An investigation of the movement patterns and biosecurity practices on Thoroughbred and Standardbred stud farms in New Zealand.
Abstract: Utilising a face-to-face interview of stud managers, a survey was conducted to investigate the movement patterns around, and biosecurity practices on, Thoroughbred and Standardbred stud farms. Eligible stud farms (n=60) were identified from the 2009 Thoroughbred stallion register and 2009 Standardbred stallion register, and stud managers were asked to participate in the interview. In total, 27 stud managers agreed to participate in the study, and participating stud farms included 38% of Thoroughbred and 60% of Standardbred mares bred in 2009. All stud managers reported the movement of horses to and from their stud farm. The median number of movement events per year was 127 (interquartile range 83-300). The frequency of movement events from a stud farm was not associated with the breed of horse managed on the stud farm, however Thoroughbred horses travelled further than Standardbred horses during these movement events (P<0.001). The movement patterns of horses around stud farms showed a strong seasonality associated with the commercial breeding season of each breed. While 26 (96%) of stud managers reported having procedures in place for checking newly arriving horses, only 6 (22%) stud managers reported isolating horses on arrival as a standard protocol. The main reason for isolating horses on properties, where isolation was not a standard procedure, was in response to strangles outbreaks on other stud farms (n=10). Only 2 (7%) stud managers reported implementing visitor protocols, and these protocols only applied to visiting veterinarians, but not to farriers. These findings have important implications for the control of both endemic and exotic infectious disease outbreaks within the New Zealand breeding population as the high frequency of movement around stud farms, the high number of visitors to stud farms and the lack of effective biosecurity practices or visitor protocols will be critical factors in the spread of equine influenza during an outbreak.
Copyright © 2012 Elsevier B.V. All rights reserved.
Publication Date: 2012-08-31 PubMed ID: 22939775DOI: 10.1016/j.prevetmed.2012.08.003Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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This research investigates the movement patterns of horses and the biosecurity practices on Thoroughbred and Standardbred stud farms in New Zealand. It reveals the frequency of horse movement and the lack of effective disease control protocols could potentially facilitate the spread of infectious diseases.
Study Design and Method
- The researchers conducted a study through face-to-face interviews of stud managers to gather information on movement patterns and biosecurity practices on their stud farms.
- The study involved 60 eligible stud farms identified from the 2009 Thoroughbred stallion register and 2009 Standardbred stallion register.
- Out of these, 27 stud managers agreed to participate, whose farms included 38% of Thoroughbred and 60% of Standardbred mares bred in 2009.
Key Findings
- All stud farm managers reported horse movement to and from their farms, with a median of 127 movement events annually.
- The frequency of these movements wasn’t associated with the breed of the horses on the farm.
- Thoroughbred horses, however, were found to travel further distances during these moves than Standardbred horses.
- The team also observed strong seasonal movement patterns tied to each breed’s commercial breeding season.
Biosecurity Practices
- 96% of the stud managers reported having procedures in place for checking new horses on arrival.
- However, only 22% reported isolating horses as a standard protocol, mainly in response to strangles outbreaks on other farms.
- The study also found only 7% of managers implemented visitor protocols – which were limited to visiting veterinarians, excluding farriers.
Implications
- The findings indicate potential risks in disease control amidst New Zealand’s horse breeding population.
- The lack of biosecurity protocols, high frequency of horse movement and high visitor frequency could escalate the spread of infectious diseases, such as equine influenza, during an outbreak.
Cite This Article
APA
Rosanowski SM, Cogger N, Rogers CW.
(2012).
An investigation of the movement patterns and biosecurity practices on Thoroughbred and Standardbred stud farms in New Zealand.
Prev Vet Med, 108(2-3), 178-187.
https://doi.org/10.1016/j.prevetmed.2012.08.003 Publication
Researcher Affiliations
- EpiCentre, Institute of Veterinary, Animal, and Biomedical Sciences, Massey University, Private Bag 11-222, Palmerston North, New Zealand. sarah.rosanowski@estendart.co.nz
MeSH Terms
- Animal Husbandry
- Animals
- Communicable Disease Control / standards
- Disease Outbreaks / prevention & control
- Disease Outbreaks / veterinary
- Female
- Horse Diseases / prevention & control
- Horses
- Humans
- Male
- New Zealand
- Seasons
- Surveys and Questionnaires
- Transportation
Citations
This article has been cited 10 times.- Turcotte GK, O'Sullivan TL, Spence KL, Winder CB, Greer AL. Biosecurity perspectives of equestrian competition organizers in Ontario, Canada. Front Vet Sci 2025;12:1713303.
- McGilvray TA, Stevens KB, Spence KL, Rosanowski SM, Slater J, Cardwell JM. Spatiotemporal patterns in British racing and equestrian sports: Implications for pathogen transmission. Equine Vet J 2026 Mar;58(2):497-507.
- Medeiros PR, Figueiredo LS, de Melo UP, Mariz ALB, de Brito EL, Araújo IRDS, Silva ALDC, Costa MHDS, Ferreira C, Assis DB, da Silva CRM, de Souza AL, de Souza MPDS. Survey on sanitary practices and knowledge about infectious diseases among equine owners in the State of Rio Grande do Norte, Brazil. Braz J Vet Med 2023;45:e003323.
- Riley CB, Padalino B, Rogers CW, Thompson KR. Human Injuries Associated with the Transport of Horses by Road. Animals (Basel) 2023 May 10;13(10).
- Cooper CJ, Arroyo LG, Pearl DL, Hewson J, Lillie BN. Survey of the equine broodmare industry, abortion, and equine herpesvirus-1 vaccination in Ontario. Can Vet J 2021 Feb;62(2):124-132.
- Bolwell CF, Rogers CW, Benschop J, Collins-Emerson JM, Adams B, Scarfe KR, Gee EK. Seroprevalence of Leptospira in Racehorses and Broodmares in New Zealand. Animals (Basel) 2020 Oct 23;10(11).
- Spence KL, O'Sullivan TL, Poljak Z, Greer AL. Descriptive analysis of horse movement networks during the 2015 equestrian season in Ontario, Canada. PLoS One 2019;14(7):e0219771.
- Rosanowski SM, Carpenter TE, Adamson D, Rogers CW, Pearce P, Burns M, Cogger N. An economic analysis of a contingency model utilising vaccination for the control of equine influenza in a non-endemic country. PLoS One 2019;14(1):e0210885.
- Padalino B, Rogers CW, Guiver D, Thompson KR, Riley CB. A Survey-Based Investigation of Human Factors Associated With Transport Related Injuries in Horses. Front Vet Sci 2018;5:294.
- Toombs-Ruane LJ, Riley CB, Kendall AT, Bolwell CF, Benschop J, Rosanowski SM. Antimicrobial Susceptibilities of Aerobic Isolates from Respiratory Samples of Young New Zealand Horses. J Vet Intern Med 2015 Nov-Dec;29(6):1700-6.
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