Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams

Franziska S. Hanf; Felix Ament; Marita Böttcher; Finn Burgmeister; Lidia Gaslikova; Peter Hoffmann; Jörg Knieling; Volker Matthias; Linda Meier; Johannes Pein; Benjamin Poschlod; Markus Quante; Leonie Ratzke; Elisabeth Rudolph; Jürgen Scheffran; Heinke  Schlünzen; Nima Shokri; Jana Sillmann; Anastasia  Vogelbacher; Malte von Szombathely; Martin Wickel

doi:10.1080/19463138.2025.2474399

Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams

Franziska S. Hanf^*, Felix Ament, Marita Böttcher, Finn Burgmeister, Lidia Gaslikova, Peter Hoffmann, Jörg Knieling, Volker Matthias, Linda Meier, Johannes Pein, Benjamin Poschlod, Markus Quante, Leonie Ratzke, Elisabeth Rudolph, Jürgen Scheffran, Heinke Schlünzen, Nima Shokri, Jana Sillmann, Anastasia Vogelbacher, Malte von SzombathelyMartin Wickel

^*Corresponding author for this work

Abstract

While cities are facing increasing challenges of flood risk due to combined effects of climate change and socioeconomic development, understanding of the complexity of urban flood risk is still limited, hampering decision-making and urban adaptation planning. This study presents a qualitative system dynamics modelling framework to investigate urban flood risk and adaptation under climate change in a coupled socio-ecological system, the city of Hamburg. The developed integrated conceptual model provides a holistic understanding of key physical and socio-economic processes and the role of feedback loops underlying the urban system, and contributes to the understanding of vicious cycles of barriers that perpetuate and hinder adaptation processes within cities. The qualitative approach can help to break down silo-thinking in urban flood risk assessments. Decision-makers could use the framework to understand the complexity of interactions among multiple drivers of flood risk to overcome barriers and lock-in effects to adaptation in cities.

Translated title of the contribution	Hin zu einem sozial-ökologischen Systemverständnis des urbanen Hochwasserrisikos und der Hindernisse für die Anpassung an den Klimawandel mithilfe von Kausaldiagrammen
Original language	English
Pages (from-to)	69-102
Number of pages	34
Journal	International Journal of Urban Sustainable Development
Volume	2025
Issue number	04.04.2025
DOIs	https://doi.org/10.1080/19463138.2025.2474399
Publication status	Published - 4 Apr 2025

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Cite this

Hanf, F. S., Ament, F., Böttcher, M., Burgmeister, F., Gaslikova, L., Hoffmann, P., Knieling, J., Matthias, V., Meier, L., Pein, J., Poschlod, B., Quante, M., Ratzke, L., Rudolph, E., Scheffran, J., Schlünzen, H., Shokri, N., Sillmann, J., Vogelbacher, A., ... Wickel, M. (2025). Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams. International Journal of Urban Sustainable Development, 2025(04.04.2025), 69-102. https://doi.org/10.1080/19463138.2025.2474399

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abstract = "While cities are facing increasing challenges of flood risk due to combined effects of climate change and socioeconomic development, understanding of the complexity of urban flood risk is still limited, hampering decision-making and urban adaptation planning. This study presents a qualitative system dynamics modelling framework to investigate urban flood risk and adaptation under climate change in a coupled socio-ecological system, the city of Hamburg. The developed integrated conceptual model provides a holistic understanding of key physical and socio-economic processes and the role of feedback loops underlying the urban system, and contributes to the understanding of vicious cycles of barriers that perpetuate and hinder adaptation processes within cities. The qualitative approach can help to break down silo-thinking in urban flood risk assessments. Decision-makers could use the framework to understand the complexity of interactions among multiple drivers of flood risk to overcome barriers and lock-in effects to adaptation in cities.",

keywords = "Socio-ecological systems, Urban flood risk, Climate change adaptation, Barriers to adaptation, Causal loop diagrams, Systems thinking",

author = "Hanf, \{Franziska S.\} and Felix Ament and Marita B{\"o}ttcher and Finn Burgmeister and Lidia Gaslikova and Peter Hoffmann and J{\"o}rg Knieling and Volker Matthias and Linda Meier and Johannes Pein and Benjamin Poschlod and Markus Quante and Leonie Ratzke and Elisabeth Rudolph and J{\"u}rgen Scheffran and Heinke Schl{\"u}nzen and Nima Shokri and Jana Sillmann and Anastasia Vogelbacher and \{von Szombathely\}, Malte and Martin Wickel",

