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Chapter 23 Food, Sustainability, and Science Literacy in One Package? Opportunities and Challenges in Using Aquaponics Among Young People at School, a Danish Perspective

4 months ago

6 min read

Bent Egberg Mikkelsen and Collins Momanyi Bosire

Abstract The call for sustainable food production and consumption has led to an increased interest and new policy measures to support the circular economy and climate-smart farming practices. The merits of aquaponics and closed-loop nutrient cycling systems are increasingly being examined in terms of sustainable productivity in various settings including urban environments. Aquaponics also has the potential to be applied as a learning tool for people of all ages but especially for young people at school. This chapter studies the potential of aquaponics to teach food and science literacy and the use of the technology as an educational tool in primary school. The chapter draws on data from the Growing Blue & Green (GBG) program carried out in cooperation among Aalborg University, Copenhagen, municipal schools and their teachers and a private aquaponic enterprise. The chapter draws on three empirical studies including an exploratory study on the educational opportunities at school, a feasibility study carried out among teachers, as well as the educational Growing Blue & Green (eGBG) study, in which a digital-based regulation component was added. The conclusion is that low-cost versions of aquaponics have considerable potential for supportive learning in elementary school. Preliminary findings furthermore suggest that fitting the setup with easy-to-install intelligent sensors and devices offers the opportunity to provide learning about food, sustainability, and a basic understanding of the control and management of biological systems in one package.

Keywords Aquaponics · Sustainability education · Science literacy · Food literacy · Education · Primary school

Contents


B. E. Mikkelsen

Integrated Food Studies, Aalborg University Copenhagen, Copenhagen, Denmark

C. M. Bosire

Department of Learning & Philosophy, Aalborg University, Copenhagen, Denmark

© The Author(s) 2019 597

S. Goddek et al. (eds.), Aquaponics Food Production Systems, https://doi.org/10.1007/978-3-030-15943-6_23


References

Armstrong EG (2008) A hybrid model of problem-based learning. In: Boud D, Feletti G (eds) The challenge of problem-based learning. Routledge, London

Beard C (2010) The experiential learning toolkit: blending practice with concepts. Kogan Page, London

Bosire CM, Sikora TA (2017) Blue-green farms of the future: using aquaponics at Primary School to Foster sustainable development (Master thesis). Retrieved from http://projekter.aau.dk/ projekter/files/259876456/CollinsBosireTomaszSikora__BlueGreenFarmsofthe_ FutureEMT.pdf

Bosire CM, Breidahl KS, Sikora TA, Mikkelsen BE (2016) Education for sustainability and food literacy — assessing opportunities and challenges for using aquaponics among young people at Schools. In: Mikkelsen BE, Ofei KT, Tvedebrink TDO, Romani AQ, Sudzina F (eds) Proceedings from 10th international conference on culinary arts and sciences, July 5—7th 2017 Aalborg University Copenhagen — Exploring Future Foodscapes, Published by Captive Food Studies. AAU Aalborg, p 250—267

Danish Ministry of Education (2014) Improving the public school— overview of reform of standards in the Danish Public School (primary and lower secondary education) The Danish Ministry of Education. Available at http: www.uvm.dk/publicschool. ISBN (Electronic version): 978-87603. Accessed 24 May 2016

Dewey J (1997) Experience and education. Kappa Delta Pi, Touchstone. (Original work published 1938)

Dyg PM, Mikkelsen BE (2016) Cooperation models, motivation and objectives behind farm—school collaboration: case insights from Denmark. Int J Soc Agric Food 23(1):41—62

Food and Agriculture Organization (2010) Sustainable diets and biodiversity: directions and solutions for policy, research and action. International scientific symposium, biodiversity and sustainable diets united against hunger. Rome, Italy, 3—5 November 2010

Graber A, Antenen N, Junge R (2014) The multifunctional aquaponic system at ZHAW used as research and training lab. Available at http://pd.zhaw.ch/publikation/upload/207534.pdf. Accessed 22 May 2016

Junge R, Wilhelm S, Hofstetter U (2014) Aquaponic in classrooms as a tool to promote system thinking. Available at http://www.adam-europe.eu/prj/10804/prj/PaperVIVUSConfJunge_ et_al.pdf. Accessed 23 May 2016

Jungk R, Müllert N (1987) Future workshops: how to create desirable futures. Institute for Social Inventions, London

Maturana H, Varela F (1980) Realization of the living. In: Boston Studies in the Philosophy of Science, vol 42. Reidel, Dordrecht

McKay-Nesbitt J, DeMoranville CW, McNally D (2012) A strategy for advancing social marketing: social marketing projects in introductory marketing courses. J Soc Mark 2(1):52—69. https://doi. org/10.1108/20426761211203256

Mikkelsen BE, Justesen J (2015) Multi disciplinarily in higher educations for the captive foodscape profession: case of Denmark. In: Proceedings of the international conference on culinary arts and eating in society. Montclair State University, Montclair, pp 262—263

Shephard K (2008) Higher education for sustainability: seeking affective learning outcomes. Int J Sustain High Educ 9(1):87—98

Shephard K, John H, Brent L, Miranda M, Sheila S, Liz S, Mick S, Mary F, Tim J, Lynley D (2015) Seeking learning outcomes appropriate for 'education for sustainable development' and for higher education. Assess Eval High Educ 40(6):855—866

Toth V, Mikkelsen BE (2018) Growing blue & green — exploring the potentials of teaching sustainable urban food the smart way. Protocol for extended master thesis at Integrated Food Studies, Aalborg University

United Nations (2015a) World population prospects, the 2015 revision vol. 2: Demographic Profiles. Available at http://esa.un.org/unpd/wpp/Publications/Files/WPP2015_Volume-II-Demo graphic-Profiles.pdf. Accessed 8 Mar 2016

United Nations (2015b) Transforming our world: the 2030 agenda for sustainable development. Available at https://sustainabledevelopment.un.org/post2015/transformingourworld. Accessed 3 Mar 2017

United Nations Development Programme (2016) Overview: human development report 2016 human development for everyone (online). Available at http://hdr.undp.org/sites/default/files/ HDR2016ENOverview_Web.pdf. Accessed 24 Mar 2017

Vidgen HA, Gallegos D (2014) Defining food literacy and its components. Appetite 76:50—59 Wood DF (2003) Problem based learning. BMJ 326(7384):328—330. https://doi.org/10.1136/bmj. 326.7384.328

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