Searching for sustainability in the digital agriculture debate: an alternative approach for a systemic transition

Citas

Abram, M. (2020). FieldView instant data system is farming game-changer. Crop Science Bayer UK, Blog. Recovered from:

Antle, J.M., Jones, J.W. & Rosenzweig, C., (2017). Next generation agricultural system models and knowledge products: Synthesis and strategy. Agricultural Systems 155, 179–185. https://doi.org/10.1016/j.agsy.2017.05.006

Ash, G. (2018). Democratising AgTech? Agriculture and the Digital Commons | Part 1 | ARC2020, 2018. Agricultural and Rural Convention. URL https://www.arc2020.eu/agriculture-digital-commons-part-1/ (accessed 7.7.20).

ATA (2019). EthioSIS: Ensemble model machine learning approach digital soil fertility map of soil-test results coupled with different satellite imageries has changed fertilizer advisory service in Ethiopia. Recovered from https://www.ata.gov.et/programs/highlighted-delivereables/ethiosis/

Bandara, W., Miskon, S., & Fielt, E. (2011). A systematic, tool-supported method for conducting literature reviews in information systems. In Rossi, M & Nandhakumar, J (Eds.) ECIS 2011 Proceedings [19th European Conference on Information Systems]. AIS Electronic Library (AISeL) / Association for Information Systems, http://aisel.aisnet.org/, pp. 1-13. Levy Y., Ellis T.J. A systems approach to conduct an effective literature review in support of information systems research. Informing Science. 2006;9:181–211.

Barnes, A.P., Soto, I., Eory, V., Beck, B., Balafoutis, A.T., Sanchez, B., Vangeyte, J., Fountas, S., van der Wal, T. & Gómez-Barbero, M., (2019). Influencing incentives for precision agricultural technologies within European arable farming systems. Environmental Science & Policy 93, 66–74. https://doi.org/10.1016/j.envsci.2018.12.014

Bates, O., Lord, C., Knowles, B., Friday, A., Clear, A. & Hazas, M. (2015). Exploring (un)sustainable growth of digital technologies in the home. Proceedings of the Third International Conference on ICT for Sustainability (ICT4S). Atlantis Press, 2015.

Baumeister R. F. & Leary M.R. (1997). Writing narrative literature reviews. Review of General Psychology. 1997;1(3):311–320.

Berkhout, F. & Hertin, J. (2001). Impacts of Information and Communication Technologies on Environmental Sustainability: speculations and evidence. Report to the OECD. SPRU-Science and Technology Policy Research. University of Sussex. Falmer.

Berkhout, F. & Hertin, J. (2004). De-materialising and re-materialising: digital technologies and the environment. Futures. Vol. 36, Issue 8, October 2004. Pp. 903-920.

Bernard, B. & Lux, A., (2017). How to feed the world sustainably: an overview of the discourse on agroecology and sustainable intensification. Reg Environ Change 17, 1279–1290. https://doi.org/10.1007/s10113-016-1027-y

Berthon, P. & Donnellan, B. (2014). The Greening of IT: Paradox or promise? The Journal of Strategic Information Systems. Volume 20, Issue 1, March 2011, Pages 3-5.

Bogaardt, M.J., Poppe, K.J., Viool, V. & Zuidam, E. van (2016). Cybersecurity in the Agrifood sector. Capgemini Consulting.

vom Brocke, J.; Simons, A., Niehaves, B., Niehaves, B., Reimer, K., Plattfaut, R. & Cleven, A. (2009). ‘Reconstructing the Giant: On the Importance of Rigour in Documenting the Literature Search Process’. ECIS 2009 Proceedings. 161.

