19 research outputs found
Mixing genetically and morphologically distinct populations in translocations: Asymmetrical introgression in a newly established population of the boodie (Bettongia lesueur)
The use of multiple source populations provides a way to maximise genetic variation and reduce the impacts of inbreeding depression in newly established translocated populations. However, there is a risk that individuals from different source populations will not interbreed, leading to population structure and smaller effective population sizes than expected. Here, we investigate the genetic consequences of mixing two isolated, morphologically distinct island populations of boodies (Bettongia lesueur) in a translocation to mainland Australia over three generations. Using 18 microsatellite loci and the mitochondrial D-loop region, we monitored the released animals and their offspring between 2010 and 2013. Despite high levels of divergence between the two source populations (FST = 0.42 and ĎST = 0.72), there was clear evidence of interbreeding between animals from different populations. However, interbreeding was non-random, with a significant bias towards crosses between the genetically smaller-sized Barrow Island males and the larger-sized Dorre Island females. This pattern of introgression was opposite to the expectation that maleâmale competition or female mate choice would favour larger males. This study shows how mixing diverged populations can bolster genetic variation in newly established mammal populations, but the ultimate outcome can be difficult to predict, highlighting the need for continued genetic monitoring to assess the long-term impacts of admixture
Mainstreaming climate change education in UK higher education institutions
Key messages: ⢠Mainstreaming Climate Change Education (CCE) across all learning and operational activities enables Higher Education Institutions (HEIs) to better serve their core purpose of preparing learners for their roles in work and wider society, now and in the future.
⢠Student and employer demand for climate change education is growing, not just in specialist
subjects but across all degree pathways.
⢠The attitudes, mindsets, values and behaviours that graduates need to engage with climate
change include the ability to deal with complexity, work collaboratively across sectors and disciplines and address challenging ethical questions.
⢠The complexity of the climate crisis means all disciplines have a role to play in delivering education for the net-zero transition. Embedding interdisciplinarity is crucial to ensuring that our response to climate change makes use of all of the expertise HEIs have to offer and promotes knowledge exchange and integration for students and staff.
⢠Student-centered CCE, including peer-to-peer learning, is a powerful tool for facilitating an inclusive and empowering learning experience, and developing graduates as change agents for the climate and ecological crisis.
⢠HEIs should develop learning outcomes for CCE that include understanding the scale, urgency,
causes, consequences and solutions of climate change; how social norms and practices are driving
the climate crisis; and the ability to identify routes to direct involvement in solutions via every discipline.
⢠Pedagogical approaches to teaching CCE should enable learners to engage with, and respond to,
climate change as a âreal-worldâ problem, such as through experiential learning.
⢠Further recommendations for the HEI sector include developing a strategy for aligning CCE teaching provision with governance structures; partnering with industry, government and third sector organisations to enable context-specific CCE; and working with trade unions and accreditation bodies to enable curriculum reform
Mainstreaming Climate Change Education in UK Higher Education Institutions
Key messages⢠Mainstreaming Climate Change Education (CCE) across all learning and operational activities enables Higher Education Institutions (HEIs) to better serve their core purpose of preparing learners for their roles in work and wider society, now and in the future.⢠Student and employer demand for climate change education is growing, not just in specialist subjects but across all degree pathways.⢠The attitudes, mindsets, values and behaviours that graduates need to engage with climate change include the ability to deal with complexity, work collaboratively across sectors and disciplines and address challenging ethical questions.⢠The complexity of the climate crisis means all disciplines have a role to play in delivering education for the net-zero transition. Embedding interdisciplinarity is crucial to ensuring that our response to climate change makes use of all of the expertise HEIs have to offer and promotes knowledge exchange and integration for students and staff.⢠Student-centered CCE, including peer-to-peer learning, is a powerful tool for facilitating an inclusive and empowering learning experience, and developing graduates as change agents for the climate and ecological crisis.⢠HEIs should develop learning outcomes for CCE that include understanding the scale, urgency, causes, consequences and solutions of climate change; how social norms and practices are driving the climate crisis; and the ability to identify routes to direct involvement in solutions via every discipline.⢠Pedagogical approaches to teaching CCE should enable learners to engage with, and respond to, climate change as a âreal-worldâ problem, such as through experiential learning.⢠Further recommendations for the HEI sector include developing a strategy for aligning CCE teaching provision with governance structures; partnering with industry, government and third sector organisations to enable context-specific CCE; and working with trade unions and accreditation bodies to enable curriculum reform
Symbiotic Futures: Health, Well-being and Care in the Post-Covid World
The "Symbiotic Futures: Health, Well-being and Care in the Post-Covid World" project was jointly conceived by the Innovation School at Glasgow School of Art and the Institute of Cancer Sciences at the University of Glasgow. The project partnership involved a community of experts working across both organisations including the University of Glasgowâs new Mazumdar-Shaw Advanced Research Centre (ARC).
