Lukas Folkens scite author profile

Increasing global resource consumption puts the availability of natural mineral resources under significant pressure. One strategy to overcome this trend is the decoupling of economic growth and resource consumption and the application of circular economy approaches. These approaches aim at closing material cycles across sectoral boundaries. Beside these attempts, there are further options for action aimed at minimization of resource consumption through resource sharing approaches. This study investigates resource-saving potentials on different scales namely on a personal scale through sharing goods and services, but also in the frame of industrial symbiosis through sharing of secondary resources at a company scale. The environmental effects have been quantified using life cycle assessment examples for these two simulated cases. The results show for both resource consumption levels, resource savings potentials of up to 2 powers of ten, that can particularly be proven regarding the impact category 'fossil resource depletion'. The emergence of industrial symbiosis can be identified by six factors: Resource, government, economy, company, technology, and society. The cases simulated in the study are supported by empirical evidence from real-life examples, which consider the mentioned factors.

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The Teaching-Research-Practice Nexus as Framework for the Implementation of Sustainability in Curricula in Higher Education

Schneider

Folkens

Busch

2017

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Social Responsibility and Sustainability: How Companies and Organizations Understand Their Sustainability Reporting Obligations

Folkens

Schneider

2019

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Monetary Valuation and Internalization of Externalities in German Agriculture Using the Example of Nitrate Pollution: A Case-Study

2020

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Plants are dependent on nitrogen for their growth. However, if more plant nutrients are deposited than the plant can absorb, the excess nitrogen seeps into the soil where it accumulates as nitrate. About 74% of the drinking water produced in Germany comes from groundwater. The legal limit of 50 milligrams of nitrate per liter of fresh water is exceeded frequently in Germany, especially in agricultural areas. High levels of nitrate in drinking water can quickly lead to health issues, under certain conditions. The nitrate problem is omnipresent in Germany. However, studies which determine the externalized costs of nitrogen eutrophication are mostly missing. The present study closes this gap by combining the results of a transdisciplinary investigation from hydrological analyses and environmental-economic calculations. Water samples were taken from a deep well in Hauneck, which is a municipality in Hesse (Germany). Afterwards, an isotope analysis was carried out to determine the groundwater residence time and possible sources of nitrate. Thus, in addition to the sources of pollution, concrete social costs were determined, using a damage cost approach as well as an avoidance cost approach. For Hauneck, it was found that about 54% of the drinking water price is directly linked to the externalization of costs. These are borne via the principle of the common burden. In addition, the isotope investigations have shown that the removal of excess nitrate will continue for decades, which will lead to long term external costs. The paper reveals how the internalization of these costs can contribute to the conservation of water resources.

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Vernetzung und Weiterentwicklung des Wissenspools zu Nachhaltigkeit in Theorie und Praxis: Umsetzung des Teaching-Research-Practice Nexus an der Hochschule Magdeburg-Stendal

Schneider

Gerke

Folkens

et al. 2018

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Lukas Folkens

Sustainability and Dimensions of a Nexus Approach in a Sharing Economy

The Teaching-Research-Practice Nexus as Framework for the Implementation of Sustainability in Curricula in Higher Education

Social Responsibility and Sustainability: How Companies and Organizations Understand Their Sustainability Reporting Obligations

Monetary Valuation and Internalization of Externalities in German Agriculture Using the Example of Nitrate Pollution: A Case-Study

Vernetzung und Weiterentwicklung des Wissenspools zu Nachhaltigkeit in Theorie und Praxis: Umsetzung des Teaching-Research-Practice Nexus an der Hochschule Magdeburg-Stendal

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