Bronson, K. & Knezevic, I., (2016). Big Data in food and agriculture: Big Data & Society. https://doi.org/10.1177/2053951716648174

Bronson, K. (2019). Looking through a responsible innovation lens at uneven engagements with digital farming. NJAS - Wageningen Journal of Life Sciences 90–91, 100294. https://doi.org/10.1016/j.njas.2019.03.001

Carolan, M., (2017). Agro-Digital Governance and Life Itself: Food Politics at the Intersection of Code and Affect. Sociologia Ruralis 57, 816–835. https://doi.org/10.1111/soru.12153

Carter, M.R., Cheng, L. & Sarris, A. (2016). Where and how index insurance can boost the adoption of improved agricultural technologies. J Dev Econ, 118 (2016), pp. 59-71.

CGIAR (2020). About. Using big data to solve agricultural development problems faster, better and at greater scale. Recovered from https://bigdata.cgiar.org/about-the-platform/

Chakravaty, A., Sumanthkumar, V. & Patil, M.D. (2018). Customized information delivery for dryland farmers. Digital Technologies for Agricultural and Rural Development in the Global South (2018), p. 25.

Chen, S. (2016). The Materialist Circuits and the Quest for Environmental Justice in ICT’s Global Expansion. tripleC: Communication, Capitalism & Critique. Open Access Journal for a Global Sustainable Information Society 14, 121–131–121–131. https://doi.org/10.31269/triplec.v14i1.695

Chi, H., S. Welch, E. Vasserman & E. Kalaimannan (2017). A framework of cybersecurity ap-proaches in precision agriculture. Proceedings of the 12th international conference on cyber warfare and security 90–95.

Clapp, J., P. Newell & Z.W. Brent (2017). The global political economy of climate change, agri-culture and food systems. The Journal of Peasant Studies pp. 1–9.

Climate (2019). New predictive seed placement technology delivers strong results in 2018. Climate Corporation Newsroom. Recovered from https://climate.com/newsroom/new-predictive-seed-placement-technology-delivers-strong-results-in-2018

Darlow, S. & Wen, K.-Y., (2016). Development testing of mobile health interventions for cancer patient self-management: A review. Health Informatics J 22, 633–650. https://doi.org/10.1177/1460458215577994

Dawson, N., Martin, A. & Sikor, T., (2016). Green Revolution in Sub-Saharan Africa: Implications of Imposed Innovation for the Wellbeing of Rural Smallholders. World Development 78, 204–218. https://doi.org/10.1016/j.worlddev.2015.10.008

Deichmann, U., Goyal, A. & Mishra, D. (2016). Will digital technologies transform agriculture in developing countries? Agricultural Economics, Volume 47, Issue S1.

Dhulipala, R.K. (2018). Digital disruption in agriculture. ICRISAT Blog Recovered from https://www.icrisat.org/digital-disruption-in-agriculture.

Eastwood, C., Klerkx, L., Ayre, M. & Dela Rue, B., (2017). Managing Socio-Ethical Challenges in the Development of Smart Farming: From a Fragmented to a Comprehensive Approach for Responsible Research and Innovation. J Agric Environ Ethics 32, 741–768. https://doi.org/10.1007/s10806-017-9704-5

Eddens, A., (2017). White science and indigenous maize: the racial logics of the Green Revolution. The Journal of Peasant Studies.

Ehrenberg, R. (2018). Eyes in the sky: 5 ways drones will change agriculture. Knowable Magazine, October 11. Recovered from https://www.knowablemagazine.org/article/technology/2018/eyes-sky-5-ways-drones-will-change-agriculture.

Farla, J., J. Markard, R. Raven & Coenen, L. (2012). Sustainability transitions in the making: A closer look at actors, strategies and resources. Technological Forecasting and Social Change79:991–998.

Fichter, K. (2003). E-Commerce. Sorting Out the Environmental Consequences. Journal of Industrial Ecology. Vol. 6, Number 2.

Fine, B., Goodman, D. & Redclift, M. (1994). Towards a political economy of food. Review of International Political Economy1 (3) pp. 547–552.

