Using an index of wellbeing for older people in small areas of Australia to assist identifying services required

Whereas in Standard High German (SHG) there is only one comparative particle, in Swiss German Dialects (SGD) different lexemes may fulfill the function of a comparative particle: (1) SHG: Sie ist grösser als ich SGD: Si isch grösser als / as / weder / wan / wie ig 'She is bigger than me' The present paper describes the geographical distribution of the comparative particles in the Swiss German area in contexts such as (1). Whereas in some small areas only one comparative particle is found, in the rest of the Swiss German speaking area several competing variants coexist. The data are taken from the third questionnaire of the Syntactic Atlas of Swiss German Dialects, where three different comparative constructions have been investigated. A sociolinguistic analysis of the data reveals differences in the use of the particles: On the one hand, older people tend to use only one comparative particle, whereas younger people show a higher degree of variation. Moreover, older people tend to use the particle weder, in contrast to younger people who tend to use the particle wie. On the other hand, higher educated people use more than one comparative particle, whereas less educated people tend to use one variant only. The analysis of two other constructions also shortly mentioned in the paper shows that syntactic factors have an impact on variant selection, too.

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Using and index of wellbeing for older people in small areas of Australia to assist identifying services required

10.21203/rs.2.22337/v1 ◽

2020 ◽

Author(s):

Riyana Miranti ◽

Robert Tanton ◽

Yogi Vidyattama ◽

Sajeda Tuli

Keyword(s):

Older People ◽

Local Community ◽

Service Providers ◽

Well Being ◽

Support Networks ◽

Index Method ◽

Small Areas ◽

Age In Place ◽

Provision Of Services ◽

Personal Histories

Abstract Background: For older people, place is crucial as it is where support networks, social relationships and family are. Older people develop a sense of belonging to their local community through participation and place is strongly linked to personal histories. For older people, ageing in their own home also allows for continuity of relationships and informal support networks in the area.While there are significant benefits of ageing in place, for older people with low wellbeing, the provision of services is going to be essential to allow them to age in place. Therefore, this article aims to identify areas where older people have low wellbeing using an index of wellbeing developed using a range of data; and to show how the domains and indicators can be used to identify why older people in an area have low wellbeing. This analysis can then be used to help to identify what types of services are required to improve wellbeing in an area of low wellbeing best. Methods: We use Principal Components Analysis (PCA) to create the Index of Wellbeing for Older Australians, for each domain and then adding the domains together using a transformation. One of the advantages of this method is that areas can be identified as having low wellbeing, but then using the domains, the reason for the low wellbeing can be identified.A case study is used to show how low wellbeing can be attributed to a particular domain in the area; and then show how the indicators that were used for this domain can be used to identify exactly what is driving the low wellbeing for older people in the area.Results: Our overall findings show that the participation domain matters as the proportion of older people who are volunteers has the highest contribution to the well being index followed closely by the employment rate of older people. In contrast, functional ability domain reveals the need for assistance indicator has the highest contribution to reduce the wellbeing. Conclusion: We conclude that the index method used encourages the de-construction of the overall index, and provides a way to inform service providers in an area on the most effective ways to enhance wellbeing for older people in an area.

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Electron Diffraction of Wet Biological Membranes

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100050809 ◽

1974 ◽

Vol 32 ◽

pp. 158-159

Author(s):

S.W. Hui ◽

D.F. Parsons

Keyword(s):

Electron Diffraction ◽

Data Collection ◽

Biological Membranes ◽

Small Areas ◽

Electron Diffraction Technique ◽

Electron Microscopes ◽

Collection Time ◽

Camera Length

The development of the hydration stages for electron microscopes has opened up the application of electron diffraction in the study of biological membranes. Membrane specimen can now be observed without the artifacts introduced during drying, fixation and staining. The advantages of the electron diffraction technique, such as the abilities to observe small areas and thin specimens, to image and to screen impurities, to vary the camera length, and to reduce data collection time are fully utilized. Here we report our pioneering work in this area.

