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Fully funded PhD- Cities climate change strategies and natural resources

International Society for Industrial Ecology

Newcastle upon Tyne

On-site

GBP 15,000 - 21,000

Full time

8 days ago

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Job summary

A leading research institution offers a fully funded PhD opportunity focusing on evaluating the impact of climate change strategies in urban areas. The successful candidate will work on innovative methodologies assessing GHG emissions and resource management, collaborating with cities like Newcastle and Manchester to provide actionable insights for climate adaptation and mitigation.

Qualifications

Acquire skills in GHG accounting, LCA, and geospatial tools.
Conduct research and analysis on climate change strategies.
Collaborate with urban areas for data collection and evaluation.

Responsibilities

Evaluate the impact of city climate strategies on natural resources.
Develop methodologies to assess infrastructure and GHG emissions.
Conduct strategy analysis and emission accounting.

Skills

GHG accounting methodologies

Life Cycle Assessment (LCA)

Material Flow Analysis (MFA)

Geospatial tools

Network-based interview methods

Education

Background in natural and social sciences

Fully funded PhD - Cities, Climate Change Strategies, and Natural Resources

I have a PhD opportunity with ONE Planet in Cities, Climate Change Strategies, and Natural Resources.

Cities worldwide and in the UK develop local climate plans (Salvia, 2021). Climate actions require large amounts of natural resources (e.g., sand, aggregates, lithium, cobalt) that should be sourced sustainably (Heidrich, 2022). To ensure effective local climate plans and avoid unintended consequences, such as trade-offs between infrastructure and resources, assessment methodologies like Life Cycle Assessment and Material Flow Analysis need to be developed to analyze the impacts of these strategies (Baars, 2021; Heidrich, 2022).

The student will evaluate the impact of city climate change strategies on infrastructure and natural resources. Collaborating with cities like Newcastle, Manchester, and North Tyneside, the study will assess whether local climate plans effectively reduce GHG emissions and help cities adapt to climate change without compromising natural resources or geopolitical relationships. The research will consider sectors under the control of Local Authorities (direct influence) and Scope 3 emissions.

The student will acquire innovative natural and social science tools, including GHG accounting methodologies, geospatial tools, Life Cycle Assessment (LCA), Material Flow Accounting (MFA), and network-based interview and analysis methods. The study aims to advance quantitative and qualitative measures of the perceived risks and values associated with climate change adaptation and mitigation infrastructures and natural resource management.

Research methods will include strategy analysis, emission and resource accounting (Research Questions 1 & 2), infrastructure mapping and LCA (RQ3), calculating mitigation impacts such as GHG accounting linked to the Tyndall Carbon Calculator (Manchester University), and assessing adaptation efforts like flood defenses (RQ3 & 4). Additionally, a risk matrix will be developed and applied for RQ5.

References:

Salvia, et al. (2021). Will climate mitigation ambitions lead to carbon neutrality? Renewable & Sustainable Energy Reviews. https://doi.org/10.1016/j.rser.2020.110253
Heidrich, O. (2022). LAYERS: A Decision-Support Tool to Illustrate and Assess the Supply and Value Chain for the Energy Transition. MDPI. https://www.mdpi.com/2071-1050/14/12/7120
Baars, J., & Heidrich, O. (2021). Circular economy strategies for electric vehicle batteries reduce reliance on raw materials. Nature Sustainability. https://www.nature.com/articles/s41893-020-00607-0

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