Firbank, L.G., Attwood, S., Eory, V., Gadanakis, Y., Lynch, J.M., Sonnino, R. & Takahashi, T., (2018). Grand Challenges in Sustainable Intensification and Ecosystem Services. Front. Sustain. Food Syst. 2. https://doi.org/10.3389/fsufs.2018.00007

Fraser, E.D.G. & Campbell, M. (2019) Agriculture 5.0: Reconciling Production with Planetary Health. One Earth, Vol. 1, Issue 3, 22 November 2019, pp. 278-280.

Friedmann, H. (1993). The political economy of food: A global crisis. New Left Review,197pp. 29–57.

G20 (2017). G20 Agriculture Ministers’ Declaration 2017 Towards food and water security: Fostering sustainability, advancing innovation. January 22nd in Berlin, G20 Germany 2017.

Galliano, D., Gonçalves, A. & Triboulet, P., (2017). Eco-Innovations in Rural Territories: Organizational Dynamics and Resource Mobilization in Low Density Areas. Journal of Innovation Economics Management n° 24, 35–62.

Gashaw, B.A. & Kibret, S.M. (2018). The role of Ethiopian commodity exchange (ECX) in crop value chain development in Ethiopia. Int J Bus Econ Res, 7 (2018), p. 183.

Gates Foundation (2020). What We Do: Agricultural Development. Strategy Overview. Recovered from https://www.gatesfoundation.org/what-we-do/global-growth-and-opportunity/agricultural-development#bodyregion_0_interiorarticle_0_strategysections_2_strategysubsections85791cfb4b804133a39e3874921939e2_8_lnkHeader

Geissdoerfer, M., Savaget, P., Bocken, N.M.P. & Hultink, E.J., (2017). The Circular Economy – A new sustainability paradigm? Journal of Cleaner Production 143, 757–768. https://doi.org/10.1016/j.jclepro.2016.12.048

Gengenbach, H., Schurman, R.A., Bassett, T.J., Munro, W.A. & Moseley, W.G., (2018). Limits of the New Green Revolution for Africa: Reconceptualising gendered agricultural value chains. The Geographical Journal 184, 208–214. https://doi.org/10.1111/geoj.12233

Gensch, C., Prakash, S. & Hilbert, I. (2017) Is Digitalisation a Driver for Sustainability? in eds. Osburg, T. and Lohrmann, C. (2017) Sustainability in a Digital World: New Opportunities Through New Technologies. Berlin: Springer.

Gillard, R., Gouldson, A., Paavola, J. & Alstine, J.V. (2016). Transformational responses to climate change: beyond a systems perspective of social change in mitigation and adaptation. WIREs Climate Change 7, 251–265. https://doi.org/10.1002/wcc.384

Gilpin, L. (2015). How Big Data Is Going to Help Feed Nine Billion People by 2050 (Online) Available at: https://www.techrepublic.com/article/how-big-data-is-going-to-help-feed-9-billion-people-by-2050/ (Accessed 5/7/2020)

Godfray, H.C.J, Beddington, J.R., Crute, I.R., Haddad, L., Lawrence, D., Muir, J.F., Pretty, J., Robinson, S. Thomas, S.M. & Toulmin, C. (2010). Food security: The Challenge of Feeding 9 Billion People. Science, Vol. 327, Issue 5967, pp. 812-818.

Green B. N., Johnson C. D. & Adams A. (2006). Writing narrative literature reviews for peer-reviewed journals: secrets of the trade. Journal of Chiropractic Medicine. 2006;5(3):101–117.

Greenpeace (2017). Clicking Clean: Who is Winning the Race to Build a Green Internet? Washington DC: Greenpeace.

Greenpeace (2014). Green Gadgets: Designing the Future. Amsterdam: Greenpeace International.

