Setting Climate Committments for South Ribble
Quantifying the implications of the United Nations Paris Agreement for South Ribble
|Dr Jaise Kuriakose, Dr Chris Jones, Prof Kevin Anderson, Dr John Broderick & Prof Carly McLachlan
This report presents climate change targets for South RibbleDefined in terms of the administrative boundary of the South Ribble area. that are derived from the commitments enshrined in the Paris Agreement , informed by the latest science on climate change  and defined in terms of science based carbon setting . The report provides South Ribble with budgets for carbon dioxide (CO2) emissions and from the energy system for 2020 to 2100.
The carbon budgets in this report are based on translating the “well below 2°C and pursuing 1.5°C” global temperature target and equity principles in the United Nations Paris Agreement to a national UK carbon budget We base our global carbon budget on the latest IPCC Special Report on 1.5ºC (IPCC SR1.5) findings on how carbon emissions relate to global temperatures. The budget value we have selected provides a ‘likely’ chance of staying below 2°C and offers an outside chance at holding temperatures to 1.5°C. As IPCC SR1.5, notes there are no emissions pathways for limiting warming to 1.5°C that do not rely upon significant carbon dioxide removal technology deployment . The UK budget is then split between sub-national areas using different allocation regimes . Aviation and shipping emissions remain within the national UK carbon budget and are not scaled down to sub-national budgets. Land Use, Land Use Change and Forestry (LULUCF) and non-CO2 emissions are considered separately to the energy CO2 budget in this report.
Based on our analysis, for South Ribble to make its ‘fair’ contribution towards the Paris Climate Change Agreement, the following recommendations should be adopted:
- Stay within a maximum cumulative carbon dioxide emissions budget of 4.3 million tonnes (MtCO2) for the period of 2020 to 2100. At 2017 CO2 emission levelsBased on BEIS LA statistics 2017 CO2 emissions South Ribble (excluding aviation, shipping, process CO2 emissions from cement production and those from LULUCF)., South Ribble would use this entire budget within 6 years from 2020.
- Initiate an immediate programme of CO2 mitigation to deliver cuts in emissions averaging a minimum of -13.9% per year to deliver a Paris aligned carbon budget. These annual reductions in emissions require national and local action, and could be part of a wider collaboration with other local authorities.
- Reach zero or near zero carbon no later than 2041. This report provides an indicative CO2 reduction pathway that stays within the recommended maximum carbon budget of 4.3 MtCO2. At 2041 5% of the budget remains. This represents very low levels of residual CO2 emissions by this time, or the Authority may opt to forgo these residual emissions and cut emissions to zero at this point. Earlier years for reaching zero CO2 emissions are also within the recommended budget, provided that interim budgets with lower cumulative CO2 emissions are also adopted.
This report presents advisory climate change targets for South Ribble to make its fair contribution to meeting the objectives of the United Nations Paris Agreement on Climate Change. The latest scientific consensus on climate change in the Intergovernmental Panel on Climate Change (IPCC) Special Report on 1.5°C  is used as the starting point for setting sub-national carbon budgets [3, 4] that quantify the maximum carbon dioxide (CO2) associated with energy use in South Ribble that can be emitted to meet this commitment. This report translates this commitment into;
- a long-term carbon budget for South Ribble;
- a sequence of recommended five-year carbon budgets;
- a date of ‘near zero’/zero carbon for the area.
The United Nations Framework Convention on Climate Change (UNFCCC) Paris Agreement commits the global community to take action to “hold the increase in global average temperature to well below 2°C above pre-industrial levels and pursue efforts to limit the temperature increase to 1.5°C” . Cumulative emissions of CO2 from human activity are the principle driver of long-term global warmingThis is due to the near-linear relationship between cumulative CO2 emissions and temperature is the result of various feedback processes and logarithmic relationship between atmospheric CO2 concentrations and radiative forcing, as well as the changes in the airborne fraction of CO2 emissions .. It is the relationship between CO2 and global temperatures which means that staying within a given temperature threshold requires that only a certain total quantity of CO2 is released to the atmosphere. This is the global carbon budget.
