556 research outputs found
Hard Hill experimental plots on Moor House – Upper Teesdale National Nature Reserve - A review of the experimental set up (NECR321)
Guido Pontecorvo 1907-1999
Ponte , as he was known, even to his family, died in September 1999, aged 91, of complications following a fall whilst collecting mushrooms in his beloved Swiss mountains. He was the founder of the genetics of Aspergillus nidulans, and as a result of the discovery of the parasexual cycle, the originator of genetical studies in many other fungi. He made significant contributions to modern genetics in elucidating the divisibility of the gene by recombination, and in his later years in the application of parasexual techniques to mammalian cell cultures. He was also an irascible yet genial friend and adviser who attracted the great admiration of colleagues and students worldwide
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The potential of geospatial technology for monitoring peatland environments
There have been significant advances in the spectral and spatial resolution of data collected from spaceborne, airborne and terrestrial based geospatial technologies over the past 20 years. In sensitive peatland ecosystems, the non-intrusive application of these technologies offers great potential to improve vegetation monitoring and topographical mapping. This paper discusses the potential of geospatial technologies for monitoring vegetation, mapping natural erosion features and assessing artificial drainage with reference to two peatland sites in England. Earth Observation (EO) data can now provide colour imagery with spatial resolution comparable to conventional aerial photography. Enhanced spectral resolution of spaceborne sensors has also increased the accuracy of automated image classification for bog vegetation and EO data may challenge the relevance of conventional aerial photography in landscape-scale assessment. Ultra-high resolution data achievable from Unmanned Aerial Vehicle (UAV) and Terrestrial Laser Scanner (TLS) technologies are providing unprecedented levels of detail from remote sensing. UAV imagery now provides the possibility of identifying individual plants which greatly increases a researcher’s ability to map vegetation from aerial imagery. UAV derived elevation data, combined with the capability of TLS, provide enhanced resolution of gully and artificial drain morphology compared to airborne LiDAR and allow a new approach for quantifying erosion. These technologies provide opportunities to extend traditional surveys over far larger areas than was previously possible and can assist both in targeting areas for future restoration and in monitoring of subsequent change. Traditional survey methods will however maintain an important role in assessing many aspects of peatlands, as they not only provide information to verify remotely sensed data, but are currently the only method that can ‘see’ underneath peatland vegetation
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Eyes on the bog. Long-term monitoring network for UK peatlands
Eyes on the Bog provides a scientifically robust, repeatable, low tech, long-term monitoring initiative.
The standardised methodology enables individual peatland sites to be consistently monitored across the UK, creating a network of comparable sites. The initiative employs cheap, simple techniques and modern technology to enable useful monitoring information to be collected by peatland community employees or volunteers on:
Peat subsidence and carbon loss
Carbon capture
Water table behaviour
Peat soil condition
Vegetation status, structure and composition
Historical context of change and current trajectorie
A case of Pasteurella multocida peritoneal dialysis-associated peritonitis and review of the literature
AbstractObjectives: Two episodes of peritoneal dialysis-associated peritonitis, which occurred four months apart and were both due to Pasteurella multocida, were noted in a 73 year old woman. This report aims to describe the clinical history of these episodes and the microbiological investigations that were undertaken. The relevant literature will also be discussed.Methods and results: Basic microbiological tests identified the organism as Pasteurella multocida, and further work at a specialist laboratory classified it as Pasteurella multocida subsp. multocida. Pulsed field gel electrophoresis confirmed that the strains isolated from the two clinical episodes originated from the same clone. A literature search was performed, looking particularly for patients who experienced more than one episode of peritonitis caused by Pasteurella spp, whether due to recurrence or re-infection.Conclusions: It is likely that the infection resulted from a domestic cat, as there was evidence of a cat bite to the dialysis tubing in the period between the two episodes. Re-infection with two identical strains of pasteurella is more probable than relapse, for reasons discussed. Strict hygiene and avoiding contact between dialysis tubing and domestic animals must be emphasised to try to prevent pasteurella and other animal-associated infections in this already vulnerable population
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Monitoring the impact of blanket bog conservation in the South Pennine Moors Special Area of Conservation using an Unmanned Aerial Vehicle: final report
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