Hartmann, G., Nduru, G. & Dannenberg, P. (2020). Digital connectivity at the upstream end of value chains: A dynamic perspective on smartphone adoption amongst horticultural smallholders in Kenya. Competition & Change. DOI: 10.1177/1024529420914483

Harvey, D. (2003). "The Fetish of Technology: Causes and Consequences," Macalester International: Vol. 13, Article 7. Available at: http://digitalcommons.macalester.edu/macintl/vol13/iss1/7

Harwood, J. (2018). Another Green Revolution? On the Perils of ‘Extracting Lessons’ from History. Development 61, 43–53. https://doi.org/10.1057/s41301-018-0174-5

https://cropscience.bayer.co.uk/blog/articles/2020/02/fieldview-instant-data-system-is-farming-game-changer/

Higgins, V. & Bryant, M., (2020). Framing Agri-Digital Governance: Industry Stakeholders, Technological Frames and Smart Farming Implementation. Sociologia Ruralis 60, 438–457. https://doi.org/10.1111/soru.12297

Hinrichs, C.C. (2014). Transitions to sustainability: a change in thinking about food systems change? Agric Hum Values 31, 143–155. https://doi.org/10.1007/s10460-014-9479-5

Hutchins, B. (2016). Tales of the digital sublime: Tracing the relationship between big data and professional sport. Convergence 22, 494–509. https://doi.org/10.1177/1354856515587163

IPCC (2019). Summary for Policymakers. In: Climate Change and Land: an IPCC special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems [P.R. Shukla, J. Skea, E. Calvo Buendia, V. Masson-Delmotte, H.- O. Pörtner, D. C. Roberts, P. Zhai, R. Slade, S. Connors, R. van Diemen, M. Ferrat, E. Haughey, S. Luz, S. Neogi, M. Pathak, J. Petzold, J. Portugal Pereira, P. Vyas, E. Huntley, K. Kissick, M. Belkacemi & J. Malley, (eds.)].

IPCC (2019). Special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrialecosystems. Summary for policy-makers. Retrieved from https://www.ipcc.ch/site/assets/uploads/2019/08/4.-SPM_Approved_Microsite_FINAL.pdf

iPES (International Panel of Experts on Sustainable Food Systems) (2016). From Uniformity to Diversity. A Paradigm Shift from Industrial Agriculture to Diversified Agroecological Systems. Report 02, June 2016.

Janssen, S.J.C., Porter, C.H., Moore, A.D., Athanasiadis, I.N., Foster, I., Jones, J.W. & Antle, J.M., (2017). Towards a new generation of agricultural system data, models and knowledge products: Information and communication technology. Agricultural Systems 155, 200–212. https://doi.org/10.1016/j.agsy.2016.09.017

Kesavan, P.C. & Swaminathan, M.S. (2018). Modern Technologies for Sustainable Food and Nutrition Security. Current Science, 115, 10, 1876-1883.

Khan, Z. (2018). Motivating Change: How the Data Revolution Can Feed the Next Green Revolution. 08.29.18, Blog, The Rockefeller Foundation. Recovered from https://www.rockefellerfoundation.org/blog/motivating-change-data-revolution-can-feed-next-green-revolution/.

Klerkx, L., Jakku, E. & Labarthe, P. (2019). A review of social science on digital agriculture, smart farming and agriculture 4.0: New contributions and a future research agenda. NJAS - Wageningen Journal of Life Sciences 90–91, 100315. https://doi.org/10.1016/j.njas.2019.100315

Klerkx, L. & Rose, D. (2020). Dealing with the game-changing technologies of Agriculture 4.0: How do we manage diversity and responsibility in food system transition pathways? Global Food Security 24, 100347. https://doi.org/10.1016/j.gfs.2019.100347

Klinger, J.M. (2018). Rare earth elements: Development, sustainability and policy issues. The Extractive Industries and Society 5, 1–7. https://doi.org/10.1016/j.exis.2017.12.016

