Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
PurposeThis case study is based on the Women in Agri-Tech programme, a teacher professional development programme that aimed to build teachers’ capabilities to use Agri-Tech in their agriculture/STEM classes to increase student awareness of agriculture technology and its associated career paths. Teachers and agriculture industry partners co-created Agri-Tech modules, which were implemented and evaluated from teachers’ and students’ perspectives. This paper demonstrates how work-related learning that emphasises technology can increase the visibility of career pathways and how multi-stakeholder benefits can evolve from teacher–industry partnerships.Design/methodology/approachAn action research design using quantitative and qualitative methods was used to construct this case study. Data collection methods included surveys, interviews, peer evaluation and teacher reflections.FindingsTeacher professional development that incorporates teacher-industry partnerships can increase teachers’ self-efficacy and build confidence to support authentic work-related learning in their classes. Integrating technology into agriculture/STEM classes can increase the visibility of agriculture career paths for students, which is critical given the serious skills shortage in this sector.Research limitations/implicationsThis study is limited in that the Women in Agri-Tech professional development programme was one standalone programme tailored specifically for women agriculture/STEM teachers through a competitive process. However, the beneficial implications of such programmes that support teacher–industry engagement have far-reaching benefits. Teacher professional development programmes that provide opportunities to partner with industry can support improvements in integrating career-aligned learning into the curriculum and can specifically address industry skills and knowledge gaps by addressing school-based learning requirements for the future workforce.Originality/valueThis paper contributes to the literature on education–industry partnerships and considers how teachers can contribute to an early intervention sector workforce development strategy for future industry sustainability.
PurposeThis case study is based on the Women in Agri-Tech programme, a teacher professional development programme that aimed to build teachers’ capabilities to use Agri-Tech in their agriculture/STEM classes to increase student awareness of agriculture technology and its associated career paths. Teachers and agriculture industry partners co-created Agri-Tech modules, which were implemented and evaluated from teachers’ and students’ perspectives. This paper demonstrates how work-related learning that emphasises technology can increase the visibility of career pathways and how multi-stakeholder benefits can evolve from teacher–industry partnerships.Design/methodology/approachAn action research design using quantitative and qualitative methods was used to construct this case study. Data collection methods included surveys, interviews, peer evaluation and teacher reflections.FindingsTeacher professional development that incorporates teacher-industry partnerships can increase teachers’ self-efficacy and build confidence to support authentic work-related learning in their classes. Integrating technology into agriculture/STEM classes can increase the visibility of agriculture career paths for students, which is critical given the serious skills shortage in this sector.Research limitations/implicationsThis study is limited in that the Women in Agri-Tech professional development programme was one standalone programme tailored specifically for women agriculture/STEM teachers through a competitive process. However, the beneficial implications of such programmes that support teacher–industry engagement have far-reaching benefits. Teacher professional development programmes that provide opportunities to partner with industry can support improvements in integrating career-aligned learning into the curriculum and can specifically address industry skills and knowledge gaps by addressing school-based learning requirements for the future workforce.Originality/valueThis paper contributes to the literature on education–industry partnerships and considers how teachers can contribute to an early intervention sector workforce development strategy for future industry sustainability.
This study highlights the need to recognize and train agricultural workers in essential non-technical skills to enhance workforce effectiveness and sustainability within the agriculture sector. Focused on the Gippsland region of Victoria, Australia, the research involved initial semi-structured interviews with three agricultural training managers to identify relevant non-technical skills for food and fibre workplaces. Representatives from twenty Gippsland food and fibre businesses were then surveyed to rate these identified skills across different workforce segments: (a) seasonal workers, (b) entry-level workers, (c) supervisors, and (d) managers. Descriptive statistics, including frequency counts, means, and standard deviations, were used to analyze the responses. Employer ratings for skill needs were weighted against the number of workers employed in each workforce segment. Key non-technical skills such as communication, teamwork, problem-solving, and cross-cultural competence were found to be in high demand, particularly among seasonal and entry-level workers. However, there is a significant gap between the importance of these skills and their prioritization in accredited training programs. Addressing this gap is crucial for investing in a skilled and adaptable agricultural sector that is competitive and sustainable. The theoretical understandings derived from this study’s results warrant further research and replication in diverse commodity sectors and locations within Australia and internationally.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.