Some are blaming sliding prices on one specific contagion, a collapsing “stablecoin” called TerraUSD which is supposed to be pegged to the US dollar. But the current cryptocurrency market crash is more likely a combination of lots of factors.
For years, interest rates have been close to zero, making bank bonds and treasury bills look boring as investments, while cryptocurrencies and digital non-fungible tokens (or NFTs) linked to artwork, look appealing. However, the US Federal Reserve and the Bank of England recently increased interest rates by the largest amount since 2000.
The most polluting “proof-of-work” cryptocurrencies, like bitcoin, ethereum and dogecoin, together use around 300 terawatt-hours (TW/h) of mainly fossil-fuelled electricity each year. Bitcoin has an annual carbon footprint of around 114 million tonnes. That’s roughly comparable to 380,000 space rocket launches, or the annual carbon footprint of the Czech Republic.
Proof-of-work mining can be thought of as a controlled way of wasting energy. The process involves specialist computers repeatedly taking random shots at guessing a long string of digits. The amount of computing power dedicated to this effort is referred to as the network’s hash rate.
If the hash rate drops for any reason, because of power cuts or price dips, for example, the difficulty of the guessing game is automatically adjusted to ensure the network can find a new winner every ten minutes. Each winner then gets a go at verifying transactions occurring on the network and is awarded 6.25 newly minted bitcoins.
Whether the guessing game is profitable or not depends on how much the mining outfit has paid to set up their computers and for the energy to run them. Recent research indicates that when China cracked down on bitcoin mining in August 2021, bitcoin’s carbon intensity increased by around 17%, with only 25% of bitcoin miners using renewable energy and over 60% relying on coal and natural gas. The higher the cryptocurrency price, the more cash mining outfits are prepared to waste on this electricity, until the costs of winning outweigh the rewards.
With the bitcoin price falling, the financial incentive to waste energy for mining bitcoin should be lower. In theory, that’s good for the climate. But, surprisingly, the network’s hash rate (and carbon footprint) remains very close to its all-time high, averaging around 200 quintillion hashes per second. The scale of this continued interest means bitcoin mining at current prices is probably still profitable. But for how long?
TIPPING POINTS AND DEATH SPIRALS
Bitcoin’s value has temporarily dropped below the estimated cost of production several times before without significant long-term damage to the hash rate. But should the market stagnate for long enough, proof-of-work cryptocurrencies will start to see an increasing number of miners capitulate.
Miners with the highest costs are likely to sell off their bitcoin holdings as profitability drops, creating even more selling pressure in the market. Short-term capitulation among smaller mining outfits with high costs (often using intermittent renewable energy) is normal.
But a domino effect with major mining firms closing down one after another could cause crypto prices, and the network’s carbon emissions, to drop rapidly towards zero. This event is called a bitcoin death spiral in crypto-speak.
Besides bitcoin mining price predicaments, there are other potential tipping points to consider. Many big investors, especially those who bought in at higher prices, are currently underwater—weighed down with big bags of bitcoin.
El Salvador’s president, Nayib Bukele, has reportedly just brought his country’s total reserve of bitcoin up to around 2,300, or about US$72 million at current prices. His country’s crypto losses are adding to fears of an imminent debt default that would cause significant pain to those who had no say in their leader’s gamble.
BITCOIN BAN OR BOYCOTT
Prominent investors may find bitcoin bear markets a bore. But research shows the environmental losses from high-priced cryptocurrencies are far more disturbing.
The damage caused by bitcoin mining disproportionately affects poor and vulnerable communities, as mining outfits and crypto developers take advantage of economic instability, weak regulations and access to cheap energy. Locals wanting to use these resources for productive purposes can be priced out by bitcoin miners. These communities also tend to face the sharp end of the climate crisis, which crypto mining fuels.
In the aftermath of the 2008-10 global financial crisis, governments promised a crackdown on toxic financial instruments with make-believe valuations. For the global climate and a stable economy, cracking down now on crypto will be a boon for everyone. But if environmental regulation efforts are not globally coordinated or far-reaching enough, crypto’s climate contagion will continue to grow.