Mapped: 30 Years of Deforestation and Forest Growth, by Country
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Mapped: 30 Years of Deforestation and Forest Growth, by Country

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map of deforestation around the world over 30 years

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Global Deforestation and Forest Growth over 30 Years

Forests are the great carbon capturers of our planet, and they are a key source of wildlife habitats and vital resources for people around the world.

But deforestation is threatening this natural infrastructure, releasing carbon into the atmosphere while simultaneously reducing wildlife diversity and making our environment more susceptible to environmental disasters.

This graphic looks at global deforestation and forest growth over the past 30 years, mapping out the net forest change by country and region using data from the UN’s Food and Agriculture Organization (FAO).

The State of Deforestation by Region

Today, forests make up around 31% of the Earth’s total land area, spanning 15.68 million square miles (40.6 million km²). Over the past three decades, the world lost a bit more than 4% (685,300 square miles) of its forests, which equates to an area about half the size of India.

Europe and Asia were the only two regions which had significant overall forest growth during this time period, while Oceania saw no significant change and North and Central America saw a slight reduction.

RegionForest area change (1990-2020)Percentage change in forest area
Asia+146,718 sq mi+6.64%
Europe+88,803 sq mi+2.34%
Oceania+1,057 sq mi+0.0015%
North America and Central America-7,722 sq mi-0.34%
South America and the Caribbean-501,932 sq mi-13.30%
Africa-409,268 sq mi-14.29%
Global total-685,401 sq mi-4.19%

Source: UN Food and Agriculture Organization

Africa along with South America and the Caribbean were the regions with the greatest amount of net forest loss, both losing more than 13% of their forests over the past 30 years. This is largely because these two regions have large amounts of forest area available, with the underlying land in high demand for agriculture and cattle-raising.

Although the overall forest loss around the world is massive, the rate of forest loss has slowed down over the past three decades. While an average of 30,116 square miles were lost each year between 1990 to 2000, between 2010 to 2020 that number has dropped to 18,146 square miles, showing that the rate of overall loss has fallen by almost 40%.

The Countries and Drivers of Deforestation and Forest Growth

Despite an overall slowing down of forest loss, certain countries in South America along with the entirety of Africa are still showing an increase in the rate of forest loss. It’s in these regions where most of the countries with the largest reduction in forest area are located:

CountryNet change in forest area (1990-2020)Percentage change in forest area
Brazil-356,287 sq mi-15.67%
Indonesia-101,977 sq mi-22.28%
Democratic Republic of the Congo-94,495 sq mi-16.25%
Angola-48,865 sq mi-15.97%
Tanzania-44,962 sq mi-20.29%
Myanmar-41,213 sq mi-27.22%
Paraguay-36,463 sq mi-36.97%
Bolivia-26,915 sq mi-12.06%
Mozambique-25,614 sq mi-15.29%
Argentina-25,602 sq mi-18.84%

Source: UN Food and Agriculture Organization

Brazil, home to most of the Amazon rainforest, saw 356,287 square miles of net forest loss, largely fueled by farmers using the land to raise cattle for beef. It’s estimated that 80% of the deforested land area of the Amazon has been replaced with pastures, with the resulting beef production known to be among the worst meats for the environment in terms of carbon emissions.

The other great driver of deforestation is seed and palm oil agriculture. These oils account for about 20% of the world’s deforestation carbon emissions, and their production concentrated in Indonesia and Malaysia is now expanding to other Asian countries along with Africa.

While the demand for beef and palm oils drives deforestation, initiatives like the Central African Forest Initiative (CAFI) are providing incentives to protect forest land.

Select countries in the European Union along with the United Kingdom and South Korea have committed $494.7 million to six central African nations (Cameroon, Gabon, Central African Republic, Democratic Republic of the Congo, Equatorial Guinea, and the Republic of Congo) for them to preserve their forests and pursue low emission pathways for sustainable development. The initiative has seen $202 million transferred thus far and an anticipated reduction of 75 million tons of CO2 emissions.

