Are out-of-field teachers just hole fillers?
How beginning educators teaching high school mathematics out-of-field in regional Australia develop a professional identity
Dear reader: I’ve plunged into writing about out-of-field teaching for a post-graduate degree in education research. Here’s my foray into sense-making of this phenomenon.
Up to one in three beginning secondary school educators in Australia teach outside their specialist areas (Vale 2019, Weldon 2016). Scratch below the surface of the label, ‘out of field teachers’ (OOFT), and you’ll find 12-plus ways of measuring their numbers here and internationally (Ingersoll 2019:25).
Often, OOFT are assigned to teach Year 7 to 10 mathematics. Some 21% of such teachers lack university mathematical subject and pedagogical training (Weldon 2016:7) to support student learning (Bennison 2016:2), and 12% of that cohort are early career teachers (in their first five years of their careers) (Weldon 2016:7). In addition, they can lack “flamboyance” as a teacher (Hobbs 2012:21).
Why is this happening, and is it an issue?
Out-of-field teachers are essential to fill holes in “unsympathetic” school timetables (Hobbs and Törner 2019:4). But, there are widely held assumptions that their supposed deficits in teaching quality and insufficient numbers of subject-qualified teachers are to blame for poorer student learning outcomes, posits Ingersoll (2019:23).
But, is OOFT a problem if experienced teachers front classrooms?
Two key indicators for student learning often cited are the performance of Australian students in the NAPLAN (National Assessment Program — Literacy and Numeracy) and PISA (Programme for International Student Assessment).
In a quest to boost student performance, there is much scholarly and public focus on the incidence and impact of OOFT. This is in the context of discussions about:
- educational policies (Du Plessis 2020)
- rubbery figures about teacher attrition within the first five years of their careers (Weldon 2016)
- the paucity of official detailed workforce data (Weldon, 2016, Weldon 2018, AITSL 2021, Hobbs and Törner 2019, Ingersoll 2019, O’Connor and Thomas 2019, Du Plessis 2020, DFAT 2019, Vale 2019)
- teacher ‘bashing’ (EducationHQ 2021)
- the need to boost students’ STEM (science, technology, and mathematics)
- future workforce skills (Finkel 2020), and
- education departments’ curtailing of teachers’ voices in the debate (Reid 2019).
Cutting a swathe through this cacophony is data showing out-of-field teaching happens in schools or fields without teacher shortages (Ingersoll 2019:23).
Is it just a rostering issue — an easy ‘fix’?
No, there are many levels of complexity, particularly in mathematics teaching.
The NSW (Australia) education department acknowledges a high demand for teachers in non-urban areas and a decreasing supply of mathematics teachers overall, creating a “persistent challenge” for “attracting and retaining teachers” to non-metropolitan areas (Holden and Zhang 2018:52).
Despite various initiatives involving Federal and state governments, professional associations, and university education faculties to tackle this issue, the shortfall of mathematics-qualified teachers will take at least three decades to solve (O’Connor and Thomas 2019:9).
The Australian education system is in a state of flux, and this is what the beginning OOFT of mathematics are walking into — they’re hole fillers in an education system minefield.
How do they form a professional identity that benefits themselves and the system, and what does that identity look and feel like internally and externally?
Framing one’s professional identity: ‘Miss, are you a ‘real’ teacher?’
This literature review has explored professional identity development through the lens of OOFT, but is limited to Australian and mostly First World research in English. Where possible, the review was refined to papers about those who teach secondary school mathematics out of field.
Why?
For seven years (until April 2019), I was a primary-trained educator who did many CRT stints of out-of-field high-school mathematics teaching in regional NSW schools. However, as a casual, relief, and temporary teacher, I had no mentors nor frameworks for developing my professional identity as a teacher because no school would supervise me from a provisional to proficient teacher as per the Australian Professional Standards for Teachers (AITSL, 2018).
Was my identity based on which subjects I taught (and where in the K-12 paradigm) or based on what I did, that is, teach? My students would regularly ask if I was a ‘real’ teacher. I couldn’t call myself a ‘maths teacher’, nor would a school’s mathematics faculty do so because I wasn’t mathematics qualified despite my enthusiasm for mathematics, a “language we can use to interpret the world” (Woo 2018:17).
Yet, in my recent interviews with out-of-field early-career high school teachers (Australian Educator 2021), when I asked how they identify, they replied, “I’m a teacher”, without a need to qualify that. Had I found a new breed of educator proud not to specialise?
