Upscaling urban data science for global climate solutions

Felix Creutzig; Steffen Lohrey; Xuemei Bai; Alexander Baklanov; Richard Dawson; Shobhakar Dhakal; William F. Lamb; Timon McPhearson; Jan Minx; Esteban Munoz; Brenna Walsh

doi:10.1017/sus.2018.16

Upscaling urban data science for global climate solutions

Felix Creutzig^*
, Steffen Lohrey
, Xuemei Bai
, Alexander Baklanov
, Richard Dawson
, Shobhakar Dhakal
, William F. Lamb
, Timon McPhearson
, Jan Minx
, Esteban Munoz
, Brenna Walsh

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Manhattan, Berlin and New Delhi all need to take action to adapt to climate change and to reduce greenhouse gas emissions. While case studies on these cities provide valuable insights, comparability and scalability remain sidelined. It is therefore timely to review the state-of-the-art in data infrastructures, including earth observations, social media data, and how they could be better integrated to advance climate change science in cities and urban areas. We present three routes for expanding knowledge on global urban areas: mainstreaming data collections, amplifying the use of big data and taking further advantage of computational methods to analyse qualitative data to gain new insights. These data-based approaches have the potential to upscale urban climate solutions and effect change at the global scale.

Original language	English
Article number	e2
Pages (from-to)	1-25
Number of pages	25
Journal	Global Sustainability
Volume	2
DOIs	https://doi.org/10.1017/sus.2018.16
Publication status	Published - 23 Jan 2019
Externally published	Yes

Funding

Funders	Funder number
National Science Foundation	1737626
Engineering and Physical Sciences Research Council	EP/P016782/1, EP/H003630/1
Economic and Social Research Council	ES/S008179/1

Keywords

adaptation and mitigation
policies
politics and governance
urban systems

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10.1017/sus.2018.16

https://www.cambridge.org/core/product/D2D622B43CD50A9B2FD5DF855BCC0F18

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abstract = "Manhattan, Berlin and New Delhi all need to take action to adapt to climate change and to reduce greenhouse gas emissions. While case studies on these cities provide valuable insights, comparability and scalability remain sidelined. It is therefore timely to review the state-of-the-art in data infrastructures, including earth observations, social media data, and how they could be better integrated to advance climate change science in cities and urban areas. We present three routes for expanding knowledge on global urban areas: mainstreaming data collections, amplifying the use of big data and taking further advantage of computational methods to analyse qualitative data to gain new insights. These data-based approaches have the potential to upscale urban climate solutions and effect change at the global scale.",

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AU - Creutzig, Felix

AU - Lohrey, Steffen

AU - Bai, Xuemei

AU - Baklanov, Alexander

AU - Dawson, Richard

AU - Dhakal, Shobhakar

AU - Lamb, William F.

AU - McPhearson, Timon

AU - Minx, Jan

AU - Munoz, Esteban

AU - Walsh, Brenna

PY - 2019/1/23

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N2 - Manhattan, Berlin and New Delhi all need to take action to adapt to climate change and to reduce greenhouse gas emissions. While case studies on these cities provide valuable insights, comparability and scalability remain sidelined. It is therefore timely to review the state-of-the-art in data infrastructures, including earth observations, social media data, and how they could be better integrated to advance climate change science in cities and urban areas. We present three routes for expanding knowledge on global urban areas: mainstreaming data collections, amplifying the use of big data and taking further advantage of computational methods to analyse qualitative data to gain new insights. These data-based approaches have the potential to upscale urban climate solutions and effect change at the global scale.

AB - Manhattan, Berlin and New Delhi all need to take action to adapt to climate change and to reduce greenhouse gas emissions. While case studies on these cities provide valuable insights, comparability and scalability remain sidelined. It is therefore timely to review the state-of-the-art in data infrastructures, including earth observations, social media data, and how they could be better integrated to advance climate change science in cities and urban areas. We present three routes for expanding knowledge on global urban areas: mainstreaming data collections, amplifying the use of big data and taking further advantage of computational methods to analyse qualitative data to gain new insights. These data-based approaches have the potential to upscale urban climate solutions and effect change at the global scale.

KW - adaptation and mitigation

KW - policies

KW - politics and governance

KW - urban systems

U2 - 10.1017/sus.2018.16

DO - 10.1017/sus.2018.16

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SP - 1

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JO - Global Sustainability

JF - Global Sustainability

M1 - e2

ER -

Upscaling urban data science for global climate solutions

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