145 research outputs found
Phytophthora species and oak decline - can a weak competitor cause significant root damage in a nonsterilized acidic forest soil?
Phytophthora species in general, and P. quercina in particular, have been suggested in several studies to be a contributing factor to the problem of oak decline in Europe. Although Phytophthora species are generally regarded as weak competitors, few studies of the pathogenicity of species causing root rot on oaks have hitherto been performed in natural, nonsterilized forest soils. This study describes the effects of seven southern Swedish isolates of P. quercina and one isolate of P. cactorum on root vitality of Quercus robur seedlings grown in a natural, nonsterilized, acidic forest soil. The pathogenicity of P. quercina and P. cactorum were tested using a soil infestation test. The climatic conditions applied were an attempt to simulate summer conditions in southern Sweden. Both species of Phytophthora caused a significant dieback of fine roots, and necrotic lesions on coarser roots, of Q. robur seedlings. Total and live root lengths were significantly lower in infected seedlings than in controls. No significant effects of Phytophthora on above-ground growth or leaf nutrient concentration were found. The results demonstrate that P. quercina and P. cactorum can cause substantial root dieback of seedlings of Q. robur in natural, acidic forest soils in competition with the inhabiting soil microflora under a mesic water regime
How Phytophthora cinnamomi became associated with the death of Eucalyptus marginata – the early investigations into jarrah dieback
The name jarrah dieback was used in the 1940s to describe a serious economic problem in the jarrah forest in the south west of Western Australia. This was the sudden death of groups of jarrah (Eucalyptus marginata) trees that occurred on previously logged sites that had a tendency to become waterlogged in winter. Although the cause was not determined at the time, from symptoms recorded in early investigations the most likely explanation is that the trees died as the result of waterlogging damage. In the 1960s it was shown that many of these sites were infested by the introduced oomycete Phytophthora cinnamomi and tree deaths, together with the deaths of many mid- and under-storey plants, were attributed to this pathogen. A chronology of the research, based on contemporary unpublished documents, shows that in 1968 the conclusion that P. cinnamomi caused jarrah deaths was not supported by the available evidence, because the work did not satisfy the first and fourth of Koch’s postulates. The evidence that P. cinnamomi killed many mid- and under-storey plants was much stronger. There are two problems that have been confused: the death of groups of jarrah trees (jarrah dieback) that is caused by waterlogging and the death of many mid- and under-storey plants (Phytophthora dieback) caused by P. cinnamomi infection
Fighting stochastic variability in a D-type flip-flop with transistor-level reconfiguration
In this study, the authors present a design optimisation case study of D-type flip-flop timing characteristics that are degraded as a result of intrinsic stochastic variability in a 25 nm technology process. What makes this work unique is that the design is mapped onto a multi-reconfigurable architecture, which is, like a field programmable gate array (FPGA), configurable at the gate level but can then be optimised using transistor level configuration options that are additionally built into the architecture. While a hardware VLSI prototype of this architecture is currently being fabricated, the results presented here are obtained from a virtual prototype implemented in SPICE using statistically enhanced 25 nm high performance metal gate MOSFET compact models from gold standard simulations for pre-fabrication verification. A D-type flip-flop is chosen as a benchmark in this study, and it is shown that timing characteristics that are degraded because of stochastic variability can be recovered and improved. This study highlights significant potential of the programmable analogue and digital array architecture to represent a next-generation FPGA architecture that can recover yield using post-fabrication transistor-level optimisation in addition to adjusting the operating point of mapped designs
Petroleum Basin Studies: Western Amadeus Basin
Nine studies prepared by consultants for NTGS between 1989 and 1994 provide comprehensive assessments of the petroleum potential of the basins through a detailed review of the regional geology, stratigraphy, structure, geochemistry, previous exploration history and play concepts
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