Thus emerges my research question: How does one build a professional identity as a beginning CRT educator teaching high-school mathematics out of field in regional schools? This school context emerges from my ‘lived experience’ (Oxford 2021:para.1) as an embedded teacher and narrows the literature review’s scope, although rural and remote schools also prove challenging to staff (DFAT 2019:15).
Theoretical underpinnings
While debate ensues about whether education is a ‘field’ or ‘discipline’ (Bridges 2017:15, Wyse 2020), educational researchers cherry-pick from a diverse range of theories and frameworks. They include the categories of social sciences and humanities from which emerge disciplines of:
· psychology
· sociology
· anthropology
· sociology
· psychology
· history
· philosophy
· leadership
· economics
· literary studies, and more (Bridges 2017:18).
Therefore, this literature review has revealed a multitude of theoretical approaches that attempt to unpack the concept of ‘teacher professional identity’ spanning my search terms of pre-service or beginning teachers, to mathematics-qualified teachers, to OOFT, and the latter who teach mathematics.
Figuring out the mathematics teachers’ identity
Darragh (2016), who delved into identity in mathematics education in her literature review of 188 articles, found the area lacked consensus in defining identity, and sometimes research was “theoretically incompatible” (Darragh 2016:19). She found most research placed the concept of identity as either a sociological ‘action’ or psychological acquisition (Darragh 2016:19).
The most oft-cited was social learning theory (Wenger 1998, Lave and Wenger 1991 cited in Darragh 2016:23), which holds that learning happens as a process of negotiating meaning through participation, relationships, and social dimensions, such as communities of practice rather than an “accumulation of skills and information” (Wenger 2012, Wenger 1998:215).
Indeed, one’s identity as a teacher and their actions, ie. teaching practices, are assumed to be linked and ‘situated’ in a context (Wenger 1998). I concur with Darragh (2016:19) about Wenger’s (1998) influence in identity research, having also found mentions (Rø 2020, Mercieca 2018:323, Sterner 2015:2963).
A perspective on identity
More broadly, the concept of professional teacher identity is complex, having personal and social aspects spanning knowledge, beliefs, emotions, relationships, “contexts and experiences” (van Putten et al. 2014: 370). I propose that a professional teacher’s identity is about their:
· disposition
· actions
· performance
· self-perception
· reflections
· sense of belonging to the ‘tribe’ of teachers
· others’ perceptions of them in the school contexts, and
· that identity is remade or shattered every day (writing from my ‘lived experience’).
The research examined was patchy on CRT OOFT experience (kind, duration, and verification) and a quality rating of instructional practices, as well as differences between CRT OOFT of mathematics and mathematics-qualified teachers.
Navigating methodologies and methods
However, I did find a range of methodological approaches in published research applied to micro, meso, and macro levels (Neuman 2009 in Cresswell and Cresswell:53), respectively individual case studies, communities of practice, and school contexts as well as international education system comparisons. Darragh’s (2016) review found the most common methodologies were qualitative, including these methods: “interviews, observations, video analysis, autobiography, and document analysis” (Darragh 2016:23). Qualitative research also predominated in my smaller-scale literature review.
Why can’t a study look at two or more of those levels?
I questioned the sole method of case studies to achieve reliability and depth, mainly where a handful of teachers were profiled (Rø 2020, Bennison 2016, Arslan 2018, van Putten et al. 2014, Charteris et al 2017, Lutovac 2020, Valoyes-Chavez 2019, Heyd-Metzuyanim 2019, Nolan 2016, Sternberg and Maaranen 2021) and at most their mentors, too (Mosvold and Bjuland 2016).
Hobbs (2012) demonstrated a more comprehensive approach by involving principals, assistant principals, a teaching and learning coach, as well as a mix of early career and experienced OOFT of mathematics and science, as did Mercieca (2018) using the lens of a communities of practice for her research. Meanwhile, another study tested my quality expectations. It involved a group of former casual teachers reflecting on their experiences in an “evolving feminist post-structuralist research method” (Charteris et al. 2017:517). In short, this “collective biography” (Charteris et al. 2017: 516) amounted to a kind of historical navel-gazing. While it did take a Foucaldian lens to CRT teaching to delineate power structures (Charteris 2017:516), it missed capturing other voices in teaching contexts in identity meaning-making.
My bias is towards deeply and widely researching an issue, not just one chink, because identity is not a construct residing in one’s head, it’s a social and psychological paradigm.
Other gaps I noted in the research were in exploring the developing a professional teacher identity from the perspectives of teachers’ gender, age, prior non-teaching career (if any), disability, culturally and linguistically diverse community background or geographic location (such as a city-dweller who moves to the regions to teach), and offer comparisons.
