Lara Williamson scite author profile

Purpose -This purpose of this paper is to summarise the outcomes of a recent project in Victoria, Australia exploring the effectiveness of community engagement strategies in improving climate mitigation and adaptation outcomes. Design/methodology/approach -Roundtables and interviews with a diverse range of community engagement practitioners and policy makers involved in climate change work were conducted, informed by a discussion paper outlining recent Australian and international learning about community engagement and climate change. Findings -The project confirms and builds on recent international learning about the importance of carefully planned and implemented community engagement as essential components in effective climate mitigation and adaptation strategies. Originality/value -The paper brings together learning from recent on-the-ground experience from Australian community engagement practitioners and policy makers working in the climate change field. In addition to evidence supporting the international case for community engagement methodologies the paper also summarises a number of factors important to effective climate change community engagement strategies.

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High dose dietary vitamin D 3 increases bone mass and strength in mice

Williamson

Hayes

Hanson

et al. 2017

Bone Reports

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Vitamin D plays a critical role in skeletal homeostasis. Vitamin D supplementation is used worldwide to maintain optimal bone health, but the most appropriate level of supplementation remains controversial. This study aimed to determine the effects of varying doses of dietary vitamin D3 on the mechanical properties and morphology of growing bone.Eight-week-old female mice were supplied with one of 3 diets, each containing a different dose of vitamin D3: 1000 IU/kg (control), 8000 IU/kg or 20,000 IU/kg. Mice had ad libitum access to the specialty diet for 4 weeks before they were culled and their tibiae collected for further analysis. The collected tibia underwent three-point bending and reference-point indentation from which their mechanical properties were determined, and cortical and trabecular morphology determined by micro computed tomography.Dietary supplementation with 20,000 IU/kg vitamin D3 resulted in greater ductility (~ 200%) and toughness (~ 150%) compared to the 1000 IU/kg control. The 20,000 IU/kg diet was also associated with significantly greater trabecular bone volume fraction and trabecular number. The 8000 IU/kg diet had no significant effect on trabecular bone mass.We conclude that vitamin D3 supplementation of 20,000 IU/kg during early adulthood leads to tougher bone that is more ductile and less brittle than that of mice supplied with standard levels of dietary vitamin D3 (1000 IU/kg) or 8000 IU/kg. This suggests that dietary vitamin D3 supplementation may increase bone health by improving bone material strength and supports the use of vitamin D3 supplementation, during adolescence, for achieving a higher peak bone mass in adulthood and thereby preventing osteoporosis.

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Family day care educators: an exploration of their understanding and experiences promoting children's social and emotional wellbeing

Davis

Priest

Davies

et al. 2012

Early Child Development and Care

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Lara Williamson

Perils and possibilities: achieving best evidence from focus groups in public health research

Community engagement and climate change: learning from recent Australian experience

High dose dietary vitamin D 3 increases bone mass and strength in mice

Family day care educators: an exploration of their understanding and experiences promoting children's social and emotional wellbeing

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