By the beginning of 2020, a greater consensus has emerged on the definition of a microcredential. Indeed, major bodies such as the OECD, UNESCO, and the European Commission even agree on including a hyphen to lessen the confusion in terminology. More significantly, all EU Member States have adopted a common definition similar to the shared global definition proposed by UNESCO (2022). Several countries have already developed National Microcredential Frameworks (See Brown et al., 2021), with Australia being the latest to do so (Department of Education, Skills and Employment, 2022). This paper shares some of these developments and explains several of the driving forces behind microcredential growth.
What is driving microcredentials?
Several different but interconnected drivers fuel the current microcredentialing movement. Firstly, promoting lifelong learning is key to ensuring everyone has the knowledge, skills, and competencies they need to thrive in an ever-changing digital society. Accordingly, there is an increasing appreciation of the need for more flexible learning and career pathways. Secondly, a related driver is the rapidly changing nature of work and the need to upskill people to enhance their employability and fill growing skills gaps in response to labor market trends and the needs of industry and employers. The COVID-19 recovery has amplified the impact of digital transformation (Bozkurt & Sharma, 2022) and the importance of providing fit-for-purpose training and formal education pathways. In this context, microcredentials emerge as flexible and more inclusive learning opportunities to meet society’s current and future challenges. As the European Commission (2022, p. 2) states in its recent Council Recommendation:
“They make possible the targeted, flexible acquisition of knowledge, skills, and competencies to meet new and emerging needs in society and the labor market and make it possible for individuals to fill the skill gaps they need to succeed in a fast-changing environment, while not replacing traditional qualifications.”
This last point recognizes that higher education institutions perform an important role in society. However, traditional degree programs reflect “a long-form learning model” (HolonIQ, 2021, para. 3) that no longer ‘frontloads’ learners with knowledge, skills, and competencies for the remainder of their lives. As several major employers have moved to focus on employing people with work-ready skills rather than degrees (Akhtar, 2020; Kukulska-Hulme et al., 2022), microcredentials have begun to challenge the traditional credentialing ecosystem. In contrast to traditional qualifications, microcredentials recognize a wider range of learning or expertise in specific areas (Maina et al., 2022). Microcredentials can be bundled or unbundled, making it possible to create more personalized or unique training and educational pathways for both professional and personal development (Pelletier et al., 2021).
In this respect, microcredentials provide new possibilities for life-long, life-wide, and life-deep learning. It is also significant that microcredentials have the potential to liberate learners in terms of providing entry points to those who want to verify and accredit their qualifications and expertise without entering the long-term traditional higher education system. Additionally, in many cases, employers do not need or have the time for their employees to complete long-form qualifications as they seek just-in-time on-the-job training and continuous professional development. Thus, microcredentials further help to meet this kind of specific recognition of learning in workplace settings. In this regard, the traditional ‘brick and mortar’ higher education model does not meet such needs (Brown et al., 2021). This is where microcredentials can help “to overcome the gap between the learning outcomes of initial formal qualifications and emerging skills needs” required by the industry (Shapiro, 2020, p. 2).
Where do microcredentials fit?
There is growing momentum to integrate microcredentials more fully into the current credential ecosystem as both standalone and stackable qualifications. However, this is not as easy as it sounds, as the bottom-up open badging movement remains largely outside the scope of contemporary microcredential definitions. Moreover, Wolz et al. (2021), McGreal and Olcott (2022), and West and Cheng (2022) highlight that a common global definition is still a work in progress. Despite these challenges, our traditional conception of qualifications is changing, which needs to be reflected in how we understand the new and emerging credential ecosystem. Although overly simplistic, Brown et al. (2021) illustrate this ecosystem consisting of four distinctive quadrants representing credit-bearing and non-credit-bearing awards along with traditional bundled macro-credentials (i.e., degree programs) and those being rebundled through the microcredentialing movement (see Figure 1). In this more contemporary map of the credential landscape, microcredentials occupy the space of being unbundled, stackable and credit-bearing small volumes of learning. In contrast, nano-credentials refer to all manner of unbundled learning opportunities, such as open badges, that do not meet the definition of a microcredential as reported in this paper.
The new credential ecology (Brown et al., 2021)
Where next for microcredentials?