In addition to setting global average temperature targets, the UNFCCC process also includes foundational principles of common but differentiated responsibility . This informs the fair (equitable) distribution of global emissions between nations at different stages of economic development. Industrialised nations are expected to show leadership towards a low carbon future, while it is acknowledged that a greater total share of future emissions will be associated with other countries as they develop (though their emissions per capita will remain low). Any sub-division of the global carbon budget must therefore account for the development needs of what the Paris Agreement refers to as “developing country Parties” in setting a fair/equitable national or sub-national carbon budget.
The carbon budgets presented here apply to CO2 emissions from the energy system only. Although all greenhouse gas (GHG) emissions, such as methane and other forcing agents, such as aircraft contrails, affect the rate of climate change, long term warming is mainly driven by CO2 emissions . Furthermore the physical or chemical properties of each GHG vary, with different life-times causing warming in different ways, and with subsequent, and often large, uncertainties in their accounting . As such the global carbon budgets in the Intergovernmental Panel on Climate Change (IPCC) Special Report on 1.5°C (SR1.5) , relate to CO2-only emissions. In this report we have discussed non-CO2 emissions and CO2 emissions associated with land use, land use change and forestry separately.
Ultimately staying within a global temperature threshold (e.g. “well below 2°C”) requires limiting cumulative CO2 emissions over the coming decades. Carbon budgets can be an effective way to understand the amount of CO2 emissions that can be released into the atmosphere in order to do this. End point targets such as ‘net zero’ by 2050, with very clear assumptions, can be useful indicators of ambition, but it is ultimately the cumulative CO2 released on the way to that target that is of primary significance to achieving climate change goals. Whereas end point focused targets can be met with varying levels of CO2 emissions (and therefore varying global temperature with consequent climate impacts) depending on their reduction pathways, carbon budgets specify the limits to CO2 emissions within the period of the commitment. This is a reason why the UK Climate Change Act has legislated 5-year carbon budget periods, as well as a long term target, to keep CO2 emissions consistent with the framing goal of the climate change commitment. It is also the reason why we recommend a carbon budget based approach.
1.2 Wider UK Policy Context
The UK Climate Change Act now legislates for a commitment to net zero greenhouse gas emissions by 2050The 2019 amended UK Climate Change Act commits the UK to at least a 100% reduction in greenhouse gas emissions by 2050 from 1990 levels on the basis that the UK’s ‘carbon account’ is ‘net zero’ by this point. This is not the same as zero greenhouse gas emissions by 2050. In this framing residual greenhouse gas emissions are net zero on the provision that they are balanced by greenhouse gas removals in the UK's carbon account., with five yearly carbon budgets to set actions and review progress . The carbon budgets for this target were not available at the time of our analysis for direct comparison, however the recommended budget in this report will most likely be more stringent. This is primarily due to two key differences between our approach and the current recommendations of the UK Government's advisory body the Committee on Climate Change (CCC) that inform the revised UK net zero target:
- The equity principles of the Paris Agreement and wider UNFCCC process are explicitly and quantitatively applied. Our approach allocates a smaller share of the global carbon budget to the ‘developed country Parties’, such as the UK, relative to ‘developing country Parties’. Moreover the approach is also distinct in including global ‘overheads’ for land use, land use change and forests (LULUCF) and cement process emissions related to development.