Köhler, J., Geels, F.W., Kern, F., Markard, J., Onsongo, E., Wieczorek, A., Alkemade, F., Avelino, F., Bergek, A., Boons, F., Fünfschilling, L., Hess, D., Holtz, G., Hyysalo, S., Jenkins, K., Kivimaa, P., Martiskainen, M., McMeekin, A., Mühlemeier, M.S., Nykvist, B., Pel, B., Raven, R., Rohracher, H., Sandén, B., Schot, J., Sovacool, B., Turnheim, B., Welch, D. & Wells, P., (2019). An agenda for sustainability transitions research: State of the art and future directions. Environmental Innovation and Societal Transitions 31, 1–32. https://doi.org/10.1016/j.eist.2019.01.004

Kolodny, L. (2017). Deere is paying over $300 million for a start-up that makes “see-and-spray” robots. CNBC, September 6. Recovered from https://www.cnbc.com/2017/09/06/deere-is-acquiring-blue-river-technology-for-305-million.html.

Kuehr, R., Velasquez, G.T. & Williams, E. (2002). Computers and the Environment-An Introduction to Understanding and Managing their Impacts. In Computers and the Environment: Understanding and Managing their Impacts. (Kuehr, R. and Williams, E., pp. 1-14). Berlin: Springer Science+Business Media Dordrecht.

Kuntsman, A. & Rattle, I. (2019). Towards a Paradigmatic Shift in Sustainability Studies: A Systematic Review of Peer Reviewed Literature and Future Agenda Setting to Consider Environmental (Un)sustainability of Digital Communication. Environmental Communication 13, 567–581. https://doi.org/10.1080/17524032.2019.1596144

Lawhon, M. & Murphy, J.T. (2012). Socio-technical regimes and sustainability transitions: Insights from political ecology. Progress in Human Geography 36, 354–378. https://doi.org/10.1177/0309132511427960

LeBel, S. (2012). Wasting the Future: The Technological Sublime, Communications Technologies, and E-waste. Communication +1. Vol. 1. Issue 1 Futures of Communication. Article 7.

Lecy, J. D. & Beatty, K. E. (2012). Representative Literature Reviews Using Constrained Snowball Sampling and Citation Network Analysis (January 1, 2012). Available at SSRN: https://ssrn.com/abstract=1992601 or http://dx.doi.org/10.2139/ssrn.1992601

Lemeilleur, S., Maître-d’Hôtel. É., Lepiller, O. & Hobeika, A. (2019). Uncertain impacts of new technologies: the case of digital agriculture and blockchains. Chapter 4.5. In Food Systems at Risk. New Trends and Challenges. (Dury, S., Bendjebbar, P., Hainzelin, E., Giordano, T. and Bricas, N., pp. 91-5). Rome, Montpellier, Brussels: FAO, CIRAD and European Commission.

Lesser, A. (2014). Big Data and Big Agriclutre. Gigaom Research.

Levy Y. & Ellis T.J. (2006). A systems approach to conduct an effective literature review in support of information systems research. Informing Science. 2006;9:181–211.

Lindblom, J., Lundström, C., Ljung, M. & Jonsson, A. (2017). Promoting sustainable intensification in precision agriculture: review of decision support systems development and strategies. Precision Agric 18, 309–331. https://doi.org/10.1007/s11119-016-9491-4

Lioutas, E.D. & Charatsari, C. (2020). Smart farming and short food supply chains: Are they compatible? Land Use Policy 94, 104541. https://doi.org/10.1016/j.landusepol.2020.104541

Llewellyn, D. (2018). Does Global Agriculture Need Another Green Revolution? Engineering, Vol. 4 (2018), 449-451

Macfadyen, S., Tylianakis, J.M., Letourneau, D.K., Benton, T.G., Tittonell, P., Perring, M.P., Gómez-Creutzberg, C., Báldi, A., Holland, J.M., Broadhurst, L., Okabe, K., Renwick, A.R., Gemmill-Herren, B. & Smith, H.G., (2015). The role of food retailers in improving resilience in global food supply. Global Food Security 7, 1–8. https://doi.org/10.1016/j.gfs.2016.01.001

Mann, L. (2017). Left to Other Peoples’ Devices? A Political Economy Perspective on the Big Data Revolution in Development. Development and Change, Vol. 49, (1): 3-36.

