The geography of global urban greenhouse gas emissions: an exploratory analysis

Marcotullio, Peter J.; Sarzynski, Andrea; Albrecht, Jochen; Schulz, Niels; Garcia, Jake

doi:10.1007/s10584-013-0977-z

Cited by 142 publications

(73 citation statements)

References 29 publications

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“…As belowground communities strongly control SOC sequestration, microbial diversity and functional capabilities should be used to guide and monitor urban soil 7 management and restoration (Fierer et al, 2013). The long lasting legacy of urban investment decisions, growth of urban activities that produce CO2 emissions, and increasing concentration of urban population drives urgency for urban climate change policy (Marcotullio et al, 2013), and for soil C-friendly urban soil and land-use management .…”

Section: Ecosystem Services Of Urban Soilsmentioning

confidence: 99%

Managing soil carbon stocks to enhance the resilience of urban ecosystems

Lorenz

Lal

2015

Carbon Management

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Section: Ecosystem Services Of Urban Soilsmentioning

confidence: 99%

Managing soil carbon stocks to enhance the resilience of urban ecosystems

Lorenz

Lal

2015

Carbon Management

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“…The CSA is a grouping of adjacent MSAs. Furthermore, river basins, population, and population density have all been used to define boundaries for urban areas [17,56,132]. There are multiple definitions of an urban area and this should be taken into consideration in urban WF analysis, because per the logic of ERA these different boundaries imply different points of view and different accounting of footprints and values.…”

Section: Spatial Scale or Boundary For Urban Water Footprint Analysismentioning

confidence: 99%

“…This is further compounded by the environmental degradation that can result from aging and/or inadequate water infrastructure in cities [11][12][13][14]. Thus, it is becoming increasingly clear that cities hold the key to achieving sustainability targets because of their potential to address, and have an impact on global issues revolving around climate change [15][16][17], biodiversity loss [18][19][20], and water resources [21][22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Water Footprint of Cities: A Review and Suggestions for Future Research

et al. 2015

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Cities are hotspots of commodity consumption, with implications for both local and systemic water resources. Water flows "virtually" into and out of cities through the extensive cross-boundary exchange of goods and services. Both virtual and real water flows are affected by water supply investments and urban planning decisions, which influence residential, commercial, and industrial development. This form of water "teleconnection" is being increasingly recognized as an important aspect of water decision-making. The role of trade and virtual water flows as an alternative to expanding a city's "real" water supply is rarely acknowledged, with an emphasis placed instead on monotonic expansion of engineering potable water supplies. We perform a literature review of water footprint studies to evaluate OPEN ACCESSSustainability 2015, 7 8462 the potential and importance of taking virtual flows into account in urban planning and policy. We compare and contrast current methods to assess virtual water flows. We also identify and discuss priorities for future research in urban water footprint analysis.

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“…Agricultural land use change, like draining of moist land, and the cutting down of forests and turning them into arable land or pastures, leads to increased emissions of these gases [10,13]. There is a large number of more recent papers that indicate that the growth of urban population influences the growth of CO 2 emissions [35,36]. Urban areas consume more than 66% of global energy and generate more than 70% of global GHG emission [35].…”

Section: Conceptual Frameworkmentioning

confidence: 99%

The Impact of Agro-Economic Factors on GHG Emissions: Evidence from European Developing and Advanced Economies

et al. 2015

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Abstract:Environmental degradation by greenhouse gas (GHG) emissions has been an important challenge of sustainable economic development and climate changes control. Industry is the major source of CO 2 emissions, whereas 84% of global anthropogenic methane and nitrous-oxide emissions emerge from agriculture. The impact of agro-economic factors on GHG emissions in European developing economies (Southeastern Europe in focus) as compared with European advanced economies has been examined in this paper.The results have confirmed the existence of significant differences in impact of these factors depending on the level of economic development. For both groups of economies, we have confirmed the Environmental Kuznets Curve (EKC) hypothesis (inverted U-shaped relationship between GDP per capita and carbon dioxide emissions), but different sectoral outputs, too. We have also established different impacts of agro emission sources. In developing economies, we have recognized livestock breeding as a predominant factor and recommended measures for reducing the emissions in this sector, following developed economies. The findings may be useful to European developing economies as a support to implementation of binding commitments emerging from the UN Framework Convention on Climate Change (UNFCCC). In the panel analysis, we have taken into consideration the non-stationarity of the series, heterogeneity of the sample, and also examined a dynamic specification.

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The geography of global urban greenhouse gas emissions: an exploratory analysis

Cited by 142 publications

References 29 publications

Managing soil carbon stocks to enhance the resilience of urban ecosystems

Managing soil carbon stocks to enhance the resilience of urban ecosystems

Water Footprint of Cities: A Review and Suggestions for Future Research

The Impact of Agro-Economic Factors on GHG Emissions: Evidence from European Developing and Advanced Economies

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