Impact of weather variables and season on sporulation of Phytophthora pluvialis and Phytophthora kernoviae     

Stuart Fraser  Mireia Gomez‐Gallego  Judy Gardner  Lindsay S. Bulman  Sandra Denman  Nari M. Williams 《Forest Pathology》2020,50(2)

Phytophthora pluvialis and Phytophthora kernoviae are the causal agents of important needle diseases on Pinus radiata in New Zealand. Little is known about the epidemiology of the diseases, making the development of control strategies challenging. To investigate the seasonality and climatic drivers of sporulation, inoculum traps, consisting of pine fascicles floating on water in plastic containers, were exchanged fortnightly at five sites in P. radiata plantations between February 2012 and December 2014. Sections of needle baits were plated onto selective media and growth of Phytophthora pluvialis and P. kernoviae recorded. To explore the generalizability of these data, they were compared to detection data for both pathogens from the New Zealand Forest Health Database (NZFHDB). Further, equivalent analyses on infection of Rhododendron ponticum by P. kernoviae in Cornwall, UK allowed the comparison of the epidemiology of P. kernoviae across different host systems and environments. In New Zealand, inoculum of P. pluvialis and P. kernoviae was detected between January–December and March–November, respectively. Inoculum of both species peaked in abundance in late winter. The probability of detecting P. pluvialis and P. kernoviae was greater at lower temperatures, while the probability of detecting P. pluvialis also increased during periods of wet weather. Similar patterns were observed in NZFHDB data. However, the seasonal pattern of infection by P. kernoviae in the UK was the opposite of that seen for sporulation in New Zealand. Phytophthora kernoviae was likely limited by warmer and drier summers in New Zealand, but by colder winter weather in the UK. These results emphasize the importance of considering both environmental drivers and thresholds in improving our understanding of pathogen epidemiology.  相似文献   

Examination of faecal samples as a method of identifying pollen exposure in dogs.     

M A Fraser  E Caulton  P E McNeil 《The Veterinary record》2001,149(14):424-426

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Selenium response in dairy cattle     

Tasker JB  Bewick TD  Clark RG  Fraser AJ 《New Zealand veterinary journal》1987,35(8):139-140

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Hyperthermia in cattle associated with tall fescue (Festuca arundinacea)     

Brookbanks EO  Bell KC  Fraser D  Kearns MP  Sutherland RJ 《New Zealand veterinary journal》1985,33(4):57-58

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Testing the serving capacity of beef bulls     

Fraser D 《New Zealand veterinary journal》1983,31(3):40

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“Publish and be damned”     

A. F. Fraser 《Veterinary research communications》1980,4(1):1-2

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Intramedullary Intervertebral Disk Extrusion in a Cat     

J. Fraser McConnell BVM&S    Laurent S. Garosi DVM 《Veterinary radiology & ultrasound》2004,45(4):327-330

Intervertebral disk extrusion is rarely reported in the cat. In this case, the clinical, radiologic, and magnetic resonance imaging findings of an acute intramedullary intervertebral disk extrusion in a 5-year-old domestic shorthaired cat are described. Radiographically, there was mineralized disk material within the vertebral canal. On magnetic resonance images, the disk material was found to be within the spinal cord. A linear disk trail extending from the disk space into the spinal cord may be specific for intramedullary disk extrusion.  相似文献   

Molecular epidemiology of two fowl cholera outbreaks on a free-range chicken layer farm.     

P Zhang  N Fegan  I Fraser  P Duffy  R E Bowles  A Gordon  P J Ketterer  W Shinwari  P J Blackall 《Journal of veterinary diagnostic investigation》2004,16(5):458-460

Two outbreaks of fowl cholera on a multiage free-range egg farm were investigated. The outbreaks occurred in 1994 and 2002. A total of 22 strains of Pasteurella multocida were available for study, 11 from the 1994 outbreak and 11 from the 2002 outbreak. Lesions typical of acute fowl cholera were seen in the 1994 outbreak, whereas both acute and chronic fowl cholera occurred in the 2002 outbreak. The isolates were examined in an extended phenotypic typing methodology, by a P. multocida-specific polymerase chain reaction (PCR), by the Heddleston somatic serotyping scheme, and by restriction endonuclease analysis (REA) typing using the enzyme HpaII. All 22 strains had the same phenotypic properties, all were confirmed as P. multocida by PCR, all were Heddleston serovar 4, and all had the same REA pattern. The results indicate that these 2 outbreaks were caused by the same clone of P. multocida--despite the 8-year time period between the outbreaks.  相似文献   

An acute case of Pimelea elongata toxicity in cattle in western New South Wales     

C Cavanagh  S Parry  C Fraser  BC Dominiak 《Australian veterinary journal》2023,101(1-2):35-40

In May 2019, 96 cattle died from Pimelea toxicity in a period of 19 days after potential exposure, with the first deaths occurring within 5 days. After examining the circumstances, we suspect that several factors contributed to the deaths. These included that recently purchased stock and transported had access to flooded land containing Pimelea elongata. This weed species contains simplexin and 18 other compounds. Roots, flowers and seeds are significantly more toxic than the stem, branches and leaves. We suspect that thirsty and hungry stock consumed seed and roots from flooded pastures and consumed lethal doses of simplexin. Blood tests were not good indicators of the conditions. Management strategies are suggested.  相似文献   

Virus recognition and pathogenicity: Implications for resistance mechanisms and breeding     

Ronald S. S. Fraser 《Pest management science》1988,23(3):267-275

The major method of control of virus diseases in crop plants is breeding for resistance. The genetics of resistance, and of matching virulence (the ability of a virus strain to overcome a specific host resistance gene) have been studied less for viruses than for fungal and bacterial pathogens. This paper draws on a survey of the genetics of resistance to a large number of viruses in cultivated crops, and makes some generalisations and predictions about mechanisms. Most resistance to viruses in crops is monogenic. Dominant alleles are associated with virus-localisation mechanisms, which are induced after infection. The nature of the ‘recognition event’ between plant- and virus-coded functions, which triggers resistance plus a cascade of secondary responses, is not yet known. Gene dosage-dependent alleles tend to be associated with non-localising resistance, which allows some virus spread, but inhibits multiplication. Recessive alleles may involve a negative type of resistance mechanism, whereby the resistant plant lacks some function normally required by the virus for pathogenesis. Such resistance tends to be expressed as complete immunity. Many resistance genes have been overcome by virulent isolates of viruses; only 10 % of the sample of resistance genes have proved exceptionally durable. Virulence may involve different viral functions. The production of infectious cDNA clones, and construction of chimaeric recombinants between clones of virulent and avirulent isolates, is now allowing detailed mapping of virulence determinants. Transformation of plants with ‘novel’ genes for virus resistance, based on coat proteins and viral satellites, may allow construction of more robust resistance systems.  相似文献