In this randomized controlled trial on four commercial grazing dairy farms, we investigated whether pegbovigrastim (PEG) treatment affects clinical mastitis (CM) and uterine disease (i.e. retained placenta (RP), metritis and endometritis) occurrence during a full lactation. The association of prepartum body condition score and prepartum non-esterified fatty acid (NEFA) concentration with disease occurrence was also evaluated. Holstein cows were randomly assigned to one of two treatments: first PEG dose approximately 7 d before the expected calving date and a second dose within 24 h after calving (PEG) compared to untreated controls (Control). In total, 2,153 animals were included in the study: 733 primiparous cows (Control = 391, PEG = 342) and 1420 multiparous cows (Control = 723, PEG = 697). Treatment effects were evaluated with generalized linear mixed models and Cox’s proportional hazard models. Treatment with PEG reduced the occurrence of a first case of CM during the first 30 days in milk (DIM) by 24.6% and reduced the hazard of a first case and the rate of total cases of CM during the full lactation. All PEG treatment effects were independent of parity. Prepartum body condition score interacted with PEG treatment: in over-conditioned cows, PEG reduced the occurrence of a first case of CM during the first 30 DIM by 49.5%. The hazard analysis of a first case of CM during the full lactation suggested that the preventive effect of PEG disappeared with increasing DIM. Treatment with PEG did not affect the occurrence of RP or metritis. Pegbovigrastim treated cows with metritis subsequently showed a reduced occurrence of endometritis compared to control cows with metritis. Pegbovigrastim reduces the occurrence of CM particularly in cows at risk of elevated lipid mobilization, and PEG ameliorates the uterine healing process in cows that experienced metritis.
The acquisition of resistance to both the auxinic herbicide dicamba and the sulfonylurea herbicide chlorsulfuron has been recorded in Canadian populations of the weed species Sinapis arvensis L. (charlock, wild mustard) To study the eect of this selection for herbicide resistance on levels of genetic variation, polymerase chain reaction-based DNA ®ngerprinting techniques were used to characterize two herbicide-resistant and one susceptible population of S. arvensis. Analysis of the resultant DNA marker pro®les revealed extensive polymorphism between individuals. However, segregation of the three biotypes was detectable despite high levels of intrabiotype polymorphism. No reduction in the levels of heterozygosity within the resistant populations were found compared with the susceptible population.
Heather plants were collected from 34 populations in Great Britain, which differed according to their geographical location and associated management histories. Comparisons of differential grazing regimes were made across 10 sites in the first year of study, whereas the influence of differential burning regimes was considered at four sites during the second year. The extent of genetic variation, both within and between the selected heather populations, was examined using polymerase chain reaction (PCR)-based DNA fingerprinting methodologies. Initially, high genetic variation within populations obscured differences between populations. Heather stands that were geographically close proved to be genetically similar. Site latitude and longitude were strongly associated with genetic differences between heather populations; however, a range of grazing and burning management treatments had no consistent effect upon genetic diversity. The results represent the first national survey of genetic variation at the DNA level within UK populations of this important heathland species. They provided insights into the genetic structure of heather-dominated heathlands, revealing a lack of clonal dominance within populations, but rather a much more varied genetic makeup than might have been expected given the species' ability to propagate vegetatively. The processes that influence genetic diversity in heather populations are discussed, and the potential role of molecular techniques in heathland conservation is considered.
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