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doi = "10.1080/19463138.2025.2474399",

language = "English",

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journal = "International Journal of Urban Sustainable Development",

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Hanf, FS, Ament, F, Böttcher, M, Burgmeister, F, Gaslikova, L, Hoffmann, P, Knieling, J, Matthias, V, Meier, L, Pein, J, Poschlod, B, Quante, M, Ratzke, L, Rudolph, E, Scheffran, J, Schlünzen, H, Shokri, N, Sillmann, J, Vogelbacher, A, von Szombathely, M & Wickel, M 2025, 'Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams', International Journal of Urban Sustainable Development, vol. 2025, no. 04.04.2025, pp. 69-102. https://doi.org/10.1080/19463138.2025.2474399

Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams. / Hanf, Franziska S.; Ament, Felix; Böttcher, Marita et al.
In: International Journal of Urban Sustainable Development, Vol. 2025, No. 04.04.2025, 04.04.2025, p. 69-102.

Research output: Contribution to Journal/Article › Journal Article › Research Article/Contribution › peer-review

TY - JOUR

T1 - Towards a socio-ecological system understanding of urban flood risk and barriers to climate change adaptation using causal loop diagrams

AU - Hanf, Franziska S.

AU - Ament, Felix

AU - Böttcher, Marita

AU - Burgmeister, Finn

AU - Gaslikova, Lidia

AU - Hoffmann, Peter

AU - Knieling, Jörg

AU - Matthias, Volker

AU - Meier, Linda

AU - Pein, Johannes

AU - Poschlod, Benjamin

AU - Quante, Markus

AU - Ratzke, Leonie

AU - Rudolph, Elisabeth

AU - Scheffran, Jürgen

AU - Schlünzen, Heinke

AU - Shokri, Nima

AU - Sillmann, Jana

AU - Vogelbacher, Anastasia

AU - von Szombathely, Malte

AU - Wickel, Martin

PY - 2025/4/4

Y1 - 2025/4/4

N2 - While cities are facing increasing challenges of flood risk due to combined effects of climate change and socioeconomic development, understanding of the complexity of urban flood risk is still limited, hampering decision-making and urban adaptation planning. This study presents a qualitative system dynamics modelling framework to investigate urban flood risk and adaptation under climate change in a coupled socio-ecological system, the city of Hamburg. The developed integrated conceptual model provides a holistic understanding of key physical and socio-economic processes and the role of feedback loops underlying the urban system, and contributes to the understanding of vicious cycles of barriers that perpetuate and hinder adaptation processes within cities. The qualitative approach can help to break down silo-thinking in urban flood risk assessments. Decision-makers could use the framework to understand the complexity of interactions among multiple drivers of flood risk to overcome barriers and lock-in effects to adaptation in cities.

AB - While cities are facing increasing challenges of flood risk due to combined effects of climate change and socioeconomic development, understanding of the complexity of urban flood risk is still limited, hampering decision-making and urban adaptation planning. This study presents a qualitative system dynamics modelling framework to investigate urban flood risk and adaptation under climate change in a coupled socio-ecological system, the city of Hamburg. The developed integrated conceptual model provides a holistic understanding of key physical and socio-economic processes and the role of feedback loops underlying the urban system, and contributes to the understanding of vicious cycles of barriers that perpetuate and hinder adaptation processes within cities. The qualitative approach can help to break down silo-thinking in urban flood risk assessments. Decision-makers could use the framework to understand the complexity of interactions among multiple drivers of flood risk to overcome barriers and lock-in effects to adaptation in cities.

KW - Socio-ecological systems

KW - Urban flood risk

KW - Climate change adaptation

KW - Barriers to adaptation

KW - Causal loop diagrams

KW - Systems thinking

U2 - 10.1080/19463138.2025.2474399

DO - 10.1080/19463138.2025.2474399

M3 - Journal Article

SN - 1946-3146

VL - 2025

SP - 69

EP - 102

JO - International Journal of Urban Sustainable Development

JF - International Journal of Urban Sustainable Development

IS - 04.04.2025

ER -