Exploring an Urban System’s Dependence on the Environment as a Source and a Sink: The City of Rome (Italy) Across Space and Time Scales

Ascione, Marco; Bargigli, Silvia; Campanella, Luigí; Ulgiati, Sérgio

doi:10.1002/cssc.201000214

Cited by 15 publications

(7 citation statements)

References 21 publications

(23 reference statements)

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“…As underlined by Kanter and Litow (2009) in their Manifesto for Smarter Cities, making smart each subsystem of a city one after another does not create a smart city, since the city is actually an organic whole. And any innovation process at the urban level must take into account the consequences in the network of inflows of resources provided by the city's supporting area (Ascione et al, 2011;Brown and Ulgiati, 2011). From a systemic point of view, neglecting the SC's surroundings means just shifting the burden of social, environmental and economic problems to somebody else elsewhere.…”

Section: The Systemic Smart Citymentioning

confidence: 99%

The Smart Narrative of a Smart City

Gonella

2019

Front. Sustain. Cities

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The current narrative about Smart Cities is flawed on two levels. First, it describes cities whose promise of smartness is highly biased. Second, it neglects to account for the systemic nature of the urban metabolism, as well as the role of the support region of the city (in terms of its resource provision). In this contribution, I propose a short review of the mainstream Smart City narrative elements as presented by influential and authoritative sources, pointing out their detachment from the reality and from the sustainability of cities described by systemic thinking.

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Section: The Systemic Smart Citymentioning

confidence: 99%

The Smart Narrative of a Smart City

Gonella

2019

Front. Sustain. Cities

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“…Subsequently, from the aforementioned energy balance, transformities of large ecosystems such as forests, marine and wetland ecosystems, agricultural landscapes and lakes were calculated [44][45][46]. Likewise, from these transformities, unit values of resources such as wood, soil, water, among others, were estimated, and so on; emergy unit values of human-made materials, products and services have been calculated with a very good level of detail and are available for their use in studies of different academic disciplines [21,23].…”

Section: Emergy Synthesismentioning

confidence: 99%

Emergy Evaluation of Dwelling Operation in Five Housing Units of Montreal Island, Canada

et al. 2017

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Sustainability of cities and the environmental implications of high resource utilization by the domestic sector are growing concerns related to urban regions. Well-informed urban planning decision-making is an essential tool to help in the task and, for that, an important point to consider is the influence of parameters like residential density and housing typology on the intensity of resource utilization. Emergy synthesis, a life-cycle energy analysis methodological approach that considers the interaction of natural and human-made flows, was used to evaluate the environmental support for dwelling operational stage in five typical present-day housing units on the island of Montreal. As expected, resource utilization, measured as total emergy used, was positively correlated to housing unit size both with respect to number of occupants and dwelling size. Results suggest that variables affecting notably the intensity of resource utilization are per household income and per dweller habitable space and, while a higher income increased per capita emergy in all cases, increasing space availability per resident did not result in a decrease of empower density after 50 m 2 /person. Future work should consider lower and higher densities and analyses at the scale of blocks, neighborhoods and urban planning zones.

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“…Lei and colleagues evaluated Macao in 2004, remarking the prominent role played by tourism [23]. Ascione and collaborators studied Rome in 2002, including imported labour and certain specific sectors such as tourism and government support [24,25]. Vega-Azamar and colleagues assessed the environmental sustainability in Montreal in 2005 and compared it to that of other selected cities [26].…”

Section: Emergy Evaluation In Urban Regionsmentioning

confidence: 99%

Sustainability Assessment of the Residential Land Use in Seven Boroughs of the Island of Montreal, Canada

et al. 2015

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High resource utilization in the residential sector, and the associated environmental impacts, are central issues in the growth of urban regions. Land-use urban planning is a primary instrument for the proper development of cities; an important point is the consideration of the urban form's influence on resource utilization intensity. Emergy synthesis, an energy-based methodological approach that allows the quantification and integration of both natural and human-generated flows interacting in urban environments, was used to assess sustainability of the residential land use of seven boroughs on the Island of Montreal. Natural resources, food, water, acquired goods and services, electricity and fuels were the main flows considered in the analysis. Results suggest that income, household size and distance to downtown are the variables affecting resource utilization intensity more noticeably and that allocation of green area coverage is an important parameter for OPEN ACCESSSustainability 2015, 7 2455 controlling land use intensity. With the procedure used for calculating resource use intensity in the seven boroughs, it is possible to generate a tool to support urban planning decisionmaking for assessing sustainable development scenarios. Future research should consider urban green space potential for accommodating local waste treatment systems, acting as a greenhouse gas emissions sink and promoting human health.

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Exploring an Urban System’s Dependence on the Environment as a Source and a Sink: The City of Rome (Italy) Across Space and Time Scales

Cited by 15 publications

References 21 publications

The Smart Narrative of a Smart City

The Smart Narrative of a Smart City

Emergy Evaluation of Dwelling Operation in Five Housing Units of Montreal Island, Canada

Sustainability Assessment of the Residential Land Use in Seven Boroughs of the Island of Montreal, Canada

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