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Ultrastructure and Morphology of the Neurospora Crassa Cell Wall Mutants, Slime And Slime X, Using Tem and Sem

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100090257 ◽

1976 ◽

Vol 34 ◽

pp. 54-55

Author(s):

Karen S. Howard ◽

H. D. Braymer ◽

M. D. Socolofsky ◽

S. A. Milligan

Keyword(s):

Cell Wall ◽

Neurospora Crassa ◽

Wild Type ◽

Morphological Comparison ◽

Small Areas ◽

Solid Media ◽

Thin Sectioning ◽

X Cells ◽

Mutant Cells ◽

Isolated Cell

The recently isolated cell wall mutant slime X of Neurospora crassa was prepared for ultrastructural and morphological comparison with the cell wall mutant slime. The purpose of this article is to discuss the methods of preparation for TEM and SEM observations, as well as to make a preliminary comparison of the two mutants.TEM: Cells of the slime mutant were prepared for thin sectioning by the method of Bigger, et al. Slime X cells were prepared in the same manner with the following two exceptions: the cells were embedded in 3% agar prior to fixation and the buffered solutions contained 5% sucrose throughout the procedure.SEM: Two methods were used to prepare mutant and wild type Neurospora for the SEM. First, single colonies of mutant cells and small areas of wild type hyphae were cut from solid media and fixed with OSO4 vapors similar to the procedure used by Harris, et al. with one alteration. The cell-containing agar blocks were dehydrated by immersion in 2,2-dimethoxypropane (DMP).

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Selective Sampling and Orientation of Non-Homogeneous Tissues

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100100238 ◽

1968 ◽

Vol 26 ◽

pp. 98-99

Author(s):

C. C. Clawson ◽

L. W. Anderson ◽

R. A. Good

Keyword(s):

Electron Microscopy ◽

Electron Microscope ◽

Light Microscopy ◽

Random Sampling ◽

New Method ◽

Microscope Examination ◽

Small Areas ◽

Selective Sampling ◽

Large Numbers ◽

Specific Orientation

Investigations which require electron microscope examination of a few specific areas of non-homogeneous tissues make random sampling of small blocks an inefficient and unrewarding procedure. Therefore, several investigators have devised methods which allow obtaining sample blocks for electron microscopy from region of tissue previously identified by light microscopy of present here techniques which make possible: 1) sampling tissue for electron microscopy from selected areas previously identified by light microscopy of relatively large pieces of tissue; 2) dehydration and embedding large numbers of individually identified blocks while keeping each one separate; 3) a new method of maintaining specific orientation of blocks during embedding; 4) special light microscopic staining or fluorescent procedures and electron microscopy on immediately adjacent small areas of tissue.

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The crystallization of thin-film ceramics

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100122095 ◽

1992 ◽

Vol 50 (1) ◽

pp. 338-339

Author(s):

J.M. Schwartz ◽

L.F. Francis ◽

L.D. Schmidt ◽

P.S. Schabes-Retchkiman

Keyword(s):

Thin Films ◽

Grain Size ◽

Sol Gel ◽

Processing Route ◽

Small Areas ◽

Ceramic Thin Films ◽

Complex Shapes ◽

Sol Gel Process ◽

Ceramic Precursors ◽

Crystalline Ceramic

Ceramic thin films and coatings are of interest for electrical, optical, magnetic and thermal barrier applications. Critical for improved properties in thin films is the development of specific microstructures during processing. To this end, the sol-gel method is advantageous as a versatile processing route. The sol-gel process involves depositing a solution containing metalorganic or colloidal ceramic precursors onto a substrate and heating the deposited layer to form a crystalline or non-crystalline ceramic coating. This route has several advantages, including the ability to create tailored microstructures and properties, to coat large or small areas, simple or complex shapes, and to more easily prepare multicomponent ceramics. Sol-gel derived coatings are amorphous in the as-deposited state and develop their crystalline structure and microstructure during heat-treatment. We are particularly interested in studying the amorphous to crystalline transformation, because many key features of the microstructure such as grain size and grain size distribution may be linked to this transformation.

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