Metabolism of Cities
  • About

    About Us

    • Our Story
    • Mission & Values
    • Team
    • Task Forces
    • Services

    Connect With Us

    • ContributeJoin Us
    • Subscribe
    • Contact Us
  • Community

    Research

    • Projects
    • Theses
    • ContributeAdd Research
    • People

    Updates

    • Events
    • News
  • Resources

    Getting Started

    • About Urban Metabolism
    • Starter Kit

    Multimedia

    • Photos
    • Videos

    Publications

    • Library
    • Journals
    • ContributeAdd Publication

    Data

    • Datasets
    • Data Visualisations

    Tools

    • Online Material Flow Analysis Tool (OMAT)
    • MOOC
  • Cities

    MultipliCity - Data Portals

    • Introduction
    • Video
    • Add DataContribute
    • Data Collection Events
    • Development Roadmap
    • Datasets

    Existing Data Portals

    • Prototype: Cape Town, South Africa
    • Prototype: The Hague, Netherlands
    • Prototype: Beijing, China
    • Overview page

    Upcoming Data Portals

    • Apeldoorn, Netherlands Coming soon
    • Bødo, Norway Coming soon
    • Brussels, Belgium Coming soon
    • Høje Taastrup, Denmark Coming soon
    • Mikkeli, Finland Coming soon
    • Porto, Portugal Coming soon
    • Sevilla, Spain Coming soon
    • Toronto, Canada Coming soon
    • Your city?
    • Orange Theme
    • Blue Theme
    • Metabolism of Cities
    • Metabolism of Islands

Publications

  1. Resources
  2. Publications
  3. Publication #630

Bibtex

@article{reference_tag,
  author = "Leyre Echevarria, Andy van den Dobbelsteen, Frank van der Hoeven",
  title = "Integrating Urban Heat Assessment in Urban Plans",
  journal = "Sustainability",
  year = 2016,url = "https://www.researchgate.net/publication/299525600_Integrating_Urban_Heat_Assessment_in_Urban_Plans",
  abstract = "The world is increasingly concerned with sustainability issues. Climate change is not the least of these concerns. The complexity of these issues is such that data and information management form an important means of making the right decisions. Nowadays, however, the sheer quantity of data is overwhelming; large quantities of data demand means of representation that are comprehensible and effective. The above dilemma poses questions as to how one incorporates unknown climatologic parameters, such as urban heat, in future urban planning processes, and how one ensures the proposals are specific enough to actually adapt cities to climate change and flexible enough to ensure the proposed measures are combinable and compatible with other urban planning priorities. Conventional urban planning processes and mapping strategies are not adapted to this new environmental, technological and social context. In order come up with more appropriate urban planning strategies, in its first section this paper analyzes the role of the urban planner, reviews the wide variety of parameters that are starting to be integrated into the urban planners practice, and considers the parameters (mainly land surface temperature, albedo, vegetation, and imperviousness) and tools needed for the assessment of the UHI (satellite imagery and GIS). The second part of the study analyzes the potential of four catalyzing mapping categories to integrate urban heat into spatial planning processes: drift, layering, game-board, and rhizome.",
  doi = "10.3390/su8040320",
}

RIS

TY  - JOUR
T1 - Integrating Urban Heat Assessment in Urban Plans
AU - Leyre Echevarria, Andy van den Dobbelsteen, Frank van der Hoeven
Y1 - 2016
UR - https://www.researchgate.net/publication/299525600_Integrating_Urban_Heat_Assessment_in_Urban_Plans
DO - 10.3390/su8040320
N2 - The world is increasingly concerned with sustainability issues. Climate change is not the least of these concerns. The complexity of these issues is such that data and information management form an important means of making the right decisions. Nowadays, however, the sheer quantity of data is overwhelming; large quantities of data demand means of representation that are comprehensible and effective. The above dilemma poses questions as to how one incorporates unknown climatologic parameters, such as urban heat, in future urban planning processes, and how one ensures the proposals are specific enough to actually adapt cities to climate change and flexible enough to ensure the proposed measures are combinable and compatible with other urban planning priorities. Conventional urban planning processes and mapping strategies are not adapted to this new environmental, technological and social context. In order come up with more appropriate urban planning strategies, in its first section this paper analyzes the role of the urban planner, reviews the wide variety of parameters that are starting to be integrated into the urban planners practice, and considers the parameters (mainly land surface temperature, albedo, vegetation, and imperviousness) and tools needed for the assessment of the UHI (satellite imagery and GIS). The second part of the study analyzes the potential of four catalyzing mapping categories to integrate urban heat into spatial planning processes: drift, layering, game-board, and rhizome.
ER - 

Journal Article

2016

Author(s)

  • Andy van den Dobbelsteen
  • Frank van der Hoeven
  • Leyre Echevarría Icaza

Reference

  • Bibtex
  • RIS
  • RefWorks

Search

  • Google Scholar
  • Google

More options

Add a publication

Report error

Integrating Urban Heat Assessment in Urban Plans

Sustainability

Sustainability

The world is increasingly concerned with sustainability issues. Climate change is not the least of these concerns. The complexity of these issues is such that data and information management form an important means of making the right decisions. Nowadays, however, the sheer quantity of data is overwhelming; large quantities of data demand means of representation that are comprehensible and effective. The above dilemma poses questions as to how one incorporates unknown climatologic parameters, such as urban heat, in future urban planning processes, and how one ensures the proposals are specific enough to actually adapt cities to climate change and flexible enough to ensure the proposed measures are combinable and compatible with other urban planning priorities. Conventional urban planning processes and mapping strategies are not adapted to this new environmental, technological and social context. In order come up with more appropriate urban planning strategies, in its first section this paper analyzes the role of the urban planner, reviews the wide variety of parameters that are starting to be integrated into the urban planners practice, and considers the parameters (mainly land surface temperature, albedo, vegetation, and imperviousness) and tools needed for the assessment of the UHI (satellite imagery and GIS). The second part of the study analyzes the potential of four catalyzing mapping categories to integrate urban heat into spatial planning processes: drift, layering, game-board, and rhizome.

Tags

  • Urban

More information

10.3390/su8040320

Website

  • Literature
  • Publications
  • Journals
  • Events
  • Publishers

Latest news

Reflections on the first Actionable Science for Urban Sustainability (un)conference (AScUS) 2020
June 23, 2020

Read more

Do you have data on resource flows?

Share data

We can use your help

Join us

Metabolism of Cities

Creative Commons Attribution 4.0 International license.

Our source code is available on
Gitlab

Contact us

Follow Us

Metabolism of Islands

Visit our twin site:
Metabolism of Islands