Markard, J., & Truffer, B., (2008). Technological innovation systems and the multi-level perspective: Towards an integrated framework. Research Policy 37, 596–615. https://doi.org/10.1016/j.respol.2008.01.004

Matthews, H.S. (2001). Information and Communication Technologies and Sustainability. SMC’03 Conference Proceedings. 2003 IEEE International Conference on Systems, Man, and Cybernetics. Conference Theme - System Security and Assurance (Cat. No.03CH37483), Washington, DC, 2003, pp. 1760-1765 vol.2.

Matthews, H.S., Williams, E., Takashi, T. & Hendrickson, C.T. (2002). Energy implications of online book retailing in the United States and Japan. Environmental Impact Assessment Review, Vol. 22 (2002), 493-507.

Mattison, S. (2019). CIAT, World Bank and partners announce Digital Agriculture Country Profiles initiative. Blog. The International Center for Tropical Agriculture Recovered from: https://blog.ciat.cgiar.org/ciat-world-bank-and-partners-announce-digital-agriculture-country-profiles-initiative

McDonnell, T. (2014). Monsanto is using big data to takeover the World. Mother Jones, November 19. Recovered from https://www.motherjones.com/environment/2014/11/monsanto-big-data-gmo-climate-change/.

Miles, C. & Smith, N. (2015). What grows in Silicon Valley? The emerging ideology of food technology. In: Louise Davis, H., Pilgrim, K., Sinha, M. (eds.) The Ecopolitics of Consumption: The Food Trade. Lexington Books: Washington D.C.

Mooney, P. & ETC (2018). Blocking the Chain: Agriculture 4.0 Digitalisation and corporate power in the industrial food chain, Oct 2018. Rosa Luxembourg Stiftung. Recovered from https://www.rosalux.de/en/publication/id/39376/blocking-the-chain-agriculture-40

Mosco, V. (2004). The digital sublime: myth, power and cyberspace. London: The MIT Press.

Muller, A., Schader, C., El-Hage Scialabba, N., Brüggemann, J., Isensee, A., Erb, K.-H., Smith, P., Klocke, P., Leiber, F., Stolze, M. & Niggli, U., (2017). Strategies for feeding the world more sustainably with organic agriculture. Nature Communications 8, 1290. https://doi.org/10.1038/s41467-017-01410-w

Ogutu, S.O., Okello, J.J. & Otieno, D.J. (2014). Impact of Information and Communication Technology-Based Market Information Services on Smallholder Farm Input Use and Productivity: The Case of Kenya. World Development, Vol. 64, December 2014, pp. 311-321.

Oyinbo, O., Chamberlin, J., Vanlauwe, B., Vranken, L., Kamara, A., Craufurd, P. & Maertens, M. (2018). Farmers’ preferences for site-specific extension services: evidence from a choice experiment in Nigeria. Working Paper 276175. Leuven, Belgium, Centre for Agricultural and Food Economics.

Paré G., Trudel M.-C., Jaana M. & Kitsiou S. (2015). Synthesizing information systems knowledge: A typology of literature reviews. Information & Management. 2015;52(2):183–199.

Paré,G. & Kitsiou, S. (2017). Paré, G., Kitsiou, S., Chapter 9 Methods for Literature Reviews, Handbook of eHealth Evaluation: An Evidence-based Approach [Online]. University of Victoria. https://aisel.aisnet.org/ecis2009/161.

