Green
Visualizing the Accumulation of Human-Made Mass on Earth
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Visualizing the Accumulation of Human-Made Mass on Earth
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The world is not getting any bigger but the human population continues to grow, consuming more and more resources and altering the very environment we rely on.
In 2020, the amount of human-made mass, or anthropogenic mass, exceeded for the first time the dry weight (except for water and fluids) of all life on Earth, including humans, animals, plants, fungi, and even microorganisms.
In this infographic based on a study published in Nature, we break down the composition of all human-made materials and the rate of their production.
A Man-made Planet
Anthropogenic mass is defined as the mass embedded in inanimate solid objects made by humans that have not been demolished or taken out of service—which is separately defined as anthropogenic mass waste.
Over the past century or so, human-made mass has increased rapidly, doubling approximately every 20 years. The collective mass of these materials has gone from 3% of the world’s biomass in 1900 to being on par with it today.
While we often overlook the presence of raw materials, they are what make the modern economy possible. To build roads, houses, buildings, printer paper, coffee mugs, computers, and all other human-made things, it requires billions of tons of fossil fuels, metals and minerals, wood, and agricultural products.
Human-Made Mass
Every year, we extract almost 90 billion tons of raw materials from the Earth. A single smartphone, for example, can carry roughly 80% of the stable elements on the periodic table.
The rate of accumulation for anthropogenic mass has now reached 30 gigatons (Gt)—equivalent to 30 billion metric tons—per year, based on the average for the past five years. This corresponds to each person on the globe producing more than his or her body weight in anthropogenic mass every week.
At the top of the list is concrete. Used for building and infrastructure, concrete is the second most used substance in the world, after water.
Human-Made Mass | Description | 1900 (mass/Gt) | 1940 (mass/Gt) | 1980 (mass/Gt) | 2020 (mass/Gt) |
---|---|---|---|---|---|
Concrete | Used for building and infrastructure, including cement, gravel and sand | 2 | 10 | 86 | 549 |
Aggregates | Gravel and sand, mainly used as bedding for roads and buildings | 17 | 30 | 135 | 386 |
Bricks | Mostly composed of clay and used for constructions | 11 | 16 | 28 | 92 |
Asphalt | Bitumen, gravel and sand, used mainly for road construction/pavement | 0 | 1 | 22 | 65 |
Metals | Mostly iron/steel, aluminum and copper | 1 | 3 | 13 | 39 |
Other | Solid wood products, paper/paperboard, container and flat glass and plastic | 4 | 6 | 11 | 23 |
Bricks and aggregates like gravel and sand also represent a big part of human-made mass.
Although small compared to other materials in our list, the mass of plastic we’ve made is greater than the overall mass of all terrestrial and marine animals combined.
As the rate of growth of human-made mass continues to accelerate, it could become triple the total amount of global living biomass by 2040.
Can We Work It Out?
While the mass of humans is only about 0.01% of all biomass, our impact is like no other form of life on Earth. We are one of the few species that can alter the environment to the point of affecting all life.
At the current pace, the reserves of some materials like fossil fuels and minerals could run out in less than 100 years. As a result, prospectors are widening their search as they seek fresh sources of raw materials, exploring places like the Arctic, the deep sea, and even asteroids.
As the world population continues to increase, so does the pressure on the natural environment. It is an unavoidable fact that consumption will increase, but in an era of net-zero policies and carbon credits, accounting for the human impact on the environment will be more important than ever.
Green
How Carbon Credits Can Help Close the Climate Funding Gap
To keep a 1.5℃ world within reach, global emissions need to fall by as much as 45% by 2030, and carbon credits could help close the gap.
How Carbon Credits Can Help Close the Climate Funding Gap
Governments around the world have committed to the goals of the Paris Agreement, but their climate pledges are insufficient. To keep a 1.5℃ world within reach, global emissions need to fall by as much as 45% by 2030.
Bold and immediate action is essential, but so are resources that will make it happen.
In this graphic, we have partnered with Carbon Streaming to look at the role that the voluntary carbon market and carbon credits can play in closing that gap.
More Funds are Needed for Climate Finance
According to data from the Climate Policy Initiative, climate finance, which includes funds for both adaptation and mitigation, needs to increase at least five-fold, from $1.3T in 2021/2022, to an average $8.6T annually until 2030, and then to just over $10T in the two decades leading up to 2050.
That adds up to a very large number, but consider that in 2022, $7.0T went to fossil fuel subsidies, which almost covers the annual estimated outlay. And the world has shown that when pressed, governments can come up with the money, if the global pandemic is any indication.
Mobilizing Carbon Finance to the Developing World
But the same cannot be said of the developing world, where debt, inequality, and poverty reduce the ability of governments to act. And this is where carbon credits can play an important role. According to analyses from Ecosystem Marketplace, carbon credits help move capital from developed countries, to where funds are needed in the developing world.
For example, in 2019, 69.2% of the carbon credits by volume in the voluntary carbon market were purchased by buyers in Europe, and nearly a third from North America. Compare that to over 90% of the volume of carbon credits sold in the voluntary carbon market in 2022 came from projects that were located outside of those two regions.
Carbon Credits Can Complement Decarbonization Efforts
Carbon credits can also complement decarbonization efforts in the corporate world, where more and more companies have been signing up to reduce emissions. According to the 2022 monitoring report from the Science Based Targets initiative, 4,230 companies around the world had approved targets and commitments, which represented an 88% increase from the prior year. However, as of year end 2022, combined scope 1 and 2 emissions covered by science-based targets totaled approximately 2 GtCO2e, which represents just a fraction of global emissions.
The fine print is that this is just scope 1 and 2 emissions, and doesn’t include scope 3 emissions, which can account for more than 70% of a company’s total emissions. And as these emissions come under greater and greater scrutiny the closer we get to 2030 and beyond, the voluntary carbon credit market could expand exponentially to help meet the need to compensate for these emissions.
Potential Carbon Credit Market Size in 2030
OK, but how big? In 2022, the voluntary carbon credit market was around $2B, but some analysts predict that it could grow to between $5–250 billion by 2030.
Firm | Low Estimate | High Estimate |
---|---|---|
Bain & Company | $15B | $30B |
Barclays | N/A | $250B |
Citigroup | $5B | $50B |
McKinsey & Company | $5B | $50B |
Morgan Stanley | N/A | $100B |
Shell / Boston Consulting Group | $10B | $40B |
Morgan Stanley and Barclays were the most bullish on the size of the voluntary carbon credit market in 2030, but the latter firm was even more optimistic about 2050, and predicted that the voluntary carbon credit market could grow to a colossal $1.5 trillion.
Carbon Streaming is Focused on Carbon Credit Integrity
Ultimately, carbon credits could have an important role to play in marshaling the resources needed to keep the world on track to net zero by 2050, and avoiding the worst consequences of a warming world.
Carbon Streaming uses streaming transactions, a proven and flexible funding model, to scale high-integrity carbon credit projects to advance global climate action and UN Sustainable Development Goals.
Learn more at www.carbonstreaming.com.
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