Forests and the Climate Crisis

It’s estimated that forests absorb around 30% of the world’s carbon emissions each year, making them the greatest and most important carbon sinks we have on land. When you pair this with the fact that deforestation contributes around 12% of annual greenhouse gas emissions, the importance of forest preservation becomes even more clear.

But we often forget how much forests protect our environment by acting as natural buffers against extreme weather. Forests increase and ensure rainfall security, making nearby land areas significantly less susceptible to wildfires and natural droughts in hot and dry seasons along with flooding and landslides in wet seasons.

With every dollar invested in landscape restoration yielding up to $30 in benefits, reducing deforestation and investing in reforestation is considered an effective way to reduce the difficulty and costs of meeting climate and environmental protection goals. This is without even considering the benefits of maintaining the world’s largest wildlife habitat and source of species diversity, the home of the nearly 70 million indigenous people who live in forests, and the livelihood of 1.6 billion people who rely on forests every day.

Preserving and Regrowing Forests for the Future

Despite the short-term acceleration in forest loss seen in 2020, there have been positive signs about forest regrowth coming to light. A recent study found that previously deforested land can recuperate its soil fertility in about a decade, and layered plants, trees, and species diversity can recover in around 25-60 years.

Along with this, in some instances these regrowing “secondary forests” can absorb more carbon dioxide than “primary forests”, giving hope that a global reforestation effort can absorb more emissions than previously thought possible.

From better financial incentives for local farmers and ranchers to preserve forest area to larger scale policies and initiatives like CAFI, curbing deforestation and promoting reforestation requires a global effort. Reversing forest loss in the coming decades is a daunting but necessary step towards stabilizing the climate and preserving the environment that billions of animals and people rely on.

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Explained: The Relationship Between Climate Change and Wildfires

More carbon in the atmosphere is creating a hotter world—and gradually fueling both climate change and instances of wildfires.

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How Climate Change is Influencing Wildfires

Each year, thousands of wildfires burn through millions of acres of land around the world.

We’ve already seen the mass devastation that wildfires can bring, especially in places like Australia, Serbia, and California. But new research by the UN indicates that things might get even worse by the end of the century. By 2100, the frequency of wildfires could increase by up to 50%.

What’s causing this influx of wildfires around the world? Below, we dig into how climate change is impacting wildfires—and how in turn, wildfires are impacting climate change.

Climate Conditions That Support Wildfires

Before diving in, it’s worth going over the basics of wildfires, and how they get started in the first place. An area’s vulnerability to wildfires, also known as its fire regime, depends on three major conditions: its atmosphere, vegetation, and ignitions.

① Atmosphere

Atmosphere plays a big part in how sensitive an area is to wildfires. For instance, wind can increase oxygen supply in an area, which would help fuel a wildfire, and may even transfer embers to new locations.

② Vegetation

Vegetation is also a huge factor in whether or not an area is vulnerable to wildfires. A region with drier vegetation may catch fire more easily, and an area with more forest or shrubs provides more fuel for potential blazes.

③ Ignitions

An area that’s close to volcanic activity, or prone to lightning storms may be more susceptible to wildfires. However, human activity like campfires or faulty equipment can also trigger fires, so popular areas for camping or logging may be at higher risk as well.

While these conditions vary depending on the location, in general, fire regimes are being impacted by climate change, which is causing an influx in the duration and intensity of wildfires around the world.

The Fire Climate Feedback Loop

Since the 1850s, global surface temperatures have risen by about 1.0°C (1.8°F).

These increased surface temperatures have had far-reaching impacts on our climate—in the Northern Hemisphere, warmer temperatures have led to less snow, earlier arrival of spring, and ultimately longer, drier fire seasons.

These longer fire seasons have led to an influx of wildfires. But here’s the kicker—wildfires emit tons of carbon. In 2021, wildfires around the world emitted an estimated 1.76 billion tonnes of carbon into the atmosphere, which for context, is more than double the annual emissions from the entire country of Germany.

This carbon gets trapped in our atmosphere and contributes to rising surface temperatures. In other words, more carbon creates more wildfires—and more wildfires create more carbon.

Extreme Weather Events Are Rising In General

It’s not just wildfires that are growing in frequency and intensity because of climate change—droughts, heatwaves, and floods are also becoming more common around the world.