Equity for developing teachers: differentiation
As well, no research was found comparing how early career mathematics qualified teachers develop their identity compared to their peers teaching mathematics out of field.
How can these factors influence identity formation?
How do education system supports for early career CRT OOF teachers of maths differentiate for their learning needs as teachers themselves must differentiate lessons and assessments for their learners?
Could school rostering software, such as Sentral, tally and analyse the data on who’s teaching what, where, when, and why? It may show, for example, an OOFT has taught the equivalent of three years of year 7–10 mathematics classes, and, with supervisory signoff about their performance, could achieve a microcredential, credit, or more towards mathematics-qualifications?
Why can’t educators’ teaching experience count towards qualifications?
A promising approach to differentiating supports for identity development is the Teacher of Mathematics Identity (ToMI) Framework by Lynch et al. (2020). It aims to attract and retain mathematics teaches — infield and OOF — to regional, rural, and remote contexts. ToMI places the teacher at the centre within a professional collaborative network, school leadership supports, and a professional affiliate — the Mathematical Association of NSW.
The proponents are testing the framework and hope it will be adjustable and applicable to different contexts, particularly STEM, to help develop a robust and enduring professional teacher identity (Lynch et al. 2020:21). The framework acknowledges one size does not fit all.
That is why I took umbrage with another framework that oversimplified mathematics teacher identity into three types: traditional (teacher-centred), new (reformist, i.e., favouring student-centred, inquiry-based pedagogies), or resistor (having undergone professional development as a reformist, but failing to adopt those practices) (Zimmerman 2006 cited in Valoyes-Chavez 2019). This research has evolved from the school mathematics reform movement or “eruption” (Valoyes-Chavez 2019: 179), which are multiple discourses with “structure a space of possibilities of being, feeling and acting as a mathematics teacher” (Valoyes-Chavez 2019:179). Interestingly, this movement was not mentioned in any of the Australian research reviewed.
Valoyes-Chavez (2019:188) raised the fascinating notion of a mathematics teacher undertaking training that foregrounded inquiry-based, student-centred instructional strategies but resisting adopting them whole-heartedly in his classroom. That’s because they rendered that educator “invisible” (Valoyes-Chavez 2019:188) as he had to “step down” to stay at the rear of the classroom as students were given agency to steer their learning (Valoyes-Chavez 2019:188).
There’s a parallel to CRT teachers’ situation as ‘faceless’ hole fillers who students challenge by asking, “are you a real teacher?”.
But, I question whether an educator can be pigeon-holed as traditional, new, or resistor because teachers will differentiate using explicit instruction, modelled-guided-independent learning approaches to inquiry, or project-based learning depending on the lesson, day, student cohort, and school context.
Conclusion — summary/way forward
In summary, the literature review of about 40 items revealed research gaps for me to explore. There is a ‘sweet spot’ to comprehensively study early career CRT OOFT of mathematics working in regional Australian schools.
For example, no research was found that focused on:
· a large cohort (30, as a suggestion) of early career teachers over their first three years of teaching mathematics OOF and as CRTs in regional Australia taking a mixed-method approach of:
o surveys;
o interviews;
o reflective autobiographical journals;
o classroom video analysis;
o an occasional embedded observer in the classroom, staffroom, and online communities of practice;
o analysis of teachers’ proficiency documentation;
o involving to different degrees the teacher, their mentor, the mathematics faculty head, a senior leader such as a principal, and students’ feedback (on instructional quality) at different points in time (such as every six months)
to arrive at a contemporary cohort-community definition of professional teacher identity and how it can evolve.
Marrying up this data with that from the schools’ databases detailing the number and type of mathematics classes those teachers fronted and when would also be useful to see if it influenced their identity development.
Student voice is flagged because it helps show what students aren’t learning and why, so offers insights into the quality of teachers’ instructional practices (Ingvarson and Reid 2018:para.2), a component of teacher identity.
Importantly, what world views, ‘lived experiences’ (i.e. social and cultural capital they bring to the profession (Bourdieu 1977)), and understanding of ‘signature’ pedagogies (core teaching practices) from their subject specialisations do they bring to their roles (Darby 2010)?
The depth and richness of this sociocultural approach could highlight processes and outcomes such as a normalisation or strengths-based rather than deficit view of CRT teaching OOF in mathematics — possibly an ‘ah ha’ realisation.
