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Direkte und indirekte Umwelteffekte der Informations- und Kommunikationstechnologie
[Direct and indirect environmental effects of information and communication technology]

Author

Listed:
  • Jan C. T. Bieser

    (Universität Zürich)

  • Vlad C. Coroamă

    (ETH Zürich)

Abstract

Zusammenfassung Informations- und Kommunikationstechnologie (IKT) verursacht direkt, jedoch auch indirekt Umwelteffekte. Die direkten Effekte entstehen durch den Energie- und Ressourcenverbrauch entlang des Lebenszyklus von IKT-Hardware (Produktion, Betrieb und Entsorgung) und werden meist mit Lebenszyklusanalysen bestimmt. Indirekte Effekte sind Umweltauswirkungen, welche sich aus der Anwendung von IKT ergeben, beispielsweise durch veränderte Produktions- oder Konsummuster. Da IKT immer mehr Bereiche des Alltags durchdringt und durch verschiedenste Mechanismen sowohl positive wie auch negative Umweltauswirkungen herbeiführt, ist die Bestimmung indirekter Umweltauswirkungen konzeptuell herausfordernd. In diesem Artikel besprechen wir indirekte Umweltauswirkungen von IKT auf drei Ebenen: Auswirkungen einzelner Anwendungsfälle, Sektor-übergreifende Effekte und systemische Effekte. Wir zeigen, wie einzelne Telekommunikationsfirmen und Industrieverbände positive indirekte Auswirkungen von IKT postulieren und unterziehen diese Studien einer kritischen Betrachtung. Wir extrahieren daraufhin die inhärenten methodischen Schwierigkeiten derartiger Studien und zeigen anhand zweier Beispiele, wie IKT gleichzeitig sowohl positive als auch negative Umweltauswirkungen hervorrufen kann. Den Herausforderungen in deren Beurteilung bewusst, jedoch auch die prinzipiellen Wirkungsmechanismen indirekter Umweltauswirkungen von IKT verstehend, plädieren wir letztlich dafür, durch wirtschaftspolitische Maßnahmen Potenziale für den Umweltschutz durch IKT zu erschließen, auch wenn die genauen Effekte noch nicht in Zahlen erfasst werden können.

Suggested Citation

  • Jan C. T. Bieser & Vlad C. Coroamă, 2021. "Direkte und indirekte Umwelteffekte der Informations- und Kommunikationstechnologie [Direct and indirect environmental effects of information and communication technology]," Sustainability Nexus Forum, Springer, vol. 29(1), pages 1-11, March.
    • Handle: RePEc:spr:sumafo:v:29:y:2021:i:1:d:10.1007_s00550-020-00502-4
    DOI: 10.1007/s00550-020-00502-4
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    References listed on IDEAS

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    1. Cédric Gossart, 2015. "Rebound effects and ICT : a review of the literature," Grenoble Ecole de Management (Post-Print) hal-01258112, HAL.
    2. Sorrell, Steve & Dimitropoulos, John, 2008. "The rebound effect: Microeconomic definitions, limitations and extensions," Ecological Economics, Elsevier, vol. 65(3), pages 636-649, April.
    3. Mokhtarian, Patricia L., 1990. "A Typology of Relationships Between Telecommunications And Transportation," University of California Transportation Center, Working Papers qt4rx589m0, University of California Transportation Center.
    4. Eric Williams, 2011. "Environmental effects of information and communications technologies," Nature, Nature, vol. 479(7373), pages 354-358, November.
    5. Taiebat, Morteza & Stolper, Samuel & Xu, Ming, 2019. "Forecasting the Impact of Connected and Automated Vehicles on Energy Use: A Microeconomic Study of Induced Travel and Energy Rebound," LawArXiv dk6qv, Center for Open Science.
    6. Cédric Gossart, 2015. "Rebound effects and ICT : a review of the literature," Post-Print hal-01258112, HAL.
    7. Maria J. Pouri & Lorenz M. Hilty, 2018. "ICT-Enabled Sharing Economy and Environmental Sustainability—A Resource-Oriented Approach," Progress in IS, in: Hans-Joachim Bungartz & Dieter Kranzlmüller & Volker Weinberg & Jens Weismüller & Volker Wohlgemuth (ed.), Advances and New Trends in Environmental Informatics, pages 53-65, Springer.
    8. Bastien Girod & Peter De Haan, 2010. "More or Better? A Model for Changes in Household Greenhouse Gas Emissions due to Higher Income," Journal of Industrial Ecology, Yale University, vol. 14(1), pages 31-49, January.
    9. Morteza Taiebat & Samuel Stolper & Ming Xu, 2019. "Forecasting the Impact of Connected and Automated Vehicles on Energy Use A Microeconomic Study of Induced Travel and Energy Rebound," Papers 1902.00382, arXiv.org, revised May 2019.
    10. Andrea F. Glogger & Thomas W. Zängler & Georg Karg, 2008. "The Impact of Telecommuting on Households’ Travel Behaviour, Expenditures and Emissions," Advances in Spatial Science, in: Chris Jensen-Butler & Birgitte Sloth & Morten Marott Larsen & Bjarne Madsen & Otto Anker Nielsen (ed.), Road Pricing, the Economy and the Environment, chapter 21, pages 411-425, Springer.
    11. Taiebat, Morteza & Stolper, Samuel & Xu, Ming, 2019. "Forecasting the Impact of Connected and Automated Vehicles on Energy Use: A Microeconomic Study of Induced Travel and Energy Rebound," Applied Energy, Elsevier, vol. 247(C), pages 297-308.
    12. Christopher L. Weber & Jonathan G. Koomey & H. Scott Matthews, 2010. "The Energy and Climate Change Implications of Different Music Delivery Methods," Journal of Industrial Ecology, Yale University, vol. 14(5), pages 754-769, October.
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    Cited by:

    1. Daria Gritsenko & Jon Aaen & Bent Flyvbjerg, 2024. "Rethinking Digitalization and Climate: Don't Predict, Mitigate," Papers 2407.15016, arXiv.org.

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