- Carbon dioxide removals via negative emissions technologies (NETs) and carbon offsetsCarbon offsetting refers to the purchase of a tradeable unit, representing emissions rights or emissions reductions, to balance the climate impact of an organisation, activity or individual. are not included. The UK Climate Change Act's ‘net zero’ framing means that the commitment is met when greenhouse gas emissions (debits) and removals (credits) from the UK’s carbon ‘account’ balance at zero. Hence the 2050 target can be met using carbon dioxide removal technologies, including land use sequestrations, and potentially carbon offsetting. The CCC include a significant role for NETs such as bioenergy carbon capture and storage and direct air capture in their analysis supporting the net zero target. Doing so theoretically increases the size of a carbon budget, but increases the risk of failing to deliver on the Paris global temperature target. The UK Government has also rejected the CCC's advice to explicitly exclude international carbon offsetting as an approach to meeting the net zero target. Allowing for future carbon dioxide removal technologies and international carbon offsetting ostensibly increase the size of the UK's carbon budget. However carbon removal technologies are at a very early stage of development and whether they can be successfully deployed at sufficient scale is highly uncertain. While they are an important technology to develop, it is a major risk to prematurely adopt a carbon budget that allows for additional CO2 on the basis that future generations will be in a position to deploy planetary-scale NETs. Similarly, as the CCC note in their advice, the efficacy of carbon offsetting as a contribution to meeting global climate change commitments is not robust enough to incorporate into recommended carbon budgets.
We regard our UK carbon budget to be at the upper end of the range that is aligned with the Paris Agreement’s objectives. Early results from the latest Earth system models suggest that the climate may be more sensitive to greenhouse gases than previously thought implying a smaller global carbon budget is required . In addition, assuming that developing countries will, on aggregate, implement rapid emissions reduction measures in line with a 2025 peak year is far from certain. Therefore, we recommend that these budgets are taken as reflective of the minimum commitment required to deliver on the Paris Agreement.
The Setting City Area Targets and Trajectories for Emissions Reduction (SCATTER) project  funded by the Department for Business Energy and Industrial Strategy (BEIS) developed a methodology for Local Authorities to set carbon emissions targets that are consistent with United Nations Paris Climate Agreement. This report uses the SCATTER methodology with revised global carbon budgets, based on the latest IPCC Special Report on 1.5°C and updated CO2 emissions datasets, to downscale global carbon budgets to South Ribble. This methodology has been successfully piloted with Greater Manchester Combined Authority and is being made available nationally to support all local authorities and groupings of local authorities.
Step 1: A global carbon budget of 900 GtCO2 is taken from the Intergovernmental Panel on Climate Change (IPCC) Special Report on 1.5ºC . This global carbon budget represents the latest IPCC estimate of the quantity of CO2 that can be emitted and still be consistent with keeping global temperatures well below 2ºC with an outside chance of stabilising at 1.5 ºC. This budget assumes no reliance on carbon removal technologies.
Step 2: A ‘global overhead’ deduction is made for process emissions arising from cement production (60 GtCO2) Based on IEA’s ambitious 2 degree scenario on process CO2 for the period 2020-2050, subsequently extrapolating to zero by 2075 . Cement is assumed to be a necessity for development . We also assume that there is no net deforestation at a global level (2020 to 2100) so none of the global carbon budget is allocated to this sector. This will require a significant global effort to rapidly reduce deforestation and significantly improve forestry management as well as increase rates of reforestation and potentially afforestation.
Step 3: A share of the global carbon budget is allocated to “developing country parties” assuming a trajectory for those countries from current emissions to a peak in 2025 then increasing mitigation towards zero emissions by around 2050. The remaining budget is allocated to “developed country parties” which includes the UK . This approach of considering developing countries first, is guided by the stipulation of equity within the Paris Agreement (and its earlier forebears, from Kyoto onwards).
Step 4: The UK is apportioned a share of the ‘developed country Parties’ budget after Step 3 to provide a UK national carbon budget. The apportionment is made according to “grandfathering”Grandfathering is based on the average proportion of CO2 emissions from each Party in recent years. of emissions for the most recent period up to the Paris Agreement (2011 to 2016).
