Development of consumption-based land use indicators

Bruckner, M., Giljum, S., Fischer, G., Tramberend, S. ORCID: https://orcid.org/0000-0002-7024-1075, Wunder, T., & Kaphengst, T. (2017). Development of consumption-based land use indicators. Umweltbundesamt , Dessau-Roßlau.

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Project: Landflow

Abstract

With this UFOPLAN project on land use indicators, the German Federal Environment Agency aimed at further developing indicators from a consumption perspective in support of Germany’s sustainability strategy, covering both area-based and impact-oriented land footprint indicators.The project also aimed at calculating selected land footprint indicators for Germany and the EU. These indicators should provide an improved understanding of the global teleconnections of consumption and land use relevant for policy making towards achieving sustainable land use.
This synthesis report presents the key results from this project. First, we present a structured overview of existing approaches for estimating land footprintsand describe their technical and structural characteristicsas well as their strengths and weaknesses. This leads to the specification of a hybrid methodology as the preferred calculation approach. In the second part, we present the developed innovative hybrid land footprint method, consisting of a global land flow accounting and trade model capturing commodity flows in physical units to track embodied land along global supply chains. For non-food commodities the supply chains were complemented by an environmental input-output model. This method was used to calculate the cropland, grassland and forestland footprint of Germany and the EU. Finally, an overview of existing indicator systems for representing the environmental impacts of land use was provided and their complementary usage to extend area-based land footprints was discussed. A few of these complementary indicators were also quantified, most notably the deforestation footprint. The synthesis report closes with an overview of the thematic areas that need to be addressed in future research.

Item Type: Other
Research Programs: Water (WAT)
Depositing User: Luke Kirwan
Date Deposited: 07 Sep 2017 14:48
Last Modified: 27 Aug 2021 17:29
URI: https://pure.iiasa.ac.at/14810

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