Pingali, P.L. (2012). Green Revolution: Impacts, limits, and the path ahead. PNAS 109, 12302–12308. https://doi.org/10.1073/pnas.0912953109

Plumecocq, G., Debril, T., Duru, M., Magrini, M.-B., Sarthou, J.P. & Therond, O., (2018). The plurality of values in sustainable agriculture models: diverse lock-in and coevolution patterns. Ecology and Society 23. https://doi.org/10.2307/26799066

Poppe, K.J., Wolfert, J., Verdouw, C.N. & Renwick, A. (2015). A European perspective on the economics of Big Data. Farm Policy Journal, 12 (2015), pp. 11-19.

Rip, A. & Kemp, R. (1998). Technological Change in S. Rayner, E.L. Malone (Eds.), Human Choice and Climate Change – Resources and Technology, Battelle Press, Columbus (1998), pp. 327-399.

Rodriguez, M.A., Cuenca, L. & Ortiz, A. (2018). FIWARE Open Source Standard Platform in Smart Farming - A Review, in: Camarinha-Matos, L.M., Afsarmanesh, H., Rezgui, Y. (Eds.), Collaborative Networks of Cognitive Systems, IFIP Advances in Information and Communication Technology. Springer International Publishing, Cham, pp. 581–589. https://doi.org/10.1007/978-3-319-99127-6_50

Rose, D.C. & Chilvers, J. (2018). Agriculture 4.0: broadening responsible innovation in an Era of smart farming Front. Sustain. Food Syst., 2 (2018).

Rotz, S., Duncan, E., Small, M., Botschner, J., Dara, R., Mosby, I., Reed, M. & Fraser, E.D.G. (2019). The Politics of Digital Agricultural Technologies: A Preliminary Review. Sociologia Ruralis 59, 203–229. https://doi.org/10.1111/soru.12233

Salam, A. (2020). Internet of Things for Sustainable Community Development. Wireless Communications, Sensing, and Systems. Berlin: Springer.

SAPEA (2020). A sustainable food system for the European Union. Berlin: SAPEA (Science Advice for Policy by European Academies). https://doi.org/10.26356/sustainablefood.

Schlaile, M.P., Urmetzer, S., Blok, V., Dahl Andersen, A., Timmermans, J., Mueller, M., Fagerberg, J. & Pyka, A. (2017). Innovation Systems for Transformations towards Sustainability? Taking the Normative Dimension Seriously. Sustainability 2017, 9(12), 2253; https://doi.org/10.3390/su9122253

Scholz, R., Bartelsman, E., Diefenbach, S., Franke, L., Grunwald A., Helbing D., Hill R., Hilty L., Höjer M., Klauser S., Montag C., Parycek, P. Prote, J., Renn, O., Reichel, A., Schuh, G., Steiner, G. & Viale Pereira G. (2018). Unintended side effects of the digital transition: European scientists' messages from a proposition-based expert round table Sustainability, 10, p. 2001.

Schueller, J.K. (2016). ‘Foreword’ in ed. Zhang, Q. Precision Agriculture Technology for Crop Farming. Boca Raton, FL, US: CRC Press.

Schurman, R. (2018). Micro(soft) managing a ‘green revolution’ for Africa: The new donor culture and international agricultural development. World Development 112, 180–192. https://doi.org/10.1016/j.worlddev.2018.08.003

Sekabira, H. & Qaim, M. (2017). Can mobile phones improve gender equality and nutrition? Panel data evidence from farm households in Uganda. Food Policy, Vol. 73, December 2017, pp. 95-103.

