2,589 research outputs found
Social Quality and Health: Examining Individual and Neighbourhood Contextual Effects using a Multilevel Modelling Approach
Social quality focusses on the nature of ‘the social’, arguing that people are realised as social
beings through interacting with a range of collectives, both from the formal world of systems
and the informal lifeworld. Four conditional factors are necessary for this to occur, which at
the same time are assumed to influence health and well-being: socio-economic security,
social cohesion, social inclusion and social empowerment. In this paper we test the utility of
social quality in explaining self-rated health as a response to arguments that the social
determinants of health (SDH) framework often lacks a theoretical basis. We use multilevel
models to analyse national English and Welsh data (the Citizenship Survey) to test for both
individual- and neighbour-level affects. Our key findings are that 1) neighbourhood
contextual (cross-level) effects are present with respect to collective action, personal trust,
cross-cutting ties, income sufficiency, and income security; 2) measures of national,
community and personal identity as indicators of social cohesion show clear associations with
health alongside more common measures such as trust; 3) the security aspects of
socioeconomic determinants are especially important (housing security, income sufficiency,
and income security); 4) social rights, including institutional rights but especially civil rights
have effects of particularly large magnitude. Social quality offers a theoretically-driven
perspective on the SDH which has important policy implications and suggests a number of
promising avenues for future research
Understory influence on leafroller pupunations in Hawke's bay organic apple orchard
Leafrollers (Tortricidae) were collected from apple foliage and understorey vegetation in six commercial organic apple orchards in Hawke’s Bay over one season. Assessments were made of plant species present in the understorey at the time of collection. All leafroller larvae were reared to adults on artificial diet to identify leafroller species and parasitoids. Nearly half (47%) of all leafrollers collected in these orchards were located in the understorey, highlighting the importance of understorey and its management for the control of leafroller. Dock, clover and dandeliontype plants contributed 25% to the overall understorey, yet hosted 75% of the leafrollers collected from the understorey. Dolichogenidea sp. was the most abundant parasitoid (79%) attacking leafrollers found amongst the apple foliage, whereas Glyptapanteles demeter was dominant in the understorey (61%). Generally the number of leafrollers in an orchard was proportional to the abundance of broadleaf weeds and inversely proportional to parasitis
The role of high growth temperature GaAs spacer layers in 1.3-/spl mu/m In(Ga)As quantum-dot lasers
We investigate the mechanisms by which high growth temperature spacer layers (HGTSLs) reduce the threshold current of 1.3-/spl mu/m emitting multilayer quantum-dot lasers. Measured optical loss and gain spectra are used to characterize samples that are nominally identical except for the HGTSL. We find that the use of the HGTSL leads to the internal optical mode loss being reduced from 15 /spl plusmn/ 2 to 3.5 /spl plusmn/ 2 cm/sup -1/, better defined absorption features, and more absorption at the ground state resulting from reduced inhomogenous broadening and a greater dot density. These characteristics, together with a reduced defect density, lead to greater modal gain at a given current density
Introduction to the issue on novel and specialty fibers
The fiber optical communication revolution has been fueled by well publicized and relentless improvements of transmission fiber. Since the demonstration of the first low-loss optical fiber in 1972, there has been a continual stream of technology improvements designed to reduce impairments due to propagation loss and pulse dispersion. This steam of fiber technology has led the industry from multimode fiber operated at 800 nm, to standard single-mode fiber used at 1310 nm, then on to transmission fibers that now have attributes tuned for particular applications such as terrestrial or submarine transmission. There is every reason to believe that advances in technology will continue at the accelerating pace we have seen in the past decade, adding to the family of available transmission fibers. The special issue is dedicated to the increasing family of specialty fibers, and includes exciting papers on fibers for gratings and a unique amplification fiber. Fibers for specialized transmission spanning a broad range of applications are also described in three important articles. As is appreciated by all optical scientists, progress can be made only as quickly as one can improve measurement capabilities, so the issue includes two excellent papers dealing with the important measurement of chromatic dispersion.We hope that you enjoy the papers of this issue as much as we the editors have enjoyed reading and reviewing them
An Example of a sustainable and Wwell-managed community-based Lobster (Panulirus argus) fishery within the UNESCO Bioreserve of Sian Ka’an, Mexico
Routine data linkage to identify and monitor diabetes in clozapine-treated patients with schizophrenia
No abstract available
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Seed management by small-scale farmers in Zambia. A study of cowpea, groundnut and sorghum seed in the Southern and Western Provinces (NRI Bulletin 76)
Field surveys of on-farm cowpea, groundnut and sorghum management in two regions of Zambia are described. The survey included seed saved on-farm and seed sources off-farm. Samples of seeds were collected just prior to planting and assessed for germination potential. Conclusions are given on the general status and potential for improving seed quality and on farmer seed management
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Hanford phosphate precipitation filtration process evaluation
The purpose of this filter study was to evaluate cross-flow filtration as effective solid-liquid separation technology for treating Hanford wastes, outline operating conditions for equipment, examine the expected filter flow rates, and determine proper cleaning. A proposed Hanford waste pre-treatment process uses sodium hydroxide at high temperature to remove aluminum from sludge. This process also dissolves phosphates. Upon cooling to 40 degrees centigrade the phosphates form a Na7(PO4)2F9H2O precipitate which must be removed prior to further treatment. Filter studies were conducted with a phosphate slurry simulant to evaluate whether 0.5 micron cross-flow sintered metal Mott filters can separate the phosphate precipitate from the wash solutions. The simulant was recirculated through the filters at room temperature and filtration performance data was collected
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Cross-Flow Filtration of Department of Energy Hanford Waste Streams Using Sintered Metal Mott and Graver Filters at the Savannah River Technology Center
Treatment processes have been proposed that will utilize cross-flow filtration to filter supernate and concentrated sludge waste streams at a Department of Energy plant in Hanford, Washington. Two waste processing applications have been identified as candidates for this technology. The first of the Hanford applications involves filtration of the decanted supernate from sludge leaching and washing operations. This process requires the concentration and removal of dilute fines from the bulk of the supernate. The second application involves filtration to wash and concentrate the sludge during out-of-tank processing of a relatively concentrated solids feed stream
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