Future experiences is a collaborative, futures-focused design project where students benefit from the input of a community of experts to design speculative future worlds and experiences based on research within key societal contexts.
This iteration of the project asked the students to consider what happens in the Post-Covid landscape ten years from now, where symbiotic experiences of health, well-being and care have evolved to the extent that new forms of medical practice, health communities and cultures of care transform how we interact with each other, with professionals and the world around us.
The GSA Innovation Schoolâs final year BDes Product Design students and faculty formed a dynamic community of practice with health, wellbeing and care practitioners and researchers from The University of Glasgow and beyond. This gave the students the opportunity to reflect on the underlying complexities of the future of health, well-being and care, technological acceleration, human agency and quality of life, to envision a 2031 blueprint as a series of six future world exhibits, and design the products, services and system experiences for the people and environments within it.
In the first part of the project (Stage 1), Future worlds are groups of students working together on specific topics, to establish the context for their project and collaborate on research and development. In this iteration of Future Experiences, the "Health, Well-being and Care" worlds were clustered together around âPeople focusedâ and âEnvironment focusedâ, but also joined up across these groups to create pairs of worlds, and in the process generate symbiosis between the groups. These worlds were then the starting points which the students explored in their individual projects.
The second part of the project (Stage 2) saw individual students select an aspect of their Future World research to develop as a design direction, which they then prototyped and produced as products, services, and/or systems. These are designed for specific communities, contexts or scenarios of use defined by the students to communicate a future experience.
These Future experiences reflect the societal contexts explored during the research phase, projected 10 years into the future, and communicated in a manner that makes the themes engaging and accessible.
The deposited materials are arranged as follows:
1. Project Landscape Map - A report and blueprint for the project that gives a visual overview of the structure and timeline of the project.
2. Stage one data folders - the data folders for stage one of the project are named after the themes the groups explored to create their Future Worlds.
3. Stage two data folders - the data folders for stage two of the project are named after the individual students who created the project
Mixing Genetically and Morphologically Distinct Populations in Translocations: Asymmetrical Introgression in A Newly Established Population of the Boodie (Bettongia lesueur)
The use of multiple source populations provides a way to maximise genetic variation and reduce the impacts of inbreeding depression in newly established translocated populations. However, there is a risk that individuals from different source populations will not interbreed, leading to population structure and smaller effective population sizes than expected. Here, we investigate the genetic consequences of mixing two isolated, morphologically distinct island populations of boodies (Bettongia lesueur) in a translocation to mainland Australia over three generations. Using 18 microsatellite loci and the mitochondrial D-loop region, we monitored the released animals and their offspring between 2010 and 2013. Despite high levels of divergence between the two source populations (FST = 0.42 and ĎST = 0.72), there was clear evidence of interbreeding between animals from different populations. However, interbreeding was non-random, with a significant bias towards crosses between the genetically smaller-sized Barrow Island males and the larger-sized Dorre Island females. This pattern of introgression was opposite to the expectation that male–male competition or female mate choice would favour larger males. This study shows how mixing diverged populations can bolster genetic variation in newly established mammal populations, but the ultimate outcome can be difficult to predict, highlighting the need for continued genetic monitoring to assess the long-term impacts of admixture
Validation of the Edinburgh Postnatal Depression Scale (EPDS) on the ThaiâMyanmar border
Postnatal depression is common and may have severe consequences for women and their children. Locally validated screening tools are required to identify at-risk women in marginalised populations. The Edinburgh Postnatal Depression Scale (EPDS) is one of the most frequently used tools globally. This cross-sectional study assessed the validity and acceptability of the EPDS in Karen and Burmese among postpartum migrant and refugee women on the Thai-Myanmar border. The EPDS was administered to participants and results compared with a diagnostic interview. Local staff provided feedback on the acceptability of the EPDS through a focus group discussion. Results from 670 women showed high accuracy and reasonable internal consistency of the EPDS. However, acceptability to local staff was low, limiting the utility of the EPDS in this setting despite its good psychometrics. Further work is required to identify a tool that is acceptable and sensitive to cultural manifestations of depression in this vulnerable population