More attention needs to be given to negative emissions and more research is needed.
Many countries are committing to reach zero net greenhouse gas emissions by 2050. France, the UK, Sweden, Denmark and New Zealand have all made it legally binding (although New Zealand left a loophole for methane from cows). Now, the EU is debating a law that includes a net zero target for all 27 member countries. Joe Biden has said, as president, he will commit the USA to zero net by 2050.
In September, President Xi Jinping announced that China would aim to be “carbon neutral” by 2060. This would be a big turnaround for the world’s biggest emitter. It would strand some assets that are almost new. China is good at taking on huge challenges, as we saw with its successful battle with COVID-19.
Last month, the new Japanese PM Yoshihide Suga launched his era by committing to net zero emissions by 2050. Two days later, President Moon Jae-In announced the same commitment for South Korea.
The main means for countries to cut their emissions are by now clear. They should phase out coal-burning power stations and many powered by gas. Wind and solar will power the new electricity system, the intermittency smoothed by storage in batteries, pumped hydro and a variety of new technologies. (Some countries have nuclear power, hydro or geothermal as well.) Cars and much other road transport will switch to electric power. Buildings will be better insulated, heated with electric heat pumps rather than gas and lit with more efficient lighting. Industries, including agriculture, will move towards lower-carbon approaches. Carbon capture and sequestration will eliminate CO₂ from some oil production and heavy industry.
A lot of emissions will remain. Some coal-fired power stations will still operate. Transition to electric vehicles will not be complete. Most ships will still be powered by oil, although Bloomberg thinks some will use liquid natural gas. More rail lines will be electric, but diesel will still haul many freight trains. Some may use battery-electric power or hydrogen fuel cells. Flying is difficult to decarbonise and will grow as a source of emissions. Barring strong incentives, most aviation fuel will still be based on petroleum. Battery-electric power is likely among lighter planes. Energy use in buildings will increase with economic and population growth. Much will be electric, for instance powering air conditioners. Gas will still be used for cooking, and some gas (and even some oil) for heating. Many parts of industry, such as making steel, cement, petrochemicals and plastics, will only decarbonise slowly.
Zero net has a flipside: “negative emissions”, the pulling of greenhouse gases permanently out of the atmosphere. For every tonne of CO₂ that is still emitted, a tonne (or its equivalent in the other greenhouse gases) must be taken out of the atmosphere. This has attracted much less attention than emissions reduction.
The amount of greenhouse gases that must be drawn down is not clear at this point, but it will be huge. Analysis for the IPCC in 2018 found the median estimate of carbon dioxide that must be drawn out of the atmosphere by the end of this century to meet the Paris goals is 730 billion tonnes, an enormous figure.
Many ways to withdraw greenhouse gases have been proposed. Most apply to carbon dioxide only.
The simplest and cheapest means is to plant more trees. This is part of New Zealand’s plan. However, the scale must be huge to make much difference. Areas as big as fair-sized countries need to be planted, probably clashing with use of land for agriculture and grazing.
Another idea is to plant crops or trees (or to grow algae) to be harvested and made into biofuels, replacing fossil-based fuels. This is a possible way to replace fossil fuels in aviation. Yet another is to capture carbon dioxide directly from the air and make fuels from it by catalytic reaction with steam, powered by solar energy. A Canadian company, Carbon Engineering, is a pioneer in this. CO₂ could also be captured directly from the air and from there sequestered. A Swiss firm called Climeworks has a pilot plant.
Scientists talk about “enhanced weathering”, where CO₂ reacts with silicate rocks to form carbonates. This might be done in the sea. A variant involves spreading silicate rock powder on farmland where it will weather and add carbon to the soil.
There is interest in seeding areas of ocean with iron to stimulate the growth of algae. This has been shown to work and to drag down substantial amounts of carbon. However, it is one of a class of “geoengineering” ideas that many fear would have serious adverse consequences.
Some of the ways to draw down greenhouse gases are expensive and would only work commercially with a high price on carbon emissions.
More attention needs to be given to negative emissions and more research is needed. The latest Economist said only just over US$80 billion a year is spent on climate research and innovation, by governments, venture funds and energy companies together. This is only about double the R&D spending of a single company, Amazon. It is not enough.
Ralph Evans AO is author of “Toast: Climate change is doing enormous harm. Why do many Australians deny it? Can we avoid the worst effects?”. He is a former head of Austrade and co-founded the Australian arm of the Boston Consulting Group.
Comments
10 responses to “The Flipside of Zero Net Emissions”
The author’s definition of negative emissions is in fact net zero ie for every tonne emitted a tonne to be removed. Net negative emissions must be the only policy and necessitates that more than a tonne is removed for every tonne emitted since current atmospheric concentrations are causing accelerated global warming and must be accordingly reduced. A question for the advocates of net zero: are current concentrations causing accelerated global warming?
If emissions continue to raise atmospheric CO2 by about 2 to 3 ppm/year during 2020-2050, by 2050 atmospheric levels will be about 60 to 90 ppm higher than the current 412 ppm. If the equivalent effect of all greenhouse gases is considered the atmospheric CO2 equivalent will be approaching 600 ppm CO2-equivalent. such a level would render ice sheets melt-down irreversible. The 2050 target is therefore inconsistent with scientific reality. The only other option would be attempts at global CO2 draw-down (sequestration). There is no evidence governments are attempting such measures on the required scale.
Andrew,
I totally agree with you. The target is so far down the track that it holds future Governments to account.That is literally kicking the can down the road.
Stephen, there is no future for our offspring if we don’t at least aim for negative emissions some time sooner than later . It can be done if all of us put our minds to solving the problem of energy sources other than fossil fuels. If we can aim to deal with COVID-19 we can tackle Climate Change.
Gavin O’Brien FRMetS
You can give as much attention as you like to “negative emissions”, and net zero will still remain a fairy story. It’s fitting that (supposedly) the concept crystallised at a green feminist activists’ retreat in 2013.
There’s simply no practical way, whereby the “emissions reductions” could ever be enough, for the “negative emissions” to then wind us back to “net zero”. Besides which, the “negative emissions” B are simply not fungible with the “emissions reductions” A. They are less permanent, and harder to measure reliably. Besides which, even if A – B did be 0, there’s no guarantee that nullity would arrest global warming.
Here we are, an advanced nation of 26 million, and yet one must be either “for” or “agin” net zero. There is no independent volition, to check under the bonnet. “Net zero” comes to us all the way from the United Nations, so it must be true. Yeah, just like the “sustainable development goals”.
“It’s fitting that (supposedly) the concept crystalized at a green feminist activists’ retreat in 2013.”
This is not the case. Negative emissions and geoengineering have been considered in detail by the science community, including the Australian Academy of Science
https://www.science.org.au/news-and-events/news-and-media-releases/controversial-geoengineering-real-solution-global-warming
Clearly enough, I thought, I mean net zero itself, and my citation is this:
https://www.climatechangenews.com/2019/09/16/net-zero-story-target-will-shape-future/
So we just watch blithely as Earth self combusts…
Ignore my technical queries, and have me ending the planet. By all means, reduce emissions, do negative emissions, energy transition, make new kinds of jobs, let’s do it.
I’m simply saying, it’s risky, to tweak science into a creed. Take Net Zero literally, it’s only a hop, to Garnaut’s “Post Carbon Superpower”. That’s where Albanese Labor is at.
And so due to the risks of creeding the science we can only stand back and blithely watch Earth combust.
You assume growth of both population and ‘the economy’, but both must slow and reverse (slowly).