Glossary:
AITSL: Australian Institute for Teaching and School Leadership
ATWD Australian Teacher Workforce Data
CRT teachers: Casual, relief, and temporary teachers
NAPLAN: National Assessment Program — Literacy and Numeracy
OOF: Out of field
OOFT: Out of field teaching (or teachers depending on the context)
PISA: Programme for International Student Assessment
STEM: science, technology, engineering, and mathematics
ToMI: Teacher of Mathematics Identity
References
AITSL (Australian Institute for Teaching and School Leadership) (2021) National Teacher Workforce Strategy, Australian Institute for Teaching and School Leadership, accessed 7 April 2021.
AITSL (Australian Institute for Teaching and School Leadership) (2020) Informing the future of the teaching profession, National Initial Teacher Education Pipeline: Australian Teacher Workforce Data Report 1, Australian Institute for Teaching and School Leadership, Education Services Australia, accessed 4 April 2021.
AITSL (Australian Institute for Teaching and School Leadership) (2018) Australian Professional Standards for Teachers, (revised), Australian Institute for Teaching and School Leadership , Education Services Australia, accessed 1 April 2021.
Arslan O (2018) ‘Mathematics Teacher Identity Development of Early Career Middle Grade Mathematics Teachers and the Role of Participated Communities’ [PhD thesis], Middle East Technical University, Ankara, Turkey, accessed 7 January 2021.
Australian Educator (2021) ‘New Educators’, in the Australian Educator, Winter issue [unpublished magazine], Australian Education Union, Melbourne, Victoria.
Bennison A (2016) ‘Identity as an Embedder-of-Numeracy: Numeracy and Teaching Science Out of Field, [conference presentation], AARE Conference 2016 — Melbourne, Victoria:1–10,
accessed 8 November 2020.
Bourdieu P (1977) Outline of a Theory of Practice, Cambridge Studies in Social Anthropology, Vol 16, Cambridge University Press, Cambridge UK.
Bridges D (2017) Philosophy in Educational Research, Epistemology, Ethics, Politics and Quality, Springer, doi:10.1007/978–3–319–49212–4
Brown R (2012) (ed) 30 Second Maths, the 50 most mind-expanding theories in mathematics, each explained in half a minute, Ivy Press, East Sussex, UK.
Charteris J, Jenkins K, Jones M and Bannister-Tyrrell M (2017) ‘Discourse appropriation and category boundary work: casual teachers in the market’, Discourse: Studies in the Cultural Politics of Education, (38)4: 511–69, doi:10.1080/01596306.2015.1113158
Cresswell JW and Cresswell JD (2018) Research Design Qualitative, Quantitative & Mixed Methods Approaches, (4th edition), Sage, UK.
Daily Telegraph (November 27 2018) High school students don’t have mathematics teacher for at least one year, Daily Telegraph, accessed 20 February 2021.
Darragh, L. (2016) ‘Identity research in mathematics education’, Educational Studies in Mathematics, 93(1):19–33.
Darby L (2010) ‘Characterising secondary school teacher imperatives as subject (signature) pedagogies: a pedagogy of support in maths and a pedagogy of engagement in science’, in AARE 2010 : Proceedings of the 2010 Australian Association for Research in Education Conference, Australian Association for Research in Education, Coldstream, Vic (1–14), accessed 4 April 2021.
DFAT (Department of Foreign Affairs and Trade) (2019) Education Sector Workforce Planning: Practitioner Level, Education Learning and Development Module, Diplomatic Academy, accessed 1 April 2021.
Du Plessis AE (2020) Out-of-Field Teaching and Education Policy: International Micro-Education Policy, Springer, Singapore.
EducationHQ (1 March 2021) The cuts go deep: online teacher basher grinds down our undervalued educators, EducationHQ, accessed 7 April 2021.
Finkel A (2020) Australia’s STEM Workforce Science Technology, Engineering and Mathematics, Australian Government, Office of the Chief Scientist accessed 1 April 2021.
Hey-Metzuyanim E (2019) ‘Changing teaching practices towards explorative mathematics instruction — The interweaving of teaching identity and pedagogical discourse’, Teaching and Teacher Education, (86):1–12, doi:10.1016/j.tate.2019.06.016
Hobbs L (2012) ‘Teaching out-of-field: Factors shaping identities of secondary science and mathematics’, Teaching Science, 58(1):21–29
Hobbs L and Törner G (eds) (2019) Examining the Phenomenon of “Teaching Out-of-field’: International Perspectives of Teaching as a Non-specialist, Springer, Singapore.
Holden R and Zhang J (2018) The economic impact of improving regional, rural and remote education in Australia: Closing the Human Capital Gap, Gonski Institute for Education, University of NSW, Sydney, accessed 8 April 2021.
Ingersoll R N (2019) ‘Measuring Out-of-Field teaching’, in Hobbs L and Törner G (eds) Examining the Phenomenon of “Teaching Out-of-field’: International Perspectives of Teaching as a Non-specialist, Springer, Singapore.
