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Heads of states at COP28 summit in Dubai.
Heads of states at COP28 summit in Dubai. Credit: Alamy Stock Photo
1.5C
16 August 2024 15:38

Meeting 1.5C warming limit hinges on governments more than technology, study says

Ayesha Tandon

08.16.24

Ayesha Tandon

16.08.2024 | 3:38pm
1.5CMeeting 1.5C warming limit hinges on governments more than technology, study says

The ability of governments to implement climate policies effectively is the “most important” factor in the feasibility of limiting global warming to 1.5C, a new study says. 

The future warming pathways used by the Intergovernmental Panel on Climate Change (IPCC) suggest that holding warming to 1.5C is unlikely, but still possible, when considering the technological feasibility and project-level economic costs of reaching net-zero emissions.

However, the new study, published in Nature Climate Change, warns that adding in political and institutional constraints on mitigation make limiting warming to 1.5C even more challenging. 

They find that the most ambitious climate mitigation trajectories give the world a 50% chance of limiting peak global warming to below 1.6C above pre-industrial temperatures. However, adding ”feasibility constraints” – particularly those involving the effectiveness of governments – reduces this likelihood to 5-45%.

The study shows that, thanks to advances such as solar, wind or electric vehicles, “the technological feasibility of climate-neutrality is no longer the most crucial issue”, according to an author on the study. 

Instead, he says, “it is much more about how fast climate policy ambition can be ramped up by governments”.

Emissions scenarios

In 2015, almost every country in the world signed the Paris Agreement – with the aim to limit global warming to “well below” 2C above pre-industrial levels, with a preference for keeping warming below 1.5C.

Since then, most countries have set net-zero targets and many are making progress towards achieving them. However, as the planet continues to warm, some scientists are questioning whether it is still possible to limit warming to 1.5C, the new study says.

The IPCC’s special report on 1.5C, published in 2018, included a cross chapter box on the “feasibility” of this temperature limit. The report says there are six components of feasibility that could inhibit the world’s ability to limit warming to 1.5C, as shown in the image below.

The six components of feasibility that could inhibit the world’s ability to limit warming to 1.5C, according to the IPCC”s special report on 1.5C.
The six components of feasibility that could inhibit the world’s ability to limit warming to 1.5C, according to the IPCC”s special report on 1.5C. Source: IPCC SR1.5, cross chapter box 3.

The IPCC’s working group three report from its sixth assessment cycle explores thousands of different future warming scenarios. These scenarios are mainly generated by integrated assessment models (IAMs) that examine the energy technologies, energy use choices, land-use changes and societal trends that cause – or prevent – greenhouse gas emissions.

Fewer than 100 of these scenarios result in warming of below 1.5C with limited or no overshoot, defined as more than a 50% chance of seeing a peak temperature below 1.6C.  These are known as the “C1 scenarios”. However, these scenarios do not consider all of the feasibility constraints outlined by the IPCC.

(Furthermore, these scenarios – which run from 2019 – assume that rapid decarbonisation began almost immediately. However, in reality, emissions have continued to rise since 2020, eating into the remaining “carbon budget” for warming to be limited to 1.5C more quickly than the models assume.)

The new study investigates five constraints. The first two – geophysical and technological – focus on the constraints presented by technologies, such as the growth of carbon capture and storage, nuclear power and solar generation, and the Earth’s total geological carbon storage capacity. 

For sociocultural constraints, the study explores behavioural changes that can accelerate decarbonisation, such as reduced energy demand. The authors refer to these as “enablers”. And the “economic constraint” focuses on carbon prices.

However, the authors say the “key innovation” of their study is the inclusion of “institutional constraints”, which measure a government’s ability to “effectively implement climate mitigation policies”. 

Policy constraints

All countries have different “institutional capabilities” to enforce policies. Some countries are able to quickly and successfully implement policies, such as taxation changes or environmental regulation. Other countries – which are often less wealthy – have lower levels of governance, making it harder to implement these measures.

Dr Christoph Bertram – an associate research professor at the University of Maryland and guest researcher at the Potsdam Institute for Climate Impact Research (PIK) – is the lead author of the study. He tells Carbon Brief that the paper uses a metric called the “governance indicator” to show how fast countries are expected to decarbonise. 

The indicator is based on the speed and success with which they have achieved their past “environmental goals” – for example, reductions in the sulphur emissions of power plants – he explains. Countries that were successful in achieving these targets in the past are given higher governance scores. 

Dr Marina Andrijevic, a researcher at the International Institute for Applied Systems Analysis (IIASA), led the study introducing these governance indicators, but was not involved in the new paper.

She tells Carbon Brief that the indicator is originally from the Worldwide Governance Indicators published by the World Bank. (See more on the indicators in the guest post Andrijevic and her co-authors wrote for Carbon Brief.)

The graph below, taken from the new study, shows how governance is expected to improve over the 21st century for countries with a population of more than 25 million in 2020, according to this indicator. Each colour indicates a different world region. The grey lines indicate a “pessimistic” scenario in which governance remains frozen at 2020 levels.

Expected increases in governance over the 21st century.
Expected increases in governance over the 21st century. Only countries with a population of more than 25 million in 2020 are shown. Each colour indicates a different world region. Source: Bertram et al (2024).

The authors use global average carbon prices as a “proxy” for the overall strength of a country’s climate policy, assuming that countries with higher levels of governance will implement higher carbon prices.

They develop a range of scenarios. In their optimistic scenario, carbon prices vary, but this does not explicitly constrain emissions reductions. In the “default” scenario, both carbon prices and emissions reductions are constrained. 

