The Professional Experience of Mathematics Teachers in Promoting Students’ Transversal Skills in Basic and Secondary Schools

Authors

  • Baiba Kaļķe Faculty of Educational Sciences and Psychology, University of Latvia, Imantas 7. līnija - 1, LV -1083, Latvia
  • Līga Āboltiņa Faculty of Educational Sciences and Psychology, University of Latvia, Imantas 7. līnija - 1, LV -1083, Latvia
  • Gatis Lāma Faculty of Educational Sciences and Psychology, University of Latvia, Imantas 7. līnija - 1, LV -1083, Latvia

DOI:

https://doi.org/10.15503/jecs2026.1.399.415

Keywords:

transversal skills, secondary education, basic school, teacher assessment, school mathematics

Abstract

Aim. The aim of the study is to explore the professional experience of basic and secondary school mathematics teachers in developing transversal skills.

Methods. In total, 126 mathematics teachers and 512 students participated in the study. Students’ transversal skills assessed by teachers were compared with the opportunities provided to develop these skills in both basic and secondary schools. Descriptive statistics and Spearman’s rank correlations were used. Secondary school students’ transversal skill self-assessments were also compared with teacher assessments. The Mann–Whitney U test was conducted.

Results. The assessment of basic school students’ transversal skills in many areas does not correlate with the assessment of the opportunities provided. At secondary school, a correlation exists between the assessment of most transversal skills and the evaluation of the opportunities for their development. Additionally, secondary school students rate their skills higher than teachers do in almost all transversal skills; however, this difference is not always statistically significant.

Conclusions. The results indicate that although Latvian education policy documents emphasise the development of transversal skills at all levels, in practice this integration often occurs in a fragmented manner, as teachers lack a shared understanding and methodological support for effectively fostering these skills. Teachers believe they provide students with opportunities to develop transversal skills; however, these opportunities do not always translate into actual skill development. Furthermore, the differences between students’ self-assessments and teachers’ evaluations highlight the need for a more unified understanding of how to foster transversal skills effectively.

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Author Biographies

  • Baiba Kaļķe, Faculty of Educational Sciences and Psychology, University of Latvia, Imantas 7. līnija - 1, LV -1083, Latvia

    Dr. paed. Baiba Kaļķe is Associate Professor at the Faculty of Educational Sciences
    and Psychology and researcher at the Scientific Institute of Pedagogy, University of
    Latvia. She is a Latvian language and literature teacher at Baldone Secondary School.
    As an expert she has participated in various projects related to the teaching-learning
    process. Academic interests: autobiographical approach in the history of education,
    the image of teachers, and the teaching-learning process, especially transversal skills.
    She is an expert of the Latvian Council of Science.

  • Līga Āboltiņa, Faculty of Educational Sciences and Psychology, University of Latvia, Imantas 7. līnija - 1, LV -1083, Latvia

    Doctor of Pedagogy, assistant professor at the Faculty of Educational Sciences and
    Psychology, University of Latvia. Author of scientific publications on children's
    social adaptation in pre-school and school, self-directed activity, language learning,
    teachers professional competence, etc. As an expert she has participated in various
    projects related to the pre-school learning process and pre-school education issues.
    Expert of the National Centre for Education, scientific reviewer of teaching materials.

References

Bakan, G., & Bircan, M. A. (2025). Enhancing 21st century skills of primary school students in rural areas through STEM activities†. The Journal of Educational Research, 119(1), 91–106. https://doi.org/10.1080/00220671.2025.2517265

Cepic, R., Vorkapic, S. T., Loncaric, D., Andic, D., & Mihic, S. S. (2015). Considering transversal competences, personality and reputation in the context of the teachers’ professional development. International Education Studies, 8(2), 8–20. https://doi.org/10.5539/ies.v8n2p8

Connolly, C., Carr, E., & Knox, S. (2021). Diving deep into numeracy, cross-curricular professional development. International Journal of Mathematical Education in Science and Technology, 54(6), 1034–1053. https://doi.org/10.1080/0020739X.2021.1986160

Cooksey, R. W. (2020). Illustrating statistical procedures: Finding meaning in quantitative data (3rd ed.). Springer.

De Greef, M., Fellinger, J., Dhengozova, M., Gmaj, I., Fijalkowska, B., Pierwieniecka, R., Wójcicka, A. & Auzinger, M. (2023). The impact of validation and guidance of transversal skills: Scientific impact study of the field trials of the European project TRANSVAL-EU. TRANSVAL-EU.

Demissie, E. B., Labiso, T. O., & Thuo, M. W. (2022). Teachers’ digital competencies and technology integration in education: Insights from secondary schools in Wolaita Zone, Ethiopia. Social Sciences & Humanities Open, 6(1), Article 100355, https://doi.org/10.1016/j.ssaho.2022.100355

European Commission. (2019). Key competences for lifelong learning. Publications Office of the European Union.

European Commission. (2021). ESCO handbook: European skills, competences, qualifications and occupations. Publications Office of the European Union.

