Aggressive action to address climate change could save the world $145 trillion
Posted on 26 March 2020 by dana1981
This is a re-post from Yale Climate Connections
A respected research group, Project Drawdown, finds that deploying solutions consistent with meeting the Paris climate targets would cost tens of trillions of dollars globally. But crucially, those outlays would also yield long-term savings many times larger than the up-front costs.
The new 2020 Drawdown Review includes economic estimates of the capital costs to deploy each solution, net lifetime operation costs, and lifetime profits from the sale of products produced by the agricultural solutions. The key conclusion is that while the upfront costs are substantial – around $25 trillion globally – the resulting savings and profits are five to six times larger.
Project Drawdown is a nonprofit organization that evaluates climate solutions nations could deploy to reach the point where greenhouse gas levels in the atmosphere begin to decline (the threshold of carbon “drawdown”). Achieving drawdown will require phasing out the use of fossil fuels that add carbon and strengthening the natural sinks that absorb carbon. In 2017, the group published the New York Times bestselling book Drawdown, which described the 100 most substantive solutions to global warming based on a comprehensive scientific review by the project’s research team.
The new Drawdown Review considers two potential pathways. Scenario 1 envisions how climate solutions could be deployed to meet the Paris target of staying below 2 degrees Celsius (3.6 degrees Fahrenheit) hotter than pre-industrial temperatures, in which the point of carbon drawdown is reached in the mid-2060s. Scenario 2 is more ambitious, keeping global temperatures below the aspirational Paris target of 1.5 degrees C (2.7 degrees F) by achieving carbon drawdown in the mid-2040s. In the more aggressive Scenario 2, global economic savings are $145 trillion, with an additional $29 trillion in profits generated from the agricultural sector – the latter on its own offsetting the initial $28 trillion capital costs. Both the Scenario 1 and 2 savings estimates are calculated over the life times of the solutions.
Better public health savings not factored in
Without even accounting for the many trillions of dollars saved by improving public health and avoiding climate damages, the researchers estimate that keeping global temperatures below the 1.5 degrees C target would result in a global net economic savings of $145 trillion.
In a few cases, the savings come almost immediately. For example, LEDs may cost more than the less efficient light bulbs they replace, but because they last so much longer, buying an LED is cheaper than repeatedly replacing equivalent shorter-lived bulbs. The Drawdown Review estimates that replacing older lighting technologies with LED bulbs would save $2 trillion dollars globally in capital costs, plus another $5 trillion in the long term as a result of improved energy efficiency.
Most of the other climate solutions in the Drawdown Review have significant capital costs that are more than offset by lifetime use savings and/or profits. Solar panels and wind turbines, for example, have much lower operation and maintenance costs than the fossil fuel power plants they replace. As a result, the Drawdown Review estimates that over their lifetimes, the onshore wind turbines and utility-scale solar panels deployed in Scenario 2 would save $8.5 trillion and $28 trillion globally, respectively, along with another $13 trillion saved by distributed solar panels (e.g. installed on building roofs). Some of the other most cost-effective solutions include improving building insulation, which would save another $23 trillion by increasing energy efficiency, and electric cars, which would save $16 trillion by replacing less efficient gasoline-powered vehicles.
Much of the difference between the two Drawdown Review scenarios boils down to the speed at which wind and solar energy are deployed. In the more aggressive Scenario 2, onshore wind turbines and utility-scale photovoltaic panels are the two largest sources of reduced carbon emissions. This scenario envisions the share of global electricity from wind increasing sixfold, from 4.4% today to 27% by 2050, and solar farms exploding from just over 1% today to 25% in 2050. In Scenario 1, each would supply about 20% of global electricity by 2050.
No single ‘silver bullet’ solution to climate change
Some of the other top climate solutions in the Drawdown Review may come as a surprise to some. They include reducing food waste, improving health and education, eating plant-rich diets, refrigerant management, and tropical forest restoration.