This year, temperatures reached all-time highs across Europe, which wrecked havoc across the continent, impacted infrastructure, and even took lives.

Experts warn that this may become the new normal. To help mitigate risk, governments, policymakers, and companies need to band together to create safeguards and establish proper preventative measures.

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Energy

Visualizing U.S. Greenhouse Gas Emissions by Sector

The U.S. emits about 6 billion metric tons of greenhouse gases a year. Here’s how these emissions rank by sector.

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The following content is sponsored by National Public Utilities Council.


Visualizing U.S. Emissions by Sector

Decarbonization efforts in the U.S. are ramping up, and in 2020, greenhouse gas (GHG) emissions were lower than at any point during the previous 30 years.

However there’s still work to be done before various organizations, states, and nationwide targets are met. And when looking at GHG emissions by sector, the data suggests that some groups have more work cut out for them than others.

This graphic from the National Public Utilities Council provides the key data and trends on the total emissions by U.S. sector since 1990.

The Highest Emitting Sectors

Collectively, the U.S. emitted 5,981 million metric tons (MMT) of CO2-equivalent (CO2e) emissions in 2020, which rose 6.1% in 2021.

Here’s how the various sectors in the U.S. compare.

Sector2020 GHG emissions, MMT CO2ePercentage of Total
Transportation1,627.627%
Electricity generation1,482.625%
Industry1,426.224%
Agriculture635.111%
Commercial425.37%
Residential362.06%
U.S. territories23.0<1%

The transportation sector ranks highest by emissions and has been notably impacted by the COVID-19 pandemic, which is still affecting travel and supply chains. This has led to whipsawing figures during the last two years.

For instance, in 2020, the transportation sector’s emissions fell 15%, the steepest fall of any sector. But the largest increase in emissions in 2021 also came from transportation, which is largely credited to the economic and tourism recovery last year.

Following transportation, electricity generation accounted for a quarter of U.S. GHG emissions in 2020, with fossil fuel combustion making up nearly 99% of the sector’s emissions. The other 1% includes waste incineration and other power generation technologies like renewables and nuclear power, which produce emissions during the initial stages of raw material extraction and construction.

Decarbonizing the Power Sector

The Biden Administration has set a goal to make the U.S. power grid run on 100% clean energy by 2035—a key factor in achieving the country’s goal of net zero emissions by 2050.

Industrial factories, commercial buildings, and homes all consume electricity to power their machinery and appliances. Therefore, the power sector can help reduce their carbon footprint by supplying more clean electricity, although this largely depends on the availability of infrastructure for transmission.

Here’s how sectors would look if their respective electricity end-use is taken into account

SectorEmissions by Sector % of Total
Agriculture11%
Transportation27%
Industry30%
Residential & Commercial30%

Percentages may not add up to 100% due to independent rounding

With these adjustments, the industrial, commercial, and residential sectors experience a notable jump, and lead ahead of other categories

Today, the bulk of electricity generation, 60%, comes from natural gas and coal-fired power plants, with nuclear, renewables, and other sources making up 40% of the total.

Energy Source2020 Electric generation, billion kWhShare of total
Natural Gas1,57538.3%
Coal89921.8%
Nuclear77818.9%
Wind3809.2%
Hydropower2606.3%

However, progress and notable strides have been made towards sustainable energy. In 2021, renewables accounted for one-fifth of U.S. electricity generation, roughly doubling their share since 2010.

Coal’s share as a source of electric power has dropped dramatically in recent years. And partially as a result, electricity generation has seen its portion of emissions successfully decrease by 21% , with overall emissions falling from 1,880 million metric tons of CO2 to 1,482 million metric tons.

How Utilities Can Lead the Way

Should these trends persist, the electricity generation sector has a chance to play a pivotal role in the broader decarbonization initiative. And with the bulk of electricity generation in the U.S. coming from investor-owned utilities (IOUs), this is a unique opportunity for IOUs to lead the transition toward cleaner energy.

The National Public Utilities Council is the go-to resource to learn how utilities can lead in the path towards decarbonization.

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