In the pessimistic scenario, governance indicator values are “frozen” at their 2020 levels, meaning that governments’ ability to implement new climate mitigation policies does not improve over the 21st century. 

Bertram tells Carbon Brief that the measure is “not perfect”, but says that it gives a good approximation of “how fast decarbonisation can happen in different countries”.

Is 1.5C ‘feasible’?

The authors used existing literature to quantify how much each of the five constraints might affect the world’s ability to limit global warming. They then produced a set of different “feasibility scenarios” and assessed their future CO2 emissions using eight IAMs.

The plot below shows the minimum total global CO2 emissions that could be produced between 2023 and the date that net-zero CO2 is reached for these scenarios. In the panel “a”, on the left, each dot indicates a model result.

The column on the far left is a “pessimistic” institutional feasibility scenario, in which governance indicators do not improve beyond 2020 levels. Cumulative global CO2 emissions before net-zero here are the highest of any scenario explored.

The next column is the “default” assumption of carbon prices and emissions-reduction quantities, under four different combinations of constraints.

From left to right within this column, the combinations cover technological and institutional constraints, only institutional constraints, technological and institutional constraints with enablers and then institutional constraints with enablers.

The enablers include measures such as reduced energy demand in high income countries and increased electrification. This helps to “create more flexibility on the supply side and thus further improve the feasibility of implementation”, according to the paper.

The final column shows “optimistic” scenarios, divided between a scenario with technological constraints (left) and a “cost-effective” scenario, as used in the IPCC (right).

Panel “b” shows the likelihood, based on the 14 feasibility scenarios in panel a, of staying below 1.5C, 1.6C, 1.8C and 2.0C peak temperatures. Each bar indicates a different peak temperature. Red indicates a high likelihood of meeting the temperature target, given the level of emissions, and purple indicates a low likelihood. 

Minimum achievable carbon budget from 2023 until net-zero CO2, across 14 different feasibility scenarios.
Minimum achievable carbon budget from 2023 until net-zero CO2, across 14 different feasibility scenarios. Source: Bertram et al (2024).

In scenarios without any institutional constraints, nearly all models are able to produce scenarios which line up with the IPCC’s C1 scenarios, which have more than a 50% chance of seeing a peak temperature below 1.6C. 

However, adding institutional constraints reduces this likelihood to 5-45%.

(A peak temperature of 1.6C would not necessarily breach the long-term goal of the Paris agreement, as long as temperatures were brought back down below the 1.5C threshold by the end of the century. However, there are risks associated with overshoot – such as crossing tipping points – and it relies more heavily on large-scale implementation of negative emissions technologies.)

Under the “pessimistic” institutional constraints, the ability of countries to cut emissions is “sharply curtailed”, the authors say, resulting in only a 30-50% chance of limiting warming even to 2C above pre-industrial levels.

The study shows that “technological constraints are not a crucial impediment to a fast transition to net-zero anymore,” Bertran tells Carbon Brief.

“Thanks to the latest advances in low-carbon technology deployment, such as solar, wind or electric vehicles, the technological feasibility of climate-neutrality is no longer the most crucial issue,” Prof Gunnar Luderer – a study author and lead of the energy systems group at the PIK – added in a press release

Instead, he said, “it is much more about how fast climate policy ambition can be ramped up by governments”. 

Future warming

The findings of this study have implications for meeting the Paris Agreement 1.5C limit. “Our study does not imply that the 1.5C target needs to be abandoned,” the study says. However, it adds: 

“The world needs to be prepared for the possibility of an overshoot of the 1.5C limit by at least one and probably multiple tenths of a degree even under the highest possible ambition.”

“The 1.5C target was always something that, while theoretically possible, was very unlikely given the real-world technical, institutional, economic and political setting that determines climate policy,” says Prof Frances Moore from the department of environmental science and policy at UC Davis, who was not involved in the study.

However, she tells Carbon Brief, the finding that humanity could still limit warming to 2C is “a signal of the progress countries have made in committing to climate action”.

Dr Carl-Friedrich Schleussner – a science advisor to Climate Analytics and honorary professor at Humboldt University Berlin – tells Carbon Brief that the paper is “an important contribution to the literature”. 

However, he says the results “need to be interpreted very cautiously”. For example, he notes that the study only considers CO2 emissions and not other greenhouse gases, such as methane.

In addition, he notes that “institutional capacities affect climate action in a myriad of different ways that are not easily representable in the modelling world”. As a result, the study authors had to “settle” on an approach that “may only be partly representative of ‘real world’ dynamics and is very sensitive to modelling assumptions”. 

Moore says this is a “valuable initial study”, but makes a similar point, noting that the “implementation of institutional constraints and demand-side effects is somewhat arbitrary and ad-hoc”, such as using carbon prices as a governance indicator.

Dr William Lamb is a researcher at the Mercator Research Institute and was also not involved in the study. He tells Carbon Brief that the study results are “sobering” and says that “we need to start focusing research, policy and advocacy on the underlying institutions and politics that shape climate action”.

He adds that there are other aspects of feasibility that could be considered:

“We know that incumbent fossil fuel interests are politically powerful in many countries and are able to obstruct the implementation of climate policies, or even reverse those that are already in place. In other words, some governments may be capable, but do not want to implement ambitious climate action.”

Bertram et al (2024), Feasibility of peak temperature targets in light of institutional constraints, Nature Climate Change, doi:10.1038/s41558-024-02073-4

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