- As a recent IPCC special report noted, 25-30% of the food produced worldwide is wasted. In developed countries, consumers throw out excess food, while in developing countries much of the waste results from a lack of refrigeration, causing products to spoil before reaching consumers. The IPCC report estimated that food waste costs the global economy about $1 trillion per year and accounts for about 10% of greenhouse gas emissions from food systems.
- Around one-fifth of global greenhouse gas emissions stem from the food we eat. As Drawdown put it, “If cattle were their own nation, they would be the world’s third-largest emitter of greenhouse gases.” Shifting toward plant-based diets can thus significantly reduce emissions while also improving public health.
- Population growth is another difficult factor to address, but a key contributor to overall greenhouse gas emissions. Drawdown notes that “Women with more years of education have fewer and healthier children, and actively manage their reproductive health.”
- Refrigerators and air conditioners use chemical refrigerants that are often strong greenhouse gases. The chemical refrigerants that created the hole in the ozone layer were replaced by hydrofluorocarbons, which don’t deplete ozone, but are 1,000-9,000 times stronger greenhouse gases than carbon dioxide. Substitutes including natural refrigerants like propane and ammonium are now available, and Drawdown concludes that their deployment would significantly curb global warming.
- Tropical forests have been depleted in recent years, once covering 12% of the world’s landmass, but now down to just 5%. Drawdown envisions 287 million hectares (700 million acres – more than one-third of the land area of the lower 48) being restored to intact forest. This goal may be hampered by the recent finding that climate change is degrading tropical forests through increased extreme heat and droughts.
The diversity of the Project Drawdown solutions makes clear that there is no “silver bullet” to solve the climate crisis – only silver buckshot. Even the biggest individual solutions like onshore wind turbines contribute less than 10% to the overall carbon reductions in the Drawdown scenarios. That’s why Drawdown evaluates 100 different solutions.
The good news is that these studies show that climate solutions are investments with a high rate of return. And if the world makes those investments, the Paris targets could still be within reach.
In addition to the Public Health Savings that are not part of the calcualtion, more rapid reduction of climate change impacts and reducing the maximum impact would reduce suffering and save lives in developing nations.
Climate change threatens the sustainability of regional food production and provision of safe water. Reducing the magnitude of climate change reduces the costs of trying to reduce the suffering and save the lives of those negatively affected.
Reducing climate change impacts would make it easier and cheaper to achieve and improve on all of the Sustainable Development Goals. And that is a Very Good Thing, contrary to the interests of pursuers of perceptions of superiority relative to Others in competitions for popularity and profit.
"In developed countries, consumers throw out excess food"
Yes, however much is also wasted in the supply chain. Supermarkets often throw out anything past its best before date, although such food is still edible and generally fine, and damaged or not perfect looking fruit and vegetables is often thrown out because its hard to sell.
nigelj's point is an important awareness and understanding. Additional awareness and understanding is that wasted food can be put to better use ... but there is no Profit to be made doing that.
I have taken left over platters of food from meetings and conferences to a nearby charity that provides food or shelter. And there are some restaurant operators who donate their end of day food, prepared foods that they can't keep to sell the next day, to charity.
And in several cities in Canada charitable groups have recently set up the ability to get grocery store food that would otherwise be wasted delivered to people who 'need food', people without the wealth to afford adequate basic food or shelter or clothing or a job that pays enough - many of the desperate work a job or even 2 but do not earn enough for a decent life - and the most desperate are the excess people that the economy has no use for.
The people doing this good work expend their personal effort without earning any money. And that is the root problem. Charitable efforts are often not profitable. They certainly do not earn the return on investment that Investors look for ... immediate high rates of personal return being more desired than benefits for others in the future. And that is the root of the insidiously incorrect application of 'Discount Rates' to evaluations of the merit of correcting harmful unsustainable economic developments like the burning up of non-renewable buried ancient hydrocarbons.