Hurley, M., Butler, D., & McLoughlin, E. (2024). STEM teacher professional learning through immersive STEM learning placements in industry: A systematic literature review. Journal of STEM Education Research, 7(1), 122–152. https://doi.org/10.1007/s41979-023-00089-7

Kaļķe, B., Āboltiņa, L., & Lāma, G. (2025). Assessment of secondary school students’ transversal skills in optimal and highest-level mathematics. Journal of Education Culture and Society, 16(1), 909–923. https://doi.org/10.15503/jecs2025.2.909.923

Khabeishvili, G. (2024). Rethinking our classrooms: Teachers’ perceptions on integrating transferable skills in the classrooms to create an active learning environment. European Scientific Journal, 20(8), 194-218. https://doi.org/10.19044/esj.2024.v20n8p194

Lāma, G. (2023). Secondary-school student transversal skills in mathematics. Comparison between teacher assessment and student self-assessment. In L. Daniela (Ed.), To be or not to be a great educator, 2022. Proceedings of ATEE Annual Conference (pp. 684–695). University of Latvia Press.

Lāma, G. (2024). Vidusskolēnu caurviju prasmes matemātikas mācībās [Unpublished doctoral dissertation]. University of Latvia.

Latvijas Republikas Pārresoru koordinācijas centrs. (2020). Latvijas Nacionālais attīstības plāns 2021.–2027. gadam. https://likumi.lv/wwwraksti/LIKUMI/NAP/NAP2027.PDF

Mačianskienė, N. (2016). Development of transversal skills in content and language integrated learning classes. European Scientific Journal, 12(1), 129–139. https://doi.org/10.19044/esj.2016.v12n1p129

Nachar, N. (2008). The Mann-Whitney U: A test for assessing whether two independent samples come from the same distribution. Tutorials in Quantitative Methods for Psychology, 4(1), 13–20. https://doi.org/10.20982/tqmp.04.1.p013

OECD. (2025). Future-focused mathematics curricula: Empowering learners for the 21st century. OECD Education Spotlights 18. OECD.

Okada, A., Panselinas, G., Bizoi, M., Malagrida, R., & Torres, P. L. (2024). Fostering transversal skills through open schooling with the CARE-KNOW-DO framework for sustainable education. Sustainability, 16(7), Article 2794. https://doi.org/10.3390/su16072794

Rebekić, A., Lončarić, Z., Petrović, S., & Marić, S. (2015). Pearson’s or Spearman’s correlation coefficient – which one to use? Poljoprivreda, 21(2), 47–54. https://doi.org/10.18047/poljo.21.2.8

Rehman, N., Huang, X., Mahmood, A., AlGerafi, M. A. M., & Javed, S. (2024). Project-based learning as a catalyst for 21st-century skills and student engagement in the math classroom. Heliyon, 10(23), Article e39988. https://doi.org/10.1016/j.heliyon.2024.e39988

Roberts, T., Maiorca, C., Jackson, C., & Mohr-Schroeder, M. (2022). Integrated STEM as problem-solving practices. Investigations in Mathematics Learning, 14(1), 1–13. https://doi.org/10.1080/19477503.2021.2024721

Skola2030. (2019). Caurviju prasmes [Transversal skills]. https://www.skola2030.lv/lv/macibu-saturs/merki-skolenam/caurviju-prasmes

Taber, K. S. (2018). The use of Cronbach’s alpha when developing and reporting research instruments in science education. Research in Science Education, 48, 1273–1296. https://doi.org/10.1007/s11165-016-9602-2

Taguma, M., Makowiecki, K., & Gabriel, F. (2023). OECD Learning Compass 2030: Implications for mathematics curricula. In Y. Shimizu & R. Vithal (Eds.), Mathematics curriculum reforms around the world (pp. 479–509). Springer.

Tam, A., & Trzmiel, B. (2018). Transversal skills as a missing link between school and work: Experiences from the Asia-Pacific region. In M. Pavlova, J. K. Lee, & R. Maclean (Eds.), Transitions to post-school life: Responsiveness to individual, social and economic needs (pp. 35–49). Springer.

Tilea, M. (2015). Transversal skills in modern teaching practice. In M. Tilea, O.-A. Duţă, J. F. Johanssón, & P. Murphy (Eds.), Transversal skills development in modern teaching practice: A good practice guide (pp. 9–28). Pro Universitaria

Tsankov, N. (2017). Development of transversal competences in school education (A didactic interpretation). International Journal of Cognitive Research in Science, Engineering and Education, 5(2), 129–144. https://doi.org/10.5937/ijcrsee1702129T

Tzafilkou, K., Perifanou, M. & Economides, A.A. (2023). Assessing teachers’ digital competence in primary and secondary education: Applying a new instrument to integrate pedagogical and professional elements for digital education. Education and Information Technologies, 28, 16017–16040. https://doi.org/10.1007/s10639-023-11848-9

Varas, D., Santana, M., Nussbaum, M., Claro, S., & Imbarack, P. (2023). Teachers’ strategies and challenges in teaching 21st century skills: Little common understanding. Thinking Skills and Creativity, 48, Article 101289. https://doi.org/10.1016/j.tsc.2023.101289

Wilson, M. M., Zafar, F., & Nichol, C. (2025). Fostering inquiry: The impact of cross-curricular professional development on STEM teacher practices. Education Sciences, 15(4), Article 421. https://doi.org/10.3390/educsci15040421

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Published

2026-06-27

Issue

Vol. 17 No. 1 (2026): Journal of Education Culture and Society

Section

EXPERIENCE

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Copyright (c) 2026 Baiba Kaļķe, Līga Āboltiņa, Gatis Lāma

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How to Cite

Kaļķe, B., Āboltiņa, L., & Lāma, G. . (2026). The Professional Experience of Mathematics Teachers in Promoting Students’ Transversal Skills in Basic and Secondary Schools. Journal of Education Culture and Society, 17(1), 399-415. https://doi.org/10.15503/jecs2026.1.399.415