Step 5: Aviation and shipping emissions are deducted. Assumptions and estimates are made about the level of future emissions from aviation, shipping and military transport for the UK. These emissions are then deducted from the national budgets as a ‘national overhead” to derive final UK energy only carbon budgets. Emissions from aviation including military aircraft are assumed to be static out to 2030, followed by a linear reduction to complete decarbonisation by 2075. The total CO2 emissions of this path are >25% lower than Department for Transport central forecast followed by reduction to zero by 2075. Shipping emissions are based on Walsh et al  ‘big world’ scenario out to 2050 followed by full decarbonisation from this sector by 2075. These aviation and shipping emissions (1,518 MtCO2) are then deducted as a ‘national overhead’ from the UK budget to derive the final carbon budgets for the UK, from which local authority budgets are subsequently derived . The budgets provided are therefore aligned with “well below 2°C and pursuing 1.5°C” provided that aviation and shipping emissions do not exceed the pathway assumed in our analysis . Failure to hold aviation and shipping emissions within the outlined allocation will reduce the carbon budget for UK regions, including for South Ribble.
Step 6: South Ribble is apportioned a part of the remaining UK carbon budget. Our recommended budget is based on sub-national allocation through ‘grandfathering’. A grandfathering approach allocates carbon budgets on the basis of recent emissions data. The most recent annual CO2 emissions for South Ribble up to the Paris Agreement  (2011-2016) is averaged and compared to averaged data for the whole UK  over the same period. The carbon budget (2020-2100) for South Ribble is then apportioned based on South Ribble’s average proportion of UK CO2 emissions for the 2011-2016 period. CO2 emissions in the carbon budget include emissions from fossil combustion within the region and a share of the emissions from national electricity generation (relative to the South Ribble area's end-use electricity demand).
Step 7: Carbon emission pathways. The carbon budgets for South Ribble are related to a set of illustrative emission pathways. These pathways show projected annual CO2 emissions from energy use in South Ribble and how these emissions reduce over time to stay within the budget. The energy-only CO2 emissions for 5-yearly interim carbon budget periods are calculated in line with the framework set out in the UK Climate Change Act. It is the cumulative carbon budget and the 5 year interim budgets that are of primary importance as opposed to a long term target date. The combination of a Paris-compliant carbon budget and the projected emissions pathways can however be used to derive an indicative near zero carbon target year for South Ribble. The near zero carbon year of 2041 is defined here as the point at which, on the consistent reduction rate curve, less than 5% of South Ribble’s recommended budget remains. Annual CO2 emissions at this point fall below 0.03 MtCO2 (CO2 levels >96% lower than in 2015 – a Paris Agreement reference year).
3.1 Energy Only Budgets for South Ribble
Following the Method the recommended energy only CO2 carbon budget for the South Ribble area for the period of 2020 to 2100 is 4.3 MtCO2. To translate this into near to long term commitments a CO2 reduction pathway within the 4.3 MtCO2 is proposed here. A consistent emissions reduction rate of -13.9% out to the end of the century is applied. In 2041 95% of the recommended carbon budget is emitted and low level CO2 emissions continue at a diminishing level to 2100.
Figure 1a (left): Energy related CO2 only emissions pathways (2010-2100) for South Ribble premised on the recommended carbon budget. Figure 1b (right): Energy CO2 only emissions pathways (2010-2050) for South Ribble premised on the recommended carbon budget. y-axis shows emissions in MtCO2
Table 1 presents the South Ribble energy CO2 only budget in the format of the 5-year carbon budget periods in the UK Climate Change Act. To align the 2020 to 2100 carbon budget with the budget periods in the Climate Change Act we have included estimated CO2 emissions for South Ribble for 2018 and 2019, based on BEIS provisional national emissions data for 2018  and assuming the same year on year reduction rate applied to 2019. The combined carbon budget for 2018 to 2100 is therefore 5.7 MtCO2.
