Great Britain |
| | Highfield, Linda D. | Representation of animal distributions in space: how geostatistical estimates impact simulation mode |
| | Hofrichter, Johannes | Using ArcGIS and R for 4D epidemiological modelling |
| | Kadohira, M | THE EPIDEMIOLOGY OF BOVINE SPONGIFORM ENCEPHALOPATHY IN HOKKAIDO, JAPAN, SEPTEMBER 2001 TO DECEMBER 2006 |
| | Karreman, G | Using GIS Methods for Bilateral Surveillance of Viral Hemorrhagic Septicemia Virus (VHSv) in Fish Species in the Great Lakes Drainage Basin |
| | Lockhart, C | A GIS approach to regional surveillance for avian influenza |
| | Magalhaes, Ricardo J. Soares | Integrating genotyping data, cattle movement and spatial multi-criteria decision analysis to investigate bovine TB infection in the southeast of England |
| | Miller, Ryan | Risk-based Targeted Surveillance: Identifying Areas and Populations of Importance for Surveillance of High Path Avian Influenza in the United States |
| | Novaes Gomes, Murilo | LANDSCAPE RISK FACTORS FOR RABIES IN CATTLE, SAO PAULO STATE, BRAZIL |
| | Porphyre, T. | SPATIAL PREDICTION OF WILDLIFE RESERVOIR ABUNDANCE: A BASIS TO COST-EFFECTIVELY CONTROL BOVINE TB |
| | Racloz, V. | CHANGES IN DISEASE RISK STATUS FOR VECTOR-BORNE DISEASES: USE OF GIS AND STATISTICAL MODELING |
| | Rinzin, K | Descriptive Spatial Epidemiology of Rabies in Eastern Bhutan |
| | Rivas, Ariel L. | Beyond prevalence and clustering: spatial evaluation of connectivity in slowly and rapidly spreading diseases (Johne’s Disease in Israel and Foot-and-Mouth Disease in Uruguay) |
| | Rollo, Susan N. | A NOVEL ESTIMATION METHOD FOR PREDICTING SPATIAL DENSITY OF FERAL SWINE USING ECOLOGICAL DATA |
| | Solymosi, Norbert | REGION SPECIFIC HEAT STRESS FORECAST FOR CATTLE PRODUCTION BASED ON CLIMATE CHANGE SCENARIOS |
| | Stevens, K.B. | Investigation of the Relationship Between Areas Suitable for Badger Sett Construction and the Incidence of Bovine Tuberculosis In England and Wales using Knowledge-Driven Spatial Modelling |
| | Vigre, Håkan | SPATIAL PATTERN OF HIGH PATHOGENIC H5N1 AVIAN INFLUENZA INFECTION IN DEAD WILD BIRDS IN DENMARK |
| | Ward, Michael P. | EVOLUTION OF THE 2005–2006 AVIAN INFLUENZA H5N1 EPIDEMIC IN ROMANIA: GIS AND SPATIAL ANALYSIS |