Ingvarson L and Reid K (2018) Improving practice through student feedback, Teacher, (ACER) Australian Council for Educational Research
Lave and Wenger (1991) in Somekh B, Burman E, Delamont S, Meyer J, Payne M and Thorpe R (2011) Theory and Methods in social research, Sage, UK.
Lutovac S (2020) ‘How failure shapes teacher identities: Pre-service elementary school and mathematics teachers’ narrated possible selves’, Teaching and Teacher Education (94):1–11, doi:10.1016/j.tate.2020.103120
Lynch D, Yeigh T, Woolcott G, Peddell L, Hudson S, Samojlowicz D, Markopolous C, Bui V and Willis R (2020) ‘An innovative teacher of mathematics identity framework: An adaptive solution to systematic challenges facing teachers in regional, rural and remote Australia’. Australian Mathematics Education Journal, 2(3):16–22, accessed 17 September 2020.
Mercieca B (2018) ‘Companions on the journey: an exploration of the value of communities of practice for the professional learning of early career secondary teachers in Australia’ [PhD thesis], University of Southern Queensland, accessed 11 January 2021.
Mosvold R and Bjuland R (2016) ‘Positioning in identifying narratives of/about pre-service mathematics teachers in field practice’, Teaching and Teacher Education, (58)90–98, doi:10.1016/j.tate.2016.05.005
Nolan, KT (2016) ‘Schooling novice mathematics teachers on structures and strategies: a Bourdieuian perspective on the role of ‘others’ in classroom practices’, Educational Studies in Mathematics (92):315–329, doi:10.1007/s101649–015–9668–1
O’Connor M and Thomas J (2019) Australian Secondary Mathematics Teacher Shortfalls: A Deepening Crisis, Australian Mathematical Science Institute, AMSI Occasional Paper 2, May. Accessed 23 October 2020
Oxford Reference (n.d), Overview: Lived experience, Oxford Reference, accessed 7 April 2021.
Reid A (2019) Changing Australian Education, Routledge, Crows Nest.
Rø K (2019) ‘Developing an identity as a secondary school mathematics teacher: Identification and negotiability in communities of practice’, Eleventh Congress of the European Society for Research in Mathematics Education, Utrecht University, February 2019, Utrecht, Netherlands hal:02430491, accessed 2 April 2021.
Shulman L (1999) ‘Professing educational research’, in Lageman L and Shulman L (eds), Issues in educational research: Problems and possibilities:159–165, San Francisco: Jossey and Bass.
Stenberg K and Maaranen K (2021) ‘A novice teachers’ teach identity construction during the first year of teaching: A case study from a dialogical self perspective’, Learning, Culture and Social Interaction, (28):1–10, doi:10.1016/j.lcsi.2020.100479
Sterner H (2015) ‘Mathematics teachers’ meaning making — Problematizing the process of learning in and from daily practice’, CERME-9 — Ninth Congress of the European Society for Research in Mathematics Education, Charles University in Prague, Faculty of Education, ERME Feb 2015, Prague, Czech Republic, 2963–2964, accessed 2 November 2020.
Vale C (2019) ‘How School Leaders can support out-of-field teachers’, Teachspace blog, Monash University, accessed 6 April 2021.
Van Putten S, Stols G and Howie S (2014) ‘Do prospective mathematics teachers teach who they say they are?’, Journal of Mathematical Teacher Education, 17:369–392, doi:10.1007/s10857–013–9265–0.
Valoyes-Chavez L (2019) ‘On the making of a new mathematics teacher: professional development, subjectivation and resistance to change’, Educational Studies in Mathematics, (100):177–191, doi:10.1007/s10649–018–9869–5
Weldon PR (2016) Out-of-field Teaching in Australian Secondary Schools, (ACER) Australian Council for Educational Research, Policy Insights Issue 6, June 2016
Weldon PR (2018) ‘Early career teacher attrition in Australia: evidence, definition, classification and measurement’, Australian Journal of Education, 62(1):61–78, doi:10.1177/0004944117752478
Wenger E (1998) Communities of practice: Learning, meaning and identity, Cambridge University Press, New York, USA.
Wenger E (n.d 2012) ‘Communities of practice and social learning systems: the career of a concept’, Wenger-Trayner blog, accessed 11 April 2021.
Woo E (2018) Woo’s Wonderful World of Maths, Pan MacMillan Australia, Sydney.
Wyse D, Brown C, Oliver S and Poblete X (2020) ‘Education research and educational practice: The qualities of a close relationship’, British Educational
