Is Bitcoin bad for the environment? Targeting ESG-friendly crypto investments
Are you worried about climate change, but also have some crypto coins jingling in your digital wallet? Might seem a bit weird, right? Like your financial and moral compasses are giving you contradictory readings.
It’s true that Bitcoin gets a bad rap for using a shocking amount of energy—on par with many countries. But the truth about cryptocurrency energy usage is more nuanced than you might think. And believe it or not, you can invest in crypto responsibly without creating a gigantic carbon footprint. In other words, crypto can be part of an ESG-friendly portfolio.
- Cryptocurrency has a reputation for being an energy hog.
- Bitcoin and other proof-of-work blockchains emit more carbon than proof-of-stake networks like Ethereum.
- Other energy considerations include transaction volume, hash rates, mining difficulty, and cooling requirements.
Let’s take a look at the intersection of digital assets and environmental, social, and governance investing.
What is ESG investing, and how can crypto fit in?
ESG investing refers to the practice of investing in companies or assets that have a positive impact on the environment, society, or governance. Crypto investors can consider blockchain projects that seek to minimize their carbon footprint, have positive social impact, or practice especially good governance.
- Investing in crypto for environmental impact means choosing energy-efficient cryptocurrencies, understanding how much energy is used by a cryptocurrency’s mining practices, and supporting eco-friendly blockchain projects.
- Crypto investing for social impact means supporting blockchain projects that are fully decentralized, foster financial inclusion, or support ethical working conditions.
- Cryptocurrency investing for governance aligns with principles of decentralization and autonomy. Crypto holders can use governance tokens to actively participate in decision-making concerning a blockchain project—similar to shareholders voting their proxy cards.
What makes cryptocurrency an energy hog?
Every blockchain or cryptocurrency network requires energy, although how the energy is used (and how much is used) can differ significantly across blockchains.
Consensus mechanism. The consensus mechanism used by a blockchain, either proof-of-stake or proof-of-work, is the most important factor in determining its energy consumption. A blockchain network’s consensus mechanism simply dictates how the network operates. It can enable competition among network participants based on computing power or token holdings.
A cryptocurrency that uses the proof-of-work protocol requires miners to compete for crypto rewards by amassing computing resources. A blockchain that uses proof-of-stake obligates validators to stake—that is, agree not to trade or sell—their cryptocurrency.
Crypto mining is highly energy intensive, while staking generally is not. The choice of consensus mechanism is the biggest driver of a blockchain’s energy use.
Transaction volume. The busiest blockchains generally use the most energy. Think of road traffic. The more vehicles on a highway, the more energy is being used. Proof-of-work blockchains especially use more energy as the transaction volume rises, because more transactions boost the required computing power.
Hash rate. The hash rate—a technical term that denotes the speed at which computations are performed—impacts the energy consumption of a blockchain. Miners that achieve high hash rates are conducting many calculations per second, and consuming more energy accordingly.
Mining difficulty. Proof-of-work blockchains with high mining difficulty—those that require significant computing power to successfully mine a block of transactions—use the most energy. Blockchains with many competing miners in the network have the greatest mining difficulty.
Cooling requirements. Proof-of-work mining systems can generate significant heat, requiring advanced cooling solutions. These cooling systems are essential to prevent hardware from overheating and maintain optimal mining performance, but require additional energy to operate.
Bitcoin, a proof-of-work blockchain, uses the most energy of any cryptocurrency network. Ethereum is a major cryptocurrency network that recently cut its energy use by an estimated 99.9% by switching its consensus protocol from proof-of-work to proof-of-stake.
What other factors determine a blockchain’s big-picture impact on the environment?
Energy use may be the biggest factor contributing to cryptocurrencies’ environmental impact, but it’s not the only one.
- Energy sources. A blockchain that gets most of its energy from renewable or alternative sources has less environmental impact than a blockchain that runs on fossil-based fuels.
- Energy prices. Cheap energy can have an adverse impact, as miners may find it economically viable to consume inexpensive electricity with little or no regard for conservation or efficiency.
- Hardware efficiency. Proof-of-work miners using energy-efficient hardware can reduce the carbon emissions of a blockchain network without sacrificing computing power.
- Cryptocurrency prices. An attractive cryptocurrency price can boost the number of active miners. More miners on a proof-of-work blockchain generally results in more carbon emissions.
- Block rewards. Just like high token prices, attractive block rewards can increase the environmental impact of a cryptocurrency network, as more miners compete to earn them.
The bottom line
The big takeaway here is that you can be a responsible investor and own cryptocurrency. Just do your research and choose the digital assets that are best aligned with your ESG values. The types of digital assets in your portfolio, and what you do with them, are key factors.