1,662 research outputs found
Father inclusive practice in a parenting and early childhood organisation: The development and analysis of a staff survey
Aim: The successful embedding of father inclusive practice (FIP) in parenting and early childhood organisations is relatively new and therefore challenging to assess. The purpose of this study was to describe the process of adapting an existing tool, the Knowledge about fatherhood checklist (KAFC), to suit the parenting service context and apply the modified survey to establish a baseline of attitudes and practice of all staff at an established parenting and early childhood service in Western Australia, Ngala.
Method: Following the application of the KAFC at Ngala in 2016, feedback provided by the staff led to a reflective and iterative process of review to adapt the KAFC. In 2018, all staff were asked to complete the adapted survey – the 23-item Father inclusive practice survey (FIP survey) – in order to assess the attitudes and behaviours of everyone in the organisation. The FIP survey covers aspects of competency as well as knowledge and attitudes in relation to fatherhood or father engagement.
Results: Results indicated generally high levels of appreciation of the fathering role by Ngala staff. However, a number of areas for improvement in staff knowledge and attitudes were identified, including the benefit of reflecting on personal experiences of fathering, the awareness of the gendered stereotyped view of men, and the importance of the influence fathers can make in the context of attachment and breastfeeding.
Conclusions: The implementation of this FIP survey informs improvements to staff orientation and training in FIP, and provides insights into staff attitudes, beliefs and practice regarding acknowledgement of the important contribution fathers make to the development and wellbeing of their children
Strain engineering as a method for manufacturing micro- and; nano- scale responsive particles
Strain engineering is used as a means of manufacturing micro- and nano- scale particles with the ability to reversibly alter their geometry from three dimensional tubes to two dimensional flat layers. These particles are formed from a bi-layer of two dissimilar materials, one of which is the elastomeric material polydimethylsiloxane (PDMS), deposited under stress on a sacrificial substrate. Upon the release of the bi-layer structure from the substrate, interfacial residual stress is released resulting in the formation of tubes or coils. These particles possess the ability to dramatically alter their geometry and, consequently, change some properties that are reversible and can be triggered by a stimulus. This work focuses on the material selection and manufacturing of the bi-layer structures used to create the responsive particles and methods for characterizing and controlling the responsive nature of the particles. Furthermore, the potential of using these particles for a capture/release application is explored, and a systematic approach to scale up the manufacturing process for such particles is provided. This includes addressing many of the problems associated with fabricating ultra-thin layers, tuning the size of the particles, understanding how the stress accumulated at the interface of a bi-layer structure can be used as a tool for triggering a response as well as developing methods (i.e. experiments and applications) that allow the demonstration of this response.M.S.Committee Chair: Dr. Kyriaki Kalaitzidou; Committee Member: Dr. Karl Jacob; Committee Member: Dr. Peter Hesket
Reading Requirements and Basic Secondary Teacher Certification: An Update
Being involved with pre-service training of content teachers in a state which requires by law courses in reading method, we raised the following question: Since only two such studies appear in the widely circulated professional literature, were the findings reported by Bader truly representative of a positive trend toward a commitment to reading, or had the earlier comments of Estes and Piercey proven to be more prophetic
Subtropical-temperate forested wetlands of coastal south-eastern Australia – an analysis of vegetation data to support ecosystem risk assessment at regional, national and global scales
Forested wetlands occurring on fluvial sediments are among the most threatened
ecosystems in south-east Australia. The first quantitative diagnosis of forested wetland types in
NSW was completed in 2005. Since then, there has been a three-fold increase in survey data on
coastal floodplains, vegetation classification systems have been developed in New South Wales,
Queensland and Victoria, and methods for the assessment of ecosystem conservation risks have
been adopted by the International Union for the Conservation of Nature (IUCN). Aims. To
ensure an evidence base that can support conservation decisions and national conservation
assessments, there is a need to review and update the classification of forested wetlands and
integrate classification schemes across jurisdictions. Methods. We evaluated the efficacy of a
multi-stage clustering strategy, applied to data from different sources with largely unknown
methodological idiosyncrasies, to retrieve ecologically meaningful clusters. We assessed the
veracity and robustness of the 2005 classification of forest wetlands as a framework for national
risk assessments over an expanded range. Key results. We derived a quantitative, cross-
jurisdictional classification of forested wetlands based on a synthesis of 5173 plot samples drawn
from three states and identified the status of our units in relation to IUCN's Global Ecosystem
Typology. Conclusions. Our analyses support the retention of the five legacy types which are
the basis for threatened ecosystem listings under the NSW Biodiversity Conservation Act 2016 and
Commonwealth Environment Protection and Biodiversity Conservation Act 1999. Implications. Our
results will support revised assessments of current listings and facilitate their integration at state,
national and global scale
Integrated Management of Mountain Caribou and Forestry in Southern British Columbia
Integrated Management of Mountain Caribou and Forestry in Southern British Columbi
Palladium-catalyzed synthesis of aryl amides through silanoate-mediated hydrolysis of nitriles
A procedure for the formation of aryl amides through the palladium-catalyzed coupling of nitriles and aryl bromides, via the formation of intermediary silanoate derived imidate species is reported. Optimization was undertaken and examples of the process are described that furnish the products in up to 86% isolated yield
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