Infographic: Visualizing All the Known Copper in the World
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Visualizing All the Known Copper in the World

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The following content is sponsored by Trilogy Metals.

All the Copper in the World

Visualizing All the Known Copper in the World

Copper has many important applications in the modern economy. From smartphones and cars, to homes and hospitals, we use the metal almost everywhere, especially with renewable energy.

Often, consumers take for granted the accessibility to modern technology without the thought of where the materials come from or their impact on the environment. The world and its resources are finite and confined by both geography and the technology used to extract resources.

As governments and economies struggle to achieve a sustainable balance between humanity’s material impact and the health of the planet, knowing the availability of resources will become a critical pivot for achieving and maintaining that balance.

Copper is one such resource—and today’s graphic from Trilogy Metals outlines all the copper ever mined and what known resources still exist on Earth.

Are we running out of copper?

Above Ground Copper Resources

The production of mined copper has increased dramatically over the last two decades, From 9.8 million metric tons in 1995 to 20 million metric tons in 2019, a 104% rise over 25 years.

A total of 700 million metric tons of copper have been mined throughout history. Based on the 2019 average price of $6,042/metric ton, that’s worth $4.2 trillion—more than the value of Apple and Amazon combined.

Chile has been the source of the majority of the world’s copper and the biggest copper mining nation. Together, Chile, Peru, and China account for 48% of current global copper production.

RankingCountryMine Production 2019 (Ktons)CountryReserves 2019 (Ktons)
#1Chile5,600Chile200,000
#2Peru2,400Peru87,000
#3China1,600Australia87,000
#4United States1,300Russia61,000
#5Congo1,300Mexico53,000
#6Australia960United States51,000
#7Zambia790Indonesia28,000
#8Mexico770China26,000
#9Russia750Kazakhastan20,000
#10Kazakhastan700Congo19,000
#11Indonesia340Zambia19,000
Other Countries3,800Other Countries220,000
World Total20,000World Total870,000

Source: USGS

As we enter the era of renewable energy, electric vehicles, and see more global economic growth, the demand for copper will continue to rise. In fact, the Copper Alliance projects an increase of 50% in just the next 20 years.

Are We Running Out of Copper? Not So Soon

Although a large chunk of the Earth’s copper is already above ground, there’s still more to mine.

According to the USGS, identified copper resources amount to 2.1 billion metric tons, with a further 3.5 billion metric tons in undiscovered resources.

At current production rates, it would take about 105 years for us to use all of it and this does not even account for recycling or new discoveries. Copper is 100% recyclable, and nearly all of the 700 million metric tons of mined copper is still in circulation. With this in mind, it’s safe to say that we won’t be running out of copper anytime soon.

Despite copper’s apparent abundance, the red metal is expensive to actually get out of the ground. As a result, the supply of copper has often fallen short in meeting its rising demand. This, in addition to falling resource grades in Chile, the largest producer of copper, emphasizes the need for new discoveries and mines.

While there are known reserves of copper above the ground, the Earth remains largely unexplored because of the inability to explore for minerals in the depths of the oceans and other planets. As the readily available supply of copper becomes scarce, the incentive to mine currently uneconomic copper increases.

A Mineral Intense Future

Most consumers take the immediate availability of materials such as copper and other metals for granted, with little thought about whether there is enough.

But it’s important to remember that these materials are as finite as the dimensions of the Earth. In this material world, understanding what is and what is not available is critical for a sustainable future here on Earth.

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ESG Data: The Four Motivations Driving Usage

ESG controversies can damage a company’s value, but ESG data may be able to help manage this risk. What are other reasons for using ESG data?

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ESG Data: The Four Motivations Driving Usage

Data is key to the environmental, social, and governance (ESG) revolution. Access to granular ESG data can help boost transparency for market participants. Unfortunately, 63% of U.S. and European asset managers say a lack of quantitative data inhibits their ESG implementation.

Being clear on the potential application of this data is equally important.

  • Investors and banks can use ESG data for risk assessment, to spot opportunities, and to push companies for change.
  • Companies can publish their own ESG data, quantify progress on their ESG goals, and use data to inform decisions.
  • Policymakers can use ESG data to inform regulatory frameworks and measure policy effectiveness.

This graphic from ICE, the second in a three part series on the ESG toolkit, explores four primary motivations of ESG data users.

1. Right Thing

The objective: Having a positive social or environmental impact.

For investors, this can involve screening out companies that conflict with their values and selecting companies that align with their ESG objectives.

As another example, it can involve comparing the social impact of municipal bonds. One way investors can measure social impact is through scores that quantify the potential socioeconomic need of an area, using metrics like poverty and education levels. Here are the social impact scores for three actual municipal bonds issued in Florida.

StateBond IssuerSocial Impact Score
(Higher = larger potential impact)
FloridaIssuer #176.5
FloridaIssuer #266.6
FloridaIssuer #343.2

Issuer #1’s bond is projected to have a community impact that is nearly twice as high/positive as Issuer #3’s bond.

For companies, doing the right thing can include assessing their progress on ESG goals and benchmarking themselves to peers. For example, gender and racial representation is a growing area of focus.

2. Risk

The objective: Managing ESG risks, such as climate and reputational risks.

For investors, this can involve back-testing or analysis around specific risk events before they materialize. Here are the risk profiles of two actual municipal bonds in California. The shown bonds are practically identical in many ways, except their wildlife score.

