Lena Simperler scite author profile

Nature-based solutions (NBS) can protect, manage and restore natural or modified ecosystems. They are a multidisciplinary, integrated approach to address societal challenges and some natural hazards effectively and adaptively, simultaneously providing human well-being and biodiversity benefits. NBS applications can be easily noticed in circular cities, establishing an urban system that is regenerative and accessible. This paper aims to offer a review on NBS for urban water management from the literature and some relevant projects running within the COST Action ‘Implementing nature-based solutions for creating a resourceful circular city’. The method used in the study is based on a detailed tracking of specific keywords in the literature using Google Scholar, ResearchGate, Academia.edu, ScienceDirect and Scopus. Based on this review, three main applications were identified: (i) flood and drought protection; (ii) the water-food-energy nexus; and (iii) water purification. The paper shows that NBS provide additional benefits, such as improving water quality, increasing biodiversity, obtaining social co-benefits, improving urban microclimate, and the reduction of energy consumption by improving indoor climate. The paper concludes that a systemic change to NBS should be given a higher priority and be preferred over conventional water infrastructure.

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Implementing nature-based solutions for creating a resourceful circular city

Langergraber

Pucher

Simperler

et al. 2020

103

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Resource depletion, climate change and degradation of ecosystems are challenges faced by cities worldwide and will increase if cities do not adapt. In order to tackle those challenges, it is necessary to transform our cities into sustainable systems using a holistic approach. One element in achieving this transition is the implementation of nature-based solutions (NBS). NBS can provide a range of ecosystem services beneficial for the urban biosphere such as regulation of micro-climates, flood prevention, water treatment, food provision and more. However, most NBS are implemented serving only one single purpose. Adopting the concept of circular economy by combining different types of services and returning resources to the city, would increase the benefits gained for urban areas. The COST Action Circular City aims to establish a network testing the hypothesis that: ‘A circular flow system that implements NBS for managing nutrients and resources within the urban biosphere will lead to a resilient, sustainable and healthy urban environment’. In this paper we introduce the COST Action Circular City by describing its main objectives and aims. The paper also serves as introduction to the review papers of the Action's five Working Groups in this Special Issue.

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Analysing wastewater temperature development in a sewer system as a basis for the evaluation of wastewater heat recovery potentials

Kretschmer

Simperler

Ertl

2016

Energy and Buildings

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The coupled socio-ecohydrological evolution of river systems: Towards an integrative perspective of river systems in the 21st century

Hein

Hauer

Schmid

et al. 2021

Science of The Total Environment

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Prioritization of stormwater management sites in urban areas

Simperler

Himmelbauer

Ertl

et al. 2020

Journal of Environmental Management

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Lena Simperler

A review of nature-based solutions for urban water management in European circular cities: a critical assessment based on case studies and literature

Implementing nature-based solutions for creating a resourceful circular city

Analysing wastewater temperature development in a sewer system as a basis for the evaluation of wastewater heat recovery potentials

The coupled socio-ecohydrological evolution of river systems: Towards an integrative perspective of river systems in the 21st century

Prioritization of stormwater management sites in urban areas

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