Table 1: Periodic Carbon Budgets for 2018 for South Ribble.
|Carbon Budget Period
|Recommended Carbon Budget (Mt CO2)
|2018 - 2022
|2023 - 2027
|2028 - 2032
|2033 - 2037
|2038 - 2042
|2043 - 2047
|2048 - 2100
The recommended budget is the maximum cumulative CO2 amount we consider consistent with South Ribble’s fair contribution to the Paris Agreement. A smaller carbon budget, with accelerated reduction rates and an earlier zero carbon year, is compatible with this approach. It is however important that for an alternative zero carbon year the proposed 5 year budget periods are the same or lower that those specified in Figure 2. Furthermore meeting the budget must not rely on carbon offsets.
Figure 2: Cumulative CO2 emissions for budget period (based on Table 1) from 2018 to 2100 for South Ribble
3.2 Recommended Allocation Regime for Carbon Budget
The recommended carbon budget is based on a grandfathering allocation regime for sub-dividing the UK sub-national energy only carbon budget. There are three distinct allocation regimes that can be applied to determine sub-national budgets. We have opted to recommend one common approach for allocating carbon budgets that can be applied to all Local Authority areas. This enables straightforward compatibility between carbon budgets set at different administrative scales. For example this makes it easier for individual Local Authorities to calculate their own carbon budgets that are compatible with a budget set at Combined Authority scale. It also means that under the recommended carbon budgets, all Authorities are contributing to a common total UK carbon budget. If for example all Authorities selected the allocation regime that offered them largest carbon budget the combined UK budget would not comply with the objectives of the Paris Agreement. The common approach to allocation we recommend therefore further assures that the carbon budget adopted is Paris Agreement compatible.
We have chosen a grandfathering as our common allocation approach because, based on our analysis, it is the most appropriate and widely applicable regime within the UK.
Population and Gross Value AddedBalanced approach at current basic prices (GVA) are alternative allocation regimes. Population shares the carbon budget equally across the UK on a per capita basis. In this allocation regime the UK population  is compared to that of South Ribble  from 2011 to 2016. The carbon budget (2020-2100) for South Ribble is then apportioned based on its average proportion of the UK population for the period 2011-2016. For regions where per capita energy demand deviates significantly from the average (e.g. a large energy intensive industry is currently located there) the budget allocated may not be equitable for all regions, therefore it is not recommended as the preferred allocation. GVA is used as an economic metric to apportion carbon budgets. For example, the UK total GVA  is compared to that of South Ribble  from 2011 to 2016. The carbon budget (2020-2100) for South Ribble is then apportioned based on South Ribble's average proportion of UK GVA for the period 2011-2016. GVA can be useful as a proxy for allocation on economic value, however without an adjustment for the type of economic activity undertaken, areas with high economic ‘value’ relative to energy use can get a relatively large budget, while the inverse is true for areas with energy intensive industries, and/or lower relative economic productivity. We would therefore not recommend GVA as an appropriate allocation regime for all regions.
Table 2 presents the result outcomes for alterative allocation regimes – population and gross value added (GVA).
Table 2: Energy only CO2 budgets and annual mitigation rates for South Ribble (2020-2100) by allocation regime
|Allocation regime (% of UK Budget allocated to South Ribble
|UK BudgetAfter deducting an emissions budget for aviation, shipping and military transport of 1,518 MtCO2 (MtCO2)
|South Ribble Budget (MtCO2)
|Average Annual Mitigation Rate (%)
|Grandfathering to South Ribble from UK (0.2%)
|Population split to South Ribble from UK (0.2%)
|GVA split to South Ribble from UK (0.2%)
Pathway projections for the change in annual energy-only CO2 emissions pathways for South Ribble based on the carbon budgets in Table 2 are illustrated in Figure 3a & 3b.
Figure 3a (left): Energy related CO2 only emissions pathways (2010-2100) for South Ribble premised on carbon budgets shown in Table 2. Figure 3b (right): Energy related CO2 only emissions pathways (2010-2050) for South Ribble premised on carbon budgets shown in Table 2. y-axis shows emissions in MtCO2
3.3 Land Use, Land Use Change and Forestry emissions for South Ribble
Land Use, Land Use Change and Forestry (LULUCF) consist of both emissions and removals of CO2 from land and forests. We recommend that CO2 emissions and sequestration from LULUCF are monitored separately from the energy-only carbon budgets provided in this report. South Ribble should increase sequestration of CO2 through LULUCF in the future, aligned with Committee on Climate Change's high level ambition of tree planting, forestry yield improvements and forestry management . Where LULUCF is considered, we recommend it compensate for the effects of non-CO2 greenhouse gas emissions (within the geographical area) that cannot be reduced to zero, such as non-CO2 emissions from agriculture.
