Patterns of between-farm contacts via professionals in Sweden

BackgroundInfectious diseases of livestock have negative consequences for animal production as well as animal health and welfare and can be transmitted between farms via direct (live animal movements) as well as indirect (via physical vectors such as, people, transport vehicles and fomites) contacts. The objective of the study was to examine the travel patterns of professionals visiting Swedish farms (veterinarians, milk tanker drivers, artificial inseminators, maintenance technicians and livestock hauliers). This was done by obtaining records of the farms visited by a sample of professionals in the above categories in one week in January, one week in April, one week in July and one week in October in the Swedish counties Västerbotten, Södermanland, Västergötland and Skåne.ResultsThere were twelve participating organisations, and data was provided for one to three individuals/vehicles/veterinary practices per professional category and per geographic region (except for dairy service technicians and livestock hauliers who did not provide data from all regions). There was a trend towards larger areas covered and smaller number of farms visited per week in the north, but exceptions occurred and there were regional variations. Generally, the greatest areas were travelled by milk tankers and livestock hauliers, and the profession travelling over the smallest areas tended to be the veterinarians. Milk tankers visited most farms per week, one milk tanker could visit between 23 and 90 farms per week and travel over areas between 717 km2 and 23,512 km2 per week.ConclusionsValuable insight into the travel patterns of Swedish professionals has emerged although the implications of the study largely concern highly infectious diseases. Movement of live animals pose the greatest risk for the spread of infectious animal diseases; however indirect contacts are important for many diseases. The results of this study indicate that in Sweden a highly contagious disease might spread over a large area in the time span of one incubation period, which ought to be kept in mind in case of an outbreak and in outbreak investigations. The difficulties in contacting some professionals visiting farms could be a problem in an outbreak situation.

[1]  D. Pfeiffer,et al.  Use of data mining techniques to investigate disease risk classification as a proxy for compromised biosecurity of cattle herds in Wales , 2008, BMC veterinary research.

[2]  J. Casal,et al.  Biosecurity practices in Spanish pig herds: perceptions of farmers and veterinarians of the most important biosecurity measures. , 2013, Preventive veterinary medicine.

[3]  G. Davies,et al.  The foot and mouth disease (FMD) epidemic in the United Kingdom 2001. , 2002, Comparative immunology, microbiology and infectious diseases.

[4]  Ann Lindberg,et al.  Disease awareness, information retrieval and change in biosecurity routines among pig farmers in association with the first PRRS outbreak in Sweden. , 2009, Preventive veterinary medicine.

[5]  M. Nöremark,et al.  On-farm biosecurity as perceived by professionals visiting Swedish farms , 2014, Acta Veterinaria Scandinavica.

[6]  J. Stegeman,et al.  Factors associated with the introduction of classical swine fever virus into pig herds in the central area of the 1997/98 epidemic in the Netherlands , 2001, Veterinary Record.

[7]  M. Nöremark,et al.  Network analysis of cattle and pig movements in Sweden: measures relevant for disease control and risk based surveillance. , 2011, Preventive veterinary medicine.

[8]  S. More,et al.  Bioexclusion of diseases from dairy and beef farms: Risks of introducing infectious agents and risk reduction strategies , 2012, The Veterinary Journal.

[9]  R. Christley,et al.  Exploring the role of auction markets in cattle movements within Great Britain. , 2007, Preventive veterinary medicine.

[10]  Jenny Frössling,et al.  Application of network analysis parameters in risk-based surveillance – Examples based on cattle trade data and bovine infections in Sweden , 2012, Preventive Veterinary Medicine.

[11]  Jenny Frössling,et al.  A survey of visitors on Swedish livestock farms with reference to the spread of animal diseases , 2013, BMC Veterinary Research.

[12]  R. Christley,et al.  Direct and indirect contacts between cattle farms in north-west England. , 2008, Preventive veterinary medicine.

[13]  M. Bigras-Poulin,et al.  Network analysis of Danish cattle industry trade patterns as an evaluation of risk potential for disease spread. , 2006, Preventive veterinary medicine.

[14]  M. Nöremark,et al.  Spatial and temporal investigations of reported movements, births and deaths of cattle and pigs in Sweden , 2009, Acta veterinaria Scandinavica.

[15]  F. Beaudeau,et al.  Spatial patterns of Bovine Corona Virus and Bovine Respiratory Syncytial Virus in the Swedish beef cattle population , 2010, Acta veterinaria Scandinavica.

[16]  A. Stott,et al.  Determinants of biosecurity behaviour of British cattle and sheep farmers-a behavioural economics analysis. , 2013, Preventive veterinary medicine.

[17]  M. D. de Jong,et al.  Local spread of classical swine fever upon virus introduction into The Netherlands: Mapping of areas at high risk , 2008, BMC veterinary research.

[18]  H. Nauwynck,et al.  Prevalence of herds with young sows seropositive to pseudorabies (Aujeszky's disease) in northern Belgium. , 1999, Preventive veterinary medicine.

[19]  A. Wedderkopp,et al.  Salmonella dublin in Danish Dairy Herds: Frequency of Change to Positive Serological Status in Bulk Tank Milk ELISA in Relation to Serostatus of Neighbouring Farms , 2001, Acta veterinaria Scandinavica.

[20]  J. Casal,et al.  Biosecurity measures on swine farms in Spain: perceptions by farmers and their relationship to current on-farm measures. , 2007, Preventive veterinary medicine.

[21]  M. Nöremark,et al.  Application of routines that contribute to on-farm biosecurity as reported by Swedish livestock farmers. , 2010, Transboundary and emerging diseases.

[22]  M. Nöremark,et al.  SURVEILLANCE OF INFECTIOUS DISEASES IN ANIMALS AND HUMANS IN SWEDEN 2019 , 2012 .

[23]  J. Frössling,et al.  Spatio-temporal evaluation of cattle trade in Sweden: description of a grid network visualization technique. , 2010, Geospatial health.

[24]  R. Davies,et al.  Prevalence, incidence and geographical distribution of serovars of Salmonella on dairy farms in England and Wales , 2005, Veterinary Record.

[25]  J. Gibbens,et al.  Risk factors for transmission of foot-and-mouth disease during an outbreak in southern England in 2007 , 2011, Veterinary Record.