Shamshiri, R.R., Weltzien, C., Hameed, I.A., Yule, I.J., Grift, T.E., Balasundram, S.K., Pitonakova, L., Ahmad, D. & Chowdhary, G., (2018). Research and development in agricultural robotics: A perspective of digital farming. International Journal of Agricultural and Biological Engineering 11, 1–14. https://doi.org/10.25165/ijabe.v11i4.4278

Shukla, P.R., Skea, J. Slade, R. van Diemen, R. Haughey, Malley, E.J. Pathak, M. & Portugal Pereira, J. (eds.) (2019). Technical Summary. In: Climate Change and Land: an IPCC special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems [P.R. Shukla, J. Skea, E. Calvo Buendia, V. Masson-Delmotte, H.-O. Pörtner, D. C. Roberts, P. Zhai, R. Slade, S. Connors, R. van Diemen, M. Ferrat, E. Haughey, S. Luz, S. Neogi, M. Pathak, J. Petzold, J. Portugal Pereira, P. Vyas, E. Huntley, K. Kissick, M, Belkacemi & J. Malley, (eds.)]

Soriano, C.R.R. (2007). Exploring the ICT and Rural Poverty Reduction Link: Community Telecenters and Rural Livelihoods in Wu’an, China. The Electronic Journal on Information Systems in Developing Countries, Vol. 32, Issue 1, pp. 1-15.

Srnicek, N. (2016). Platform Capitalism. Cambridge: Polity.

Suri, T. & Jack, W. (2016). The long-run poverty and gender impacts of mobile money. Science, Vol. 354, Issue 6317, pp. 1288-1292.

Sylvester A., Tate M. & Johnstone D. (2013). Beyond synthesis: re-presenting heterogeneous research literature. Behaviour & Information Technology. 2013;32(12):1199–1215.

Templier M. & Paré G. (2015). A framework for guiding and evaluating literature reviews. Communications of the Association for Information Systems. 2015;37(6):112–137.

Tilman, D. & Clark, M. (2014). Global diets link environmental sustainability and human health. Nature volume 515, pp. 518–522.

Trendov, N.M., Varas, S. & Zeng, M. (2019). Digital Technologies in Agriculture and Rural Areas. Briefing Paper. Rome: Food and Agriculture Organisation of the United Nations.

UNCTAD [United Nations Conference on Trade and Development] (2013). Trade and environment review 2013: Wake up before it’s too late. United Nations, Geneva.

USAID (2017). Digital Development for Feed the Future. Categories of Digital Tools. Digital Tools for Agriculture, US Global Development Lab. Recovered from https://www.usaid.gov/digitalag/documents/d2ftf-categories-of-digital-tools.

Van Hulst, F. Ellis, R. Prager, K. & Msika, J. (2020). Using co-constructed mental models to understand stakeholder perspectives on agro-ecology, International Journal of Agricultural Sustainability, 18:2, 172-195, DOI: 10.1080/14735903.2020.1743553

Verdonk, T. (2019). Planting the Seeds of Market Power: Digital Agriculture, Farmers’ Autonomy, and the Role of Competition Policy. In Regulating New Technologies in Uncertain Times (Reins, L., pp.105-32). Berlin: Springer.

Wiens, K., (2015). New High-Tech Farm Equipment Is a Nightmare for Farmers. Wired.

Williams, E. (2011). Environmental effects of information and communications technologies. Nature, Volume 479, Pages 354–358 (2011).

Wolfert, S., Ge, L., Verdouw, C. & Bogaardt, M. (2017). ‘Big Data in Smart Farming – A review’, Agricultural Systems, Vol. 153, May 2017, pp. 69-80.

Wood, A.J., Graham, M., Lehdonvirta, V. & Hjorth, I. (2019). Networked but Commodified: The (Dis)Embeddedness of Digital Labour in the Gig Economy. Sociology. 2019, Vol. 53(5) 931–950.

World Bank (2016). World Development Report 2016: Digital Dividends. Washington, DC: World Bank.

World Economic Forum and McKinsey (2018). Innovation with a Purpose: The role of technology innovation in accelerating food systems transformation. System Initiative on Shaping the Future of Food Security and Agriculture. January 2018.

Zhang, Q. (2016) Precision Agriculture Technology for Crop Farming. Boca Raton, FL, US: CRC Press.