3.4 Non-CO2 Emissions
The IPCC SR1.5 report identifies the importance of non-CO2 climate forcers (for instance methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), sulphur dioxide (SO2) and black carbon) in influencing the rate of climate change. However, a cumulative emission budget approach is not appropriate for all non-CO2 greenhouse gases, as the physical and chemical properties of each leads to differing atmospheric lifetimes and warming effects . There are also substantial relative uncertainties in the scale, timing and location of their effects.
We do not provide further analysis or a non-CO2 emissions reduction pathway in this report. However the global carbon budget in the IPCC Special Report on 1.5ºC, that our analysis is based on, assumes a significant reduction in rate of methane and other non-CO2 emissions over time. Therefore to be consistent with carbon budgets South Ribble should continue to take action to reduce these emissions.
The Department of Business Energy and Industrial Strategy’s Local Authority emissions statistics do not at this time provide non-CO2 emissions data at the regional level. Given the absence of robust non-CO2 emissions data, any non-CO2 emissions inventory by other organisations at scope 1 and 2 for South Ribble may form the basis of monitoring and planning for these emissions. We recommend considering the adoption of a LULUCF pathway that includes CO2 sequestration sufficient to help compensate for non-CO2 emissions within South Ribble's administrative area.
The results in this report show that for South Ribble to make its fair contribution to delivering the Paris Agreement's commitment to staying “well below 2°C and pursuing 1.5°C” global temperature rise, then an immediate and rapid programme of decarbonisation is needed. At 2017 CO2 emission levelsBased on South Ribble's 2016 CO2 emissions (excluding aviation, shipping, process CO2 emissions from cement production and those from LULUCF)., South Ribble will exceed the recommended budget available within 6 years from 2020. To stay within the recommended carbon budget South Ribble will, from 2020 onwards, need to achieve average mitigation rates of CO2 from energy of around -13.9% per year. This will require that South Ribble rapidly transitions away from unabated fossil fuel use. For context the relative change in CO2 emissions from energy compared to a 2015 Paris Agreement reference year are shown in Table 3.
Table 3: Percentage reduction of annual emissions for the recommended CO2-only pathway out to 2050 in relation to 2015
|Reduction in Annual Emissions (based on recommended pathway)
The carbon budgets recommended should be reviewed on a five yearly basis to reflect the most up-to-date science, any changes in global agreements on climate mitigation and progress on the successful deployment at scale of negative emissions technologies.
These budgets do not downscale aviation and shipping emissions from the UK national level. However if these emissions continue to increase as currently envisaged by Government, aviation and shipping will take an increasing share of the UK carbon budget, reducing the available budgets for combined and local authorities. We recommend therefore that South Ribble seriously consider strategies for significantly limiting emissions growth from aviation and shipping. This could include interactions with the UK Government or other local authority and local enterprise partnership discussions on aviation that reflect the need of the carbon budget to limit aviation and shipping emissions growth.
CO2 emissions in the carbon budget related to electricity use from the National Grid in South Ribble are largely dependent upon national government policy and changes to power generation across the country. It is recommended however that South Ribble promote the deployment of low carbon electricity generation within the region and where possible influence national policy on this issue.
We also recommend that the LULUCF sector should be managed to ensure CO2 sequestration where possible. The management of LULUCF could also include action to increase wider social and environmental benefits..
5. Reference List
- United Nations, Paris Agreement, U. Nations, Editor. 2015, United Nations: https://unfccc.int/process-and-meetings/the-paris-agreement/the-paris-agreement.