 Issuer #1Issuer #2
Current Coupon Rate5.0%5.0%
Maturity DateAug 01, 2048August 01, 2048
S&P RatingAAAA
Price to Date (Call Date)Aug 01, 2027Aug 01, 2027
Price122.0122.0
Yield1.0%1.0%
Wildfire Score (Higher = more risk)3.62.7

Managing ESG risk can also involve analyzing a company’s policies and governance for weaknesses. This is important as an ESG controversy can have long-lasting effects on the valuation of a company.

In one study, companies with ESG controversies dropped more than 10% in value relative to the S&P 500. They hadn’t fully recovered a year after the incident.

3. Revenue

The objective: Targeting outperformance through ESG analysis.

Selecting companies with strong ESG data can align with long-term growth trends and may help boost performance. For heavy emitting industries, research indicates that European companies with lower emissions trade at much higher valuations. The chart below shows companies’ price-to-book ratio relative to the Stoxx 600* sector median.

 UtilitiesEnergyMaterials
Above Median Emission Intensity (Bad)1.91.12.0
Below Median Emissions Intensity (Good)2.71.92.1

*The Stoxx 600 Index represents large, mid and small capitalization companies across 17 countries of the European region: Austria, Belgium, Denmark, Finland, France, Germany, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Spain, Sweden, Switzerland and the United Kingdom.

Energy companies with low emissions trade at a valuation nearly two times higher than energy companies with high emissions.

4. Regulation

The objective: Understanding and complying with relevant ESG regulation.

The International Sustainability Standards Board has announced a global reporting proposal aligned with the Task Force on Climate-related Financial Disclosures (TCFD). In addition, a growing number of jurisdictions will require organizational reporting that aligns with the TCFD.

  • Brazil
  • European Union
  • Hong Kong
  • Japan
  • New Zealand
  • Singapore
  • Switzerland
  • UK

Not only that, a European Union regulation known as Sustainable Finance Disclosure Regulation (SFDR) came into effect in 2021. It seeks greater transparency in disclosures from firms marketing investment products. Even firms located outside the EU could be impacted if they serve EU customers. In total, the market cap of these non-EU companies exposed to SFDR amounts to $3.2 trillion.

Matching ESG Data with Motivation

There will be growing demand for transparent data as ESG investing flourishes. To remain competitive, investors, policymakers, and companies need access to ESG data that meets their unique objectives.

In Part 3 of the ESG Toolkit series sponsored by ICE, we’ll look at key sustainability index types.

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The Hierarchy of Zero Waste

In a world that generates 2 billion tonnes of waste every year, waste management has become a global concern. Here are some strategies to help guide zero waste policies.

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The Hierarchy of Zero Waste

Many cities have set ambitious zero waste targets in the upcoming decades.

The idea is to have communities where waste generation is avoided, and products are shared, reused, or refurbished.

This graphic, sponsored by Northstar Clean Technologies, shows the main strategies and hierarchy to guide zero waste policies.

What is Zero Waste?

In a world that generates approximately 2 billion tons of waste every year, waste management has become a global concern. Thus, countries and cities are increasing efforts to reduce or even eliminate waste when possible.

The Zero Waste International Alliance defines zero waste as “the conservation of all resources  by means of responsible production, consumption, reuse, and recovery of products, packaging, and materials without burning and with no discharges to land, water, or air that threaten the environment or human health.”

Becoming a zero waste community, however, is a complex task.

Currently, Sweden recycles 99% of locally-produced waste and is considered the best country in the world when it comes to recycling and reusing waste. However, such results only came after almost 40 years of recycling and reuse policies.

In line with this, here are seven commonly accepted steps you can use to achieve zero waste:

1. Rethink, Redesign Products

The global population consumes 110 billion tons of materials each year, but only 8.6% is reused or recycled. In a zero waste society, single-use products are avoided and products are designed with sustainable practices and materials.

2. Reduce

Consumption must be planned carefully to reduce the unnecessary use of materials. Consumers must choose products that maximize the usable lifespan and opportunities for continuous reuse. Companies must minimize the quantity and toxicity of materials used.

3. Reuse

The value of products is maintained by reusing, repairing, or refurbishing for alternative uses.

4. Recycle

Products are diverted from waste streams and recirculated into use. Resilient local markets are developed, allowing the highest and best use of materials.

5. Material Recovery

Component materials like cement, metals, or asphalt are recovered from mixed waste and collected for other applications.

In the U.S. alone, around 12 million tons of asphalt shingle tear-off waste and installation scrap are generated from roof installation each year. Currently, more than 90% of this is discarded in landfills. This material can be repurposed to create new products like liquid asphalt, fiber, and aggregate.

6. Residuals Management

Waste is biologically stabilized and sent to responsibly managed landfills.

7. Unacceptable

The production of materials that are not recoverable and can negatively impact the environment must be avoided.

Reducing our Climate Impact

Reducing, recycling, and recovering materials can be a key part of a climate change strategy to reduce our greenhouse gas emissions.

According to the U.S. Environmental Protection Agency, about 42% of all greenhouse gas emissions are caused by the production and use of goods, including food, products, and packaging.

Even though 100% zero waste may sound difficult to achieve in the near future, a zero waste approach is essential to reduce our impact on the environment.

Northstar Clean Technologies aims to become the leading recovery and reprocessing company for asphalt shingles in North America.

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