Towards a Sustainable Use of Phosphorus: A Transdisciplinary Scenario Analysis for the Administrative District of Lüneburg, Germany

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Towards a Sustainable Use of Phosphorus: A Transdisciplinary Scenario Analysis for the Administrative District of Lüneburg, Germany. / Sieveking, Annelie; Weber, Hanna; Riewerts, Bente et al.
In: GAIA, Vol. 26, No. 1, 23.03.2017, p. 34-42.

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@article{a5c61e261b1c43529bdcbf5880f62103,
title = "Towards a Sustainable Use of Phosphorus: A Transdisciplinary Scenario Analysis for the Administrative District of L{\"u}neburg, Germany",
abstract = "Closing phosphorus (P) cycles at a local level faces many challenges. In our transdisciplinary research project, we developed and assessed scenarios of sustainable P use, focusing on stakeholders{\textquoteright} preferences in terms of desirability and probability. For a future sustainability assessment, we collaboratively developed six sustainability indicators.Global food supply depends on the availability of phosphorus (P). To produce P fertilizer for agricultural use, phosphate rock is needed. Phosphate rock is, however, a finite and increasingly scarce resource and is mined only in a few countries. By using recycled phosphates as fertilizers, it might be possible to meet the agricultural demand of P in a more sustainable manner. Based on a Formative Scenario Analysis of the administrative district of L{\"u}neburg in Northern Germany, this transdisciplinary study develops several scenarios aiming at closing the local P cycle. The most desirable scenario from the stakeholders{\textquoteright} perspective is characterized by two aspects: First, stakeholders from industry and agriculture are committed to the use of recycled phosphates, and second, policies support P recycling efforts. This scenario is, at the same time, regarded as the least probable one because it is unlikely that statutory rules will change soon and that recycled phosphates will be accepted in agriculture or by the industry. For a future sustainability assessment of the developed scenarios, a set of six sustainability indicators was developed. ",
keywords = "Sustainability Science, Agriculture, Formative Scenario Analysis, Phosphorus recycling, Sustainability, Transdisciplinary research",
author = "Annelie Sieveking and Hanna Weber and Bente Riewerts and Melanie B{\"o}hme",
year = "2017",
month = mar,
day = "23",
doi = "10.14512/gaia.26.1.9",
language = "English",
volume = "26",
pages = "34--42",
journal = "GAIA",
issn = "0940-5550",
publisher = "oekom verlag GmbH",
number = "1",

}

RIS

TY - JOUR

T1 - Towards a Sustainable Use of Phosphorus

T2 - A Transdisciplinary Scenario Analysis for the Administrative District of Lüneburg, Germany

AU - Sieveking, Annelie

AU - Weber, Hanna

AU - Riewerts, Bente

AU - Böhme, Melanie

PY - 2017/3/23

Y1 - 2017/3/23

N2 - Closing phosphorus (P) cycles at a local level faces many challenges. In our transdisciplinary research project, we developed and assessed scenarios of sustainable P use, focusing on stakeholders’ preferences in terms of desirability and probability. For a future sustainability assessment, we collaboratively developed six sustainability indicators.Global food supply depends on the availability of phosphorus (P). To produce P fertilizer for agricultural use, phosphate rock is needed. Phosphate rock is, however, a finite and increasingly scarce resource and is mined only in a few countries. By using recycled phosphates as fertilizers, it might be possible to meet the agricultural demand of P in a more sustainable manner. Based on a Formative Scenario Analysis of the administrative district of Lüneburg in Northern Germany, this transdisciplinary study develops several scenarios aiming at closing the local P cycle. The most desirable scenario from the stakeholders’ perspective is characterized by two aspects: First, stakeholders from industry and agriculture are committed to the use of recycled phosphates, and second, policies support P recycling efforts. This scenario is, at the same time, regarded as the least probable one because it is unlikely that statutory rules will change soon and that recycled phosphates will be accepted in agriculture or by the industry. For a future sustainability assessment of the developed scenarios, a set of six sustainability indicators was developed.

AB - Closing phosphorus (P) cycles at a local level faces many challenges. In our transdisciplinary research project, we developed and assessed scenarios of sustainable P use, focusing on stakeholders’ preferences in terms of desirability and probability. For a future sustainability assessment, we collaboratively developed six sustainability indicators.Global food supply depends on the availability of phosphorus (P). To produce P fertilizer for agricultural use, phosphate rock is needed. Phosphate rock is, however, a finite and increasingly scarce resource and is mined only in a few countries. By using recycled phosphates as fertilizers, it might be possible to meet the agricultural demand of P in a more sustainable manner. Based on a Formative Scenario Analysis of the administrative district of Lüneburg in Northern Germany, this transdisciplinary study develops several scenarios aiming at closing the local P cycle. The most desirable scenario from the stakeholders’ perspective is characterized by two aspects: First, stakeholders from industry and agriculture are committed to the use of recycled phosphates, and second, policies support P recycling efforts. This scenario is, at the same time, regarded as the least probable one because it is unlikely that statutory rules will change soon and that recycled phosphates will be accepted in agriculture or by the industry. For a future sustainability assessment of the developed scenarios, a set of six sustainability indicators was developed.

KW - Sustainability Science

KW - Agriculture

KW - Formative Scenario Analysis

KW - Phosphorus recycling

KW - Sustainability

KW - Transdisciplinary research

UR - http://www.scopus.com/inward/record.url?scp=85016410148&partnerID=8YFLogxK

U2 - 10.14512/gaia.26.1.9

DO - 10.14512/gaia.26.1.9

M3 - Journal articles

VL - 26

SP - 34

EP - 42

JO - GAIA

JF - GAIA

SN - 0940-5550

IS - 1

ER -

DOI