- Masson-Delmotte, V., et al., Global warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change,. 2018, IPCC: https://www.ipcc.ch/sr15/.
- Anderson, K. and A. Bows, Beyond 'dangerous' climate change: emission scenarios for a new world. Philos Trans A Math Phys Eng Sci, 2011. 369(1934): p. 20-44.
- Kuriakose, J., et al., Quantifying the implications of the Paris Agreement for Greater Manchester. 2018, Tyndall Centre for Climate Change Research: https://www.research.manchester.ac.uk/portal/en/publications/quantifying-the-implications-of-the-paris-agreement-for-greater-manchester(d2e50584-952e-472b-a2b0-1c7e7d1651e1).html.
- IPCC, Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, R.K. Pachauri and L.A. Meyer, Editors. 2014, IPCC: https://www.ipcc.ch/report/ar5/syr/. p. 151.
- Davies, E., et al., Quantifying Greenhouse Gas Emissions 2017: https://www.theccc.org.uk/wp-content/uploads/2017/04/Quantifying-Greenhouse-Gas-Emissions-Committee-on-Climate-Change-April-2017.pdf.
- Government, H., Climate Change Act 2008 (c.27). 2008: http://www.opsi.gov.uk/acts/acts2008/ukpga_20080027_en_1.
- Belcher S, Boucher O, and Sutton R., Why results from the next generation of climate models matter. 2019, Carbon Brief: https://www.carbonbrief.org/guest-post-why-results-from-the-next-generation-of-climate-models-matter.
- Fernandez Pales, A. and Leung Y., Technology Roadmap - Low-Carbon Transition in the Cement Industry. 2018, International Energy Agency: https://webstore.iea.org/technology-roadmap-low-carbon-transition-in-the-cement-industry.
- Anderson K and Broderick J., Natural gas and climate change. 2017: https://www.research.manchester.ac.uk/portal/files/60994617/Natural_Gas_and_Climate_Change_Anderson_Broderick_FOR_DISTRIBUTION.pdf.
- Walsh, C., S. Mander, and A. Larkin, Charting a low carbon future for shipping: A UK perspective. Marine Policy, 2017. 82: p. 32-40.
- BEIS, UK local authority carbon dioxide emissions estimates 2017, E.a.I.S. Department for Business, Editor. 2019, Office of National Statistics: https://www.gov.uk/government/statistics/uk-local-authority-and-regional-carbon-dioxide-emissions-national-statistics-2005-to-2017.
- Department for Business Energy and Industrial Strategy, Final UK greenhouse gas emissions national statistics: 1990-2017. 2019: https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/776085/2017_Final_emissions_statistics_-_report.pdf.
- Department for Business Energy and Industrial Strategy, 2018 UK GREENHOUSE GAS EMISSIONS, PROVISIONAL FIGURES BEIS, Editor. 2019: file:///C:/Users/mbgnhcj2/AppData/Local/Temp/2018-provisional-emissions-statistics-report.pdf.
- Park, N., United Kingdom population mid-year estimate, O.f.N. Statistics, Editor. 2018, Office for National Statistics: https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationestimates/timeseries/ukpop/pop.
- Nash, A., Population projections for local authorities: Table 2 O.f.N. Statistics, Editor. 2018, Office for National Statistics: https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2.
- Fenton, T., Regional economic activity by gross value added (balanced), UK: 1998 to 2017 O.f.N. Statistics, Editor. 2018, Office for National Statistics: https://www.ons.gov.uk/economy/grossvalueaddedgva/bulletins/regionalgrossvalueaddedbalanceduk/1998to2017.
- Brown, K., et al., Land use: Reducing emissions and preparing for climate change 2018, Committee on Climate Change: https://www.theccc.org.uk/publication/land-use-reducing-emissions-and-preparing-for-climate-change/.
- IPCC, Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, T.F. Stocker, D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley Editor. 2013: https://www.ipcc.ch/report/ar5/wg1/.