Macrophage-derived HIV-1 carries bioactive TGF-beta

Sustainable urban resource management depends essentially on a sound understanding of a city's resource flows. One established method for analyzing the urban metabolism (UM) is the Eurostat material flow analysis (MFA). However, for a comprehensive assessment of the UM, this method has its limitations. It does not account for all relevant resource flows, such as locally sourced resources, and it does not differentiate between flows that are associated with the city's resource consumption and resources that only pass through the city. This research sought to gain insights into the UM of Amsterdam by performing an MFA employing the Eurostat method. Modifications to that method were made to enhance its performance for comprehensive UM analyses. A case study of Amsterdam for the year 2012 was conducted and the results of the Eurostat and the modified Eurostat method were compared. The results show that Amsterdam's metabolism is dominated by water flows and by port-related throughput of fossil fuels. The modified Eurostat method provides a deeper understanding of the UM than the urban Eurostat MFA attributed to three major benefits of the proposed modifications. First, the MFA presents a more complete image of the flows in the UM. Second, the modified resource classification presents findings in more detail. Third, explicating throughput flows yields a much-improved insight into the nature of a city's imports, exports, and stock. Overall, these advancements provide a deeper understanding of the UM and make the MFA method more useful for sustainable urban resource management. Keywords:Amsterdam circular economy industrial ecology resource management sustainable city urban planning Supporting information is linked to this article on the JIE website

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Urban Planning for a Renewable Energy Future: Methodological Challenges and Opportunities from a Design Perspective

Vandevyvere

Stremke

2012

Sustainability

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Urban planning for a renewable energy future requires the collaboration of different disciplines both in research and practice. In the present article, the planning of a renewable energy future is approached from a designer's perspective. A framework for analysis of the planning questions at hand is first proposed. The framework considers two levels of inquiry: the technical environmental aspect, and its wider embedding in sustainable development. Furthermore, life cycle analysis and exergy studies are discussed for their application potential in design. An altered trias energetica as proposed in earlier publications appears to remain a robust concept for low exergy, renewable energy based urban design. When considering sustainable development, environmental assessments shall be completed by an inquiry of the socio-cultural, economical, juridical, aesthetical and ethical aspects characterizing the planning or decision process. The article then presents a number of practical design principles that can help envisioning a built environment that can be sustained on the basis of renewable energy sources. In accordance with the altered trias energetica concept, elements of passive urban energy design, exergetic optimization of energy provision systems and the sourcing of renewable energy are identified, and their respective potentials assessed. OPEN ACCESSSustainability 2012, 4 1310

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Advancing the relationship between renewable energy and ecosystem services for landscape planning and design: A literature review

et al. 2019

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Spatial transition analysis: Spatially explicit and evidence-based targets for sustainable energy transition at the local and regional scale

Oudes

Stremke

2018

Landscape and Urban Planning

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Integrated Visions (Part I): Methodological Framework for Long-term Regional Design

Stremke

Kann²,

Koh

2012

European Planning Studies

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The growing complexity of regional planning and design, in combination with increasing concerns about climate change and resource depletion, has revived the discussion on strategic thinking. Spatial planning and landscape architecture develop long-term visions to facilitate the gradual adaptation of the physical environment. Despite accomplishments in both disciplines, the two domains have yet to exploit the full potential of a joint approach to long-term regional design. The objective of the multidisciplinary study reported in this paper was to explore alternative means of developing imaginative yet robust long-term visions. The study combined literature study with the development of several long-term visions for the creation of sustainable energy landscapes. This paper focuses on the emerging methodological framework for long-term regional design, and argues that three modes of change should be integrated into the design process: change due to current projected trends, change due to critical uncertainties and intended change. Subsequently, a five-step approach to the development of long-term visions is derived and illustrated in this paper. The second paper of this two-part series, which will be published in the April 2012 issue of European Planning Studies, centres on the application and the discussion of the five-step approach to integrated visions.

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Energy Transition: Missed Opportunities and Emerging Challenges for Landscape Planning and Designing

Waal

Stremke

2014

Sustainability

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Making the shift from fossil fuels to renewable energy seems inevitable. Because energy transition poses new challenges and opportunities to the discipline of landscape architecture, the questions addressed in this paper are: (1) what landscape architects can learn from successful energy transitions in Güssing, Jühnde and Samsø;and (2) to what extent landscape architecture (or other spatial disciplines) contributed to energy transition in the aforementioned cases. An exploratory, comparative case study was conducted to identify differences and similarities among the cases, to answer the research questions, and to formulate recommendations for further research and practice. The comparison indicated that the realized renewable energy systems are context-dependent and, therefore, specifically designed to meet the respective energy demand, making use of the available potentials for renewable energy generation and efficiency. Further success factors seemed to be the presence of (local) frontrunners and a certain degree of citizen participation. The relatively smooth implementation of renewable energy technologies in Jühnde and on Samsø may indicate the importance of careful and (partly) institutionalized consideration of landscape impact, siting and design. Comparing the cases against the literature demonstrated that landscape architects were not as involved as they, theoretically, could have been. However, particularly when the aim is sustainable development, rather than "merely" renewable energy provision, the integrative concept of "sustainable energy landscapes" can be the arena where landscape architecture and other disciplines meet to pursue global sustainability goals, while empowering local communities and safeguarding landscape quality.

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A systematic review of factors influencing spatiotemporal variability in urban water and energy consumption

Voskamp

Sutton

Stremke

et al. 2020

Journal of Cleaner Production

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S. Stremke

Energy landscapes in a crowded world: A first typology of origins and expressions

Enhanced Performance of the Eurostat Method for Comprehensive Assessment of Urban Metabolism: A Material Flow Analysis of Amsterdam

Urban Planning for a Renewable Energy Future: Methodological Challenges and Opportunities from a Design Perspective

Advancing the relationship between renewable energy and ecosystem services for landscape planning and design: A literature review

Spatial transition analysis: Spatially explicit and evidence-based targets for sustainable energy transition at the local and regional scale

Integrated Visions (Part I): Methodological Framework for Long-term Regional Design

Energy Transition: Missed Opportunities and Emerging Challenges for Landscape Planning and Designing

A systematic review of factors influencing spatiotemporal variability in urban water and energy consumption

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