This paper presents and analyses solutions where open education and open science were
utilised to reduce the impact of the COVID-19 pandemic on education. The COVID-19 outbreak and
associated lockdowns created huge challenges in school and higher education, demanding sudden
responses which aimed to sustain pedagogical quality. Responses have varied from conservative
to radically innovative. Universally, the COVID-19 pandemic disrupted and shocked societies
worldwide, and education systems were ...
This paper presents and analyses solutions where open education and open science were
utilised to reduce the impact of the COVID-19 pandemic on education. The COVID-19 outbreak and
associated lockdowns created huge challenges in school and higher education, demanding sudden
responses which aimed to sustain pedagogical quality. Responses have varied from conservative
to radically innovative. Universally, the COVID-19 pandemic disrupted and shocked societies
worldwide, and education systems were on the front line. The lockdowns largely stopped face-to-face
and formal education in almost all countries, and in most cases, distance learning soon became
the ‘new normal’. A central challenge concerned sustaining educational visions and ideals in such
circumstances. To better understand the state of the art in the educational landscape, we collected
case studies from 13 countries during the first year of the pandemic starting on 11 March 2020 (when
the World Health Organization declared a pandemic). This paper presents summaries of the full
country reports that were collected and describe lessons learned. Our overall aim was to identify good
practices and recommendations from the collected case studies that can be taken forward in the future.
We categorised the responses on the three generic educational levels (macro, meso and micro) and identified seven key aspects and trends that are valid for all or most countries: (1) formal education
at a distance for first time; (2) similar approaches for formal education; (3) missing infrastructure and
sharing open educational resources; (4) diverse teaching and learning methods and practices; (5) open
education and access to open educational resources; (6) urgent need for professional development
and training for teachers and (7) assessing and monitoring learning environments, teachers and
students. Finally, we identified key recommendations on how open education and open science can
benefit formal education in schools and universities in the future, namely, improved awareness of
open educational practices, provision of ICT infrastructure, embracing and sustaining the practice
of open access publications and OERs, capacity building for stakeholders and finally encouraging
research and development in the area of open education and open science. We found significant
evidence for the proposition that open education and open science can support both traditional
face-to-face and distance learning.
+