The concept of digital sustainability describes the long-term oriented production and further development of digital artifacts and addresses the tragedy of the anticommons. Originating from the term sustainability, which has been predominantly used in connection with ecological topics, the concept of digital sustainability, according to the definition of sustainable development in the Brundtland Report, refers to the conscious handling of resources in a way that their current creation and use do not impair the needs of future generations.
Digital resources are sustainably managed when their benefit to society is maximized, so that the digital needs of current and future generations are equally met. The societal benefit is maximized when the resources are accessible to the largest number and reusable with a minimum of technical, legal, and social restrictions. Digital resources are knowledge and cultural artifacts digitally represented as text, image, audio, video, or software. (Definition after Dapp)
Digital sustainability distinguishes itself from the original definition of sustainability in that digital sustainability exclusively deals with intangible goods, so-called knowledge goods. Such non-physical resources are non-rivalrous, so that no consumption of the goods can occur. Nevertheless, digital resources can be both excludable (a so-called club goods) and non-excludable (a so-called public goods). Through the protection of intellectual property, digital resources can be excluded from free use and further development (see also "Copyright").
In early 2017, a scientific publication appeared in Sustainability Science by Springer Publishing[1] and in July 2017 a related article in German[2] describing ten preconditions of digital sustainability. The first four criteria concern the properties of the digital goods, the next five criteria the properties of the ecosystem, and the last criterion the impact on society. Concrete examples of digital sustainability include Wikipedia, Linux, and OpenStreetMap.
The following ten preconditions of digital sustainability were presented with individual icons at DINAcon 2017.[3] These are also published on Wikimedia Commons under the Creative Commons Zero license.[4]
Source:[5]
1. Elaborateness: The digital good must be qualitatively elaborate. For example, a software solution must be high-quality programmed, function correctly and securely, and fully cover the necessary requirements. | |
2. Transparent structures: Digitally sustainable goods must have transparent structures, meaning the source code of a software must be fully disclosed and the format of data must be publicly documented using an open standard. This technical transparency enables control and improvements, leading to more trust and fewer errors. | |
3. Semantic data: The advancing digitization requires that information is not only understood by humans but also by machines. Consequently, digitally sustainable information must be linked through semantic data. Such metadata allows large amounts of digital information to be processed, aggregated, and interpreted by machines. | |
4. Distributed location: In the digital world, the physical aspect also plays an important role. If data is stored only in one location or a system runs only on a single server, the long-term availability of these digital goods is at risk. It is digitally sustainable if information and applications are redundantly stored in multiple locations, for example, using peer-to-peer approaches. This reduces dependence on the physical location and increases permanent availability. |
5. Open licensing regime: Legal frameworks must allow digital goods to be freely used, modified, and redistributed. This way, once created digital knowledge can be improved and applied unrestrictedly by society. This is the case, for example, with open source, open data, or open access licenses. | |
6. Shared tacit knowledge: The expert improvement and expansion of digital knowledge require that know-how and experiences (tacit knowledge) are distributed among as many people as possible from different organizations. This reduces the knowledge-dependence on individual persons and companies (lock-in effect) and increases contributions from others. | |
7. Participatory culture: All competent individuals should be able to contribute constructively to the expansion and further development of the digital good. This requires a healthy participation culture. For example, peer review processes in the community can ensure the required quality of data and software. | |
8. Good governance: Good governance ensure thats control over the digital good does not lie with a single person or organization but is distributed as decentralized as possible. Transparent governance structures such as public elections or the meritocracy principle regulate the responsibilities. This criterion is based on the concept of good governance. | |
9. Diversified financing: The infrastructure (such as Internet servers), the responsible personnel, and other resources should be paid for by as many different actors as possible. Broadly supported financing allows independence from a single institution and reduces conflict of interest. |
10. Contributing to sustainable development: Digitally sustainable goods and their communities should contribute to sustainable development in the classical sense. In other words, digitally sustainable programs and data should have a positive ecological, social, or economic impact. At the same time, digitally sustainable goods must use resources from a sustainable background in their production and application. For example, the production of digital goods should be done by workers with fair remuneration and electricity from renewable energy sources should be used. |