This paper has shown that microcredentials have transformative potential, providing pathways for personalized professional growth and career development. They can be a key mechanism for recognizing prior learning and informal learning experiences linked easily to eportfolios. However, there still are some serious challenges to overcome. For instance, greater interoperability is required across digital credential platforms and technologies. Also, there is a need to modify existing regulations so that microcredentials can be recognized at local, national, and international levels. There is also a need for trusted quality assurance mechanisms and accrediting bodies. Additionally, there is a need to focus more on the demand-side rather than the supply side of microcredentials. More importantly, microcredentials research needs more empirical evidence of the (private) benefits to learners and the (public) benefits to employers, governments, and societies.
Digital Literacies, Learner Agency, Lifelong Learning
Akhtar, A. (2020). Elon Musk said a college degree isn't required for a job at Tesla — and Apple, Google, and Netflix don't require employees to have 4-year degrees either. Business Insider. https://edtechbooks.org/-WmZ
Bozkurt, A., & Sharma, R. C. (2022). Digital transformation and the way we (mis)interpret technology. Asian Journal of Distance Education, 17(1), i-viii. https://edtechbooks.org/-tnxJ
Brown, M., Nic Giolla Mhichíl M., Beirne, E., & Mac Lochlainn, C. (2021). The global microcredential landscape: Charting a new credential ecology for lifelong learning. Journal of Learning for Development, 8(2), 228-254. https://edtechbooks.org/-WyaZ
Department of Education, Skills and Employment. (2022). National microcredentials framework. Australian Government. https://edtechbooks.org/-bFjj
European Commission. (2022). Council recommendation on a European approach to microcredentials for lifelong learning and employability. European Sources Online. Official Journal of the European Union, 10-25. https://edtechbooks.org/-apLY
HolonIQ. (2021). Micro & Alternative Credentials. Size, Shape and Scenarios - Part 1: Four Scenarios and the $10B Micro and Alternative Credential Market. HolonIQ.https://edtechbooks.org/-RENz
Kukulska-Hulme, A., Bossu, C., Charitonos, K., Coughlan, T., Ferguson, R., FitzGerald, E., Gaved, M., Guitert, M., Herodotou, C., Maina, M., Prieto-Blázquez, J., Rienties, B., Sangrà, A., Sargent, J., Scanlon, E., & Whitelock, D. (2022). Innovating Pedagogy 2022: Open University Innovation Report 10. The Open University. https://edtechbooks.org/-EaoN
Maina, M. F., Guàrdia Ortiz, L., Mancini, F., & Martinez Melo, M. (2022). A microcredentialing methodology for improved recognition of HE employability skills. International Journal of Educational Technology in Higher Education, 19(1), 1-22. https://edtechbooks.org/-emfBx
McGreal, R., & Olcott, D. (2022). A strategic reset: microcredentials for higher education leaders. Smart Learning Environments, 9(1), 1-23. https://edtechbooks.org/-VJp
Pelletier, K., Brown, M., Brooks, D. C., McCormack, M., Reeves, J., Arbino, N., Bozkurt, A., Crawford, S., Czerniewicz, L., Gibson, R., Linder, K., Mason, J., & Mondelli, V. (2021). 2021 EDUCAUSE Horizon Report Teaching and Learning Edition. EDUCAUSE. https://edtechbooks.org/-jBCe
Shapiro, H. (2020). Background paper for the first meeting of the consultation group on microcredentials. European Commission, Directorate-General for Education, Youth, Sport and Culture. https://edtechbooks.org/-GMBn
UNESCO. (2022). Towards a common definition of microcredentials. United Nations Educational, Scientific and Cultural Organization, Paris. https://edtechbooks.org/-MoA
West R. E., & Cheng Z. (2022). Digital Credential Evolution. In: Zawacki-Richter O., Jung I. (Eds), Handbook of Open, Distance and Digital Education. Springer. https://edtechbooks.org/-NJwY
Wolz, E., Gottlieb, M., & Pongratz, H. (2021). Digital Credentials in Higher Education Institutions: A Literature Review. In: Ahlemann, F., Schütte, R., Stieglitz, S. (Eds), Innovation Through Information Systems. WI 2021. Lecture Notes in Information Systems and Organisation. Springer, Cham. https://edtechbooks.org/-GzX
Suggested Citation& (2022). Microcredentials: Stackable, Combinable, or Transferable Qualifications. EdTechnica: The Open Encyclopedia of Educational Technology. https://edtechbooks.org/encyclopedia/microcredentials
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