Discovering genes for singing ability in Australian families. Music abilities are core to what makes us human, with singing ubiquitous in all cultures. Anecdotal evidence suggests that singing ability runs in families, supporting its genetic basis, however no research has systematically traced it across generations. Using an innovative web-based singing program and the latest molecular genetic techniques, this project aims to discover singing ability genes through the first Australian study of l ....Discovering genes for singing ability in Australian families. Music abilities are core to what makes us human, with singing ubiquitous in all cultures. Anecdotal evidence suggests that singing ability runs in families, supporting its genetic basis, however no research has systematically traced it across generations. Using an innovative web-based singing program and the latest molecular genetic techniques, this project aims to discover singing ability genes through the first Australian study of large families with many talented singers. This will generate new knowledge on the origins of human musicality and help Australia develop a sustainable source of cultural capital. It will build interdisciplinary research capacity and inform bespoke music learning programs that account for individual differences.Read moreRead less
The genetic basis of singing ability. This project aims to explore the heritability of music ability, focusing on singing and the contribution of genetic and environmental influences. Research suggests that deliberate practice (more than 10,000 hours) produces skilled musicianship, with minimal investigation of genetic influences. Mapping the human genome has opened up a new scientific frontier, and this project’s findings are expected to lead to the discovery of genes for singing. This will hel ....The genetic basis of singing ability. This project aims to explore the heritability of music ability, focusing on singing and the contribution of genetic and environmental influences. Research suggests that deliberate practice (more than 10,000 hours) produces skilled musicianship, with minimal investigation of genetic influences. Mapping the human genome has opened up a new scientific frontier, and this project’s findings are expected to lead to the discovery of genes for singing. This will help design and deliver music education programmes that take individual differences into account, differentiating between heritable aspects of musicianship and those more influenced by training.Read moreRead less
From child learner to adult musician: Factors leading to success and ongoing participation in music. Building on recommendations from the Commonwealth Government's National Review of School Music Education (2005), this project seeks to clarify the factors that facilitate engagement in music. Building on data collected 10 years ago, the proposed follow up study will enable us to trace how Australian education in the form of school instrumental programs influence musical development, interest and ....From child learner to adult musician: Factors leading to success and ongoing participation in music. Building on recommendations from the Commonwealth Government's National Review of School Music Education (2005), this project seeks to clarify the factors that facilitate engagement in music. Building on data collected 10 years ago, the proposed follow up study will enable us to trace how Australian education in the form of school instrumental programs influence musical development, interest and attainment from childhood through to early adulthood. With this information, the study will enable us to identify how Australian education can be developed to facilitate the life-long enjoyment that artistic appreciation and participation can offer as a result of school music. Read moreRead less
From sound to hearing: the integration of behavioural, neurophysiological, and neuroimaging research with computational models. McLachlan and Wilson have recently published a ground-breaking new model of the auditory system with important implications for treating deafness and understanding neurological disorders. In this research the predictions of the model will be experimentally validated using advanced neuroimaging techniques.
Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Exciting new research is altering this view, showing that the brain can change in response to the environment. This study will use sophisticated brain scanning techniques with musicians who have rare, absolute pitch ability. This ability develops with exposure to early training during a critical time period. We will ....Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Exciting new research is altering this view, showing that the brain can change in response to the environment. This study will use sophisticated brain scanning techniques with musicians who have rare, absolute pitch ability. This ability develops with exposure to early training during a critical time period. We will test the relationship between this exposure and changes in brain shape and function. The results will tell us about the interaction between genes and environment, and the way normal development can be enhanced by early experiences.Read moreRead less
Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Research is beginning to alter this view, suggesting that the brain can change its structure and functioning in response to the environment. To explore this new and exciting issue, this study will use sophisticated brain scanning techniques with musicians who have been exposed to early training during a critical peri ....Using musical training to examine brain plasticity and cognitive skill development. Until recently, the brain was likened to a computer - hard-wired with minimal response to injury. Research is beginning to alter this view, suggesting that the brain can change its structure and functioning in response to the environment. To explore this new and exciting issue, this study will use sophisticated brain scanning techniques with musicians who have been exposed to early training during a critical period of development. It will examine the relationship between this exposure and changes in brain size and function thought to underlie a specialised ability, known as perfect pitch. The findings will have important implications about the way normal development can be enhanced by early experience and practice.Read moreRead less