Murray R. Woodbury scite author profile

BackgroundMany trichostrongylid nematode species are reported to infect bison, some of which are major causes of disase and production loss in North American bison herds. However, there is little information on the species distribution and relative abundance of these parasites in either commercial or conservation herds. This is largely because trichostrongylid nematode species cannot be distinguished by visual microscopic examination of eggs present in feces. Consequently, we have applied ITS2 rDNA nemabiome metabarcoding to describe the trichostrongyle parasite species diversity in 58 bison production groups derived from 38 commercial North American plains bison (Bison bison bison) herds from across western Canada, and two bison conservation herds located in Elk Island National Park (EINP) [plains bison and wood bison (Bison bison athabascae)] and one in Grasslands National Park (GNP) (plains bison).ResultsWe report much higher infection intensities and parasite species diversity in commercial bison herds than previously reported in beef cattle herds grazing similar latitudes. Predominant trichostrongyle parasite species in western Canadian commercial bison herds are those commonly associated with Canadian cattle, with Ostertagia ostertagi being the most abundant followed by Cooperia oncophora. Combined with high fecal egg counts in many herds, this is consistent with significant clinical and production-limiting gastrointestinal parasitism in western Canadian bison herds. However, Haemonchus placei was the most abundant species in five of the production groups. This is both surprising and important, as this highly pathogenic blood-feeding parasite has not been reported at such abundance, in any livestock species, at such northerly latitudes. The presence of Trichostrongylus axei as the most abundant parasite in four herds is also unusual, relative to cattle. There were striking differences in parasite communities between the EINP and commercial bison herds. Most notably, Orloffia bisonis was the predominant species in the wood bison herd despite being found at only low levels in all other herds surveyed.ConclusionsThis study represents the most comprehensive description of parasite communities in North American bison to date and illustrates the power of deep amplicon sequencing as a tool to study species diversity in gastrointestinal nematode communities.Electronic supplementary materialThe online version of this article (10.1186/s13071-018-2880-y) contains supplementary material, which is available to authorized users.

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An Outbreak of Sheep-Associated Malignant Catarrhal Fever in Bison (Bison Bison) after Exposure to Sheep at a Public Auction Sale

Berezowski

Appleyard

Crawford

et al. 2005

J VET Diagn Invest

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Abstract. An outbreak of malignant catarrhal fever (MCF) among bison sold at an auction market was studied for an 18-month period. Forty-five of 163 bison submitted for sale from 8 different bison farms died on 7 other destination farms. The outbreak began on day 50 after the sale, peaked between days 60 and 70, and ended on day 220. Twenty-one dead bison were confirmed to be MCF cases by clinical histories, pathology, and detection of ovine herpesvirus-2 DNA in their tissues with polymerase chain reaction assays. Twenty-four dead bison were classified as suspect MCF cases from clinical histories. No cases of MCF were observed among bison remaining on originating farms or resident bison mixed with sale bison on destination farms. There were no sheep reported within 3 km of originating or destination farms, limiting bison exposure to sheep to the auction facility, where sheep were present for less than 1 day. The outbreak provides an illustration of the temporal distribution of MCF mortality expected in bison and an estimate of the time from exposure until death from MCF after a single short exposure to sheep. The study provides evidence that bison with MCF do not transmit MCF to other bison.

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Comparison of Three Drilling Techniques for Carpometacarpal Joint Arthrodesis in Horses

et al. 2009

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Physiologic Effects of Nasal Oxygen or Medical Air Administered Prior to and During Carfentanil– Xylazine Anesthesia in North American Elk (Cervus canadensis manitobensis)

Paterson¹,

Caulkett²,

Woodbury³

2009

Journal of Zoo and Wildlife Medicine

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This study compared the physiologic effects of carfentanil-xylazine anesthesia in elk administered nasal oxygen or medical air. Eight female 5 +/- 2-yr-old (mean +/- SD) captive elk (Cervus canadensis manitobensis) weighing 245 +/- 20 kg and habituated to chute restraint were studied in a randomized crossover. Nasal insufflation of oxygen or medical air (10 L/min) was provided prior to and throughout anesthesia. Baseline data were collected before i.m. injection of carfentanil (10 microg/kg) and xylazine (0.2 mg/kg). Arterial blood gases (PaO2 and PaCO2), arterial blood pressure, heart and respiratory rate, and observations of muscle rigidity and movement were collected every 3 min for 30 min. Drugs were antagonized at 30 min with i.m. naltrexone (1 mg/kg) and tolazoline (2 mg/kg). Induction and recovery were significantly faster (mean +/- SD) in elk receiving oxygen (208 +/- 39 and 333 +/- 63 sec, respectively), vs. medical air (306 +/- 84 and 532 +/- 201 sec). Elk receiving oxygen had a significantly higher PaO2 and PaCO2, and significantly lower pH and heart rate. Minimum PaO2 was 75 +/- 30 mm Hg (oxygen), and 28 +/- 6 mm Hg (air). Maximum PaCO2 was 89 +/- 5 mm Hg (oxygen), and 64 +/- 4 mm Hg (air). Frequency of rigidity and movement decreased when PaO2 > or = 70 mm Hg. Animals breathing air demonstrated slower inductions and recoveries, severe hypoxemia, and increased rigidity and movement. Oxygen administration reduced hypoxemia and improved anesthesia quality, but caused prolonged periods of apnea, and moderate to severe hypercarbia and respiratory acidosis.

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