This is 50 per cent higher than the additional investment needed to meet a 2C limit, the paper says. It is the first to assess the difference in investments and monetary flows between the two temperature goals of the Paris Agreement, the lead author tells Carbon Brief.
The paper also finds a far faster increase in low-carbon energy and energy efficiency investment would be needed to limit warming to 1.5C. Meanwhile, coal investment would not change substantially between a 1.5C and 2C scenario, the lead author says, since a dramatic downscaling of coal investments is already required to meet the 2C goal.
The Paris Agreement says countries should scale up finance to the low-carbon economy. Article 2.1(c) of the deal commits signatories to:
“Making finance flows consistent with a pathway towards low greenhouse gas emissions and climate-resilient development.”
The new paper, published today in Nature Energy, aims to quantify the scale of financial flows that may be required to meet the overarching temperature goals of the Paris deal. It assesses how much would be needed for four scenarios.
In the first, countries meet the targets laid out in their current individual climate pledges (“nationally determined contributions”, or NDCs). The second looks at meeting the Paris goal of limiting global warming to “well below 2C”. The third scenario considers a world where the aspirational Paris target of limiting warming to 1.5C is met. These are compared to a business-as-usual scenario with no further tightening of current climate and energy policies.
The main thing is redirecting existing energy investment from fossil fuels to renewables. Accelerating clean investment will overtake declining fossil fuel investment within 10 years.
Sam Frankhauser, director, Grantham Research Institute on Climate Change and the Environment
The study combines the results from six different integrated assessment models (IAMs) to make its findings more robust. Each model represents the global energy system and the various mitigation options for the future in a slightly different way. All scenarios are in line with a “middle-of-the-road” future where social, economic, and technological trends broadly follow their historical patterns (SSP2).
The findings show an extra $132bn investment in low-carbon technology and energy efficiency is needed between 2016 and 2030 to meet the NDC targets, compared to a business-as-usual scenario.
The additional investments needed to meet climate pledges amounts to less then a tenth of the $1,700bn invested in the global energy system in 2016, according to the International Energy Agency (IEA).
It is also comparable in scale to $100bn per year in climate finance that rich countries have promised developing countries to help fund their climate efforts.
David McCollum, senior research scholar at the International Institute for Applied Systems Analysis (IIASA) and lead author of the paper, says this means the $100bn pledge would go a long way towards developing countries meeting their NDC targets. He tells Carbon Brief:
“It’s something that, in theory, could be done, if priorities were set in the right way…But as we know from this research and other research, the NDC targets don’t get us anywhere near where we need to be for 2C, and certainly not 1.5C. It starts us on the right track, but it’s already missing the mark in terms of emissions reductions by 2025-2030.”
The chart below shows the results of the investment gap found by the study, as well as the much higher average annual investment needed up to 2050. This is due to the need for clean energy investments to accelerate beyond 2030, raising the annual average figure.
2C vs 1.5C
For the 2C target, the extra annual investment needed in low-carbon energy and energy efficiency between now and 2030 increases to $303bn. Low-carbon investments would overtake fossil fuel investments as early as 2025 and grow rapidly thereafter, shown in the figure below. Around two-thirds of such supply side energy investments today are fossil-related, with the remaining third in low carbon.
For the 1.5C target, an additional $458bn would be needed, the study says. This would mean a “step-change” in terms of the amount invested per tonne of CO2 avoided, it adds.
The extra investment effort needed going from 2C to 1.5C was surprising, says McCollum:
“Going this extra bit from 2C to 1.5C, it’s only a few hundred gigatonnes of carbon, but the investment efforts – particular in this near-term out to 2030 – what it means in terms of ramping up renewables and efficiency is much greater. So it’s non-linear in other words: there’s this tipping point if we want to move beyond 2C and go to 1.5C.”
It is also important to note that limiting global temperatures to 1.5C is expected to have economic advantages. One paper published earlier this year found per capita GDP would be 5 per cent higher by 2100 if temperatures are stabilised at 1.5C rather than 2C.
One thing that does not change substantially between the 1.5C and 2C scenarios, however, is the need to move away from unabated coal investments, says McCollum.
Here, the difference going from 2C to 1.5C is even fewer investments into oil and natural gas, the paper finds. In some models, the authors found some limited room for natural gas investments with carbon capture and storage (CCS). Meanwhile, the share of investments going to electricity transmission and distribution, already currently around a quarter of all energy investments, will continue to rise.
Prof Sam Fankhauser, director of the Grantham Research Institute on Climate Change and the Environment, says the key point from the new study is the need to use existing capital flows differently, rather than mobilising additional capital. He tells Carbon Brief:
“We need some extra investment, too, but the main thing is redirecting existing energy investment from fossil fuels to renewables. So no surprise, then, that accelerating clean investment will overtake declining fossil fuel investment within 10 years.”
He adds that the same redirection of capital is needed in other areas, such as transport, industry and urban design.
This story was published with permission from Carbon Brief.
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