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Could Atmosphere CO2 Levels be Reduced by Planting Trees?

co2 levels planting trees

Could planting trees make enough difference to impact increased CO2 levels on a global level?

The idea seems simple enough. Since trees and plants "take in" carbon dioxide (CO2) during photosynthesis, planting more trees should reduce CO2 levels.

For reference, combined with oceans, the terrestrial biosphere including plants and trees already remove about 45% of the CO2 emitted by human activities each year.

Other scientists report that plants and trees globally are responding to elevated CO2 levels by taking up more CO2. 

This makes sense. Here at CO2Meter, our customers report to us that in controlled conditions like indoor greenhouses, doubling or tripling the CO2 levels can act as fertilizer, which increases the growth and productivity of plants.

What is the current CO2 levels in the atmosphere?

The most current CO2 levels reported in October 2024, is 422.58ppm

This represents an increase from the previous year, where the average CO2 level in September 2023 was 418.51 ppm. These measurements indicate a continued upward trend in atmospheric CO2 levels, underscoring the ongoing impact of human activities on global greenhouse gas concentrations.

The table by CO2 earth below, presents the most up-to-date, daily average reading for atmospheric CO2 on the planet.

Units = parts per million (ppm).

Measurement location = Mauna Loa Observatory, Hawaii. 

Mauna Loa CO2 levels Average

What happens when CO2 is high in the atmosphere?

Carbon dioxide in the atmosphere warms the planet, causing climate change and many other key effects. Human activities alone have raised the atmosphere's carbon dioxide content by 50% in less than 200 years. 

Here are some additional direct effects on our atmosphere due to CO2 levels:

  1. Global Warming: When there is an excess of carbon dioxide, more heat is retained, leading to an increase in global temperature, an occurrence known as global warming.

  2. Climate Change: Rising CO2 levels contributes to climate change, altering weather patterns and leading to extreme weather events, such as storms, heatwaves and droughts.

  3. Ocean Acidification: When CO2 is absorbed by the ocean it reacts with seawater to form carbonic acid. This process increases the acidity of the oceans, which can harm marine life (particularly organisms with calcium carbonate shells, such as coral reefs and types of plankton).

  4. Melting Glaciers and Ice Caps: Higher temperatures resulting from increased CO2 levels in our atmosphere accelerate the melting of glaciers and ice caps, contributing to rising sea levels and potential disruption to coastal communities.

  5. Disruption of Ecosystems: Plant and animals are fairly sensitive to changes in temperature and climate. As CO2 levels rise and change the atmosphere, some species may struggle to adapt, leading to disruptions in ecosystems and biodiversity loss.

  6. Impact on Agriculture: Changes in climate patterns can also affect agricultural productivity, leading to shifts in crop yields and distribution. Some regions may experience reduced crop productivity, while others might benefit from longer growing seasons.

  7. Health Impacts: High CO2 levels and associated climate changes can also have indirect effects on human health, such as an increase in heat-related illnesses. This increase can spread disease carried by insects, and worsen air quality due to factors like higher levels of ground-level ozone.

What is the main cause of CO2 levels increasing in our atmosphere?

Many resources show that the main cause of CO2 levels increasing is due to human activities. These activities involve the burning of oil, coal, and gas, as well as deforestation as the primary cause of increase. 

All of these processes alone release large amounts of carbon dioxide into the atmosphere, directly affecting our ecosystem and accumulating over time. These activities all have various impacts including rising temperatures, disruption of communities, and changes in our climate patterns. 

Addressing the issue of rising CO2 levels requires tremendous global efforts in order to reduce emissions and transition to more sustainable and cleaner practices, as well as adopting practices to further move our society.

Could enough trees be planted to impact CO2 levels in our atmosphere?

Unfortunately, not likely. Here's why.

A typical hardwood tree can absorb as much as 48 pounds of carbon dioxide per year. This means it will sequester approximately 1 ton of carbon dioxide by the time it reaches 40 years old. 

One ton of CO2 is a lot. However, on average human activity puts about 40 billion tons of CO2 into the air each year. This means we would theoretically have to plant 40 billion trees every year, then wait for decades to see any positive effect. By the time 40 years had passed, the trees we had originally planted would only cancel out the increased CO2 levels today.

To put that into further perspective, that offset in massive volume of emissions would equal out individually to each person in the country planting about 150-200 trees (depending upon the species) every year.

But others disagree.

For example, National Geographic says "An area the size of the United States could be restored as forests, with the potential of erasing nearly 100 years of carbon emissions." This is based off of the first study of its kind to determine how many trees the earth could actually support.

The other issue is the impact of CO2 on tree growth and the species of trees that thrive best on high CO2 levels.

For example, research from NASA indicates that the current increase in CO2 levels have resulted in a significant greening increase over the last 35 years. This increase in leaves on plants and trees is actually equivalent to planting a forest twice the size of the continental United States. Yet, the shorter lifespans of these trees as the result of faster growth give them less time to absorb CO2 than was anticipated. This implies that the trees will die sooner and before they're big enough to store a significant amount of carbon from our atmosphere. 

So should we really continue to plant trees?

Science Magazine published a report titled, "The global tree restoration potential" which concluded that there may seem to be enough land to increase the worlds forest areas by approximately one third. The downside to this is that the potential for land space can diminish quite quickly given global temperature rising. Additionally the report states, "Even if global warming is limited to 1.5 degrees Celsius, the area available for forest restoration could be reduced by a fifth by 2050 because it would be too warm for some tropical forests." 

This same topic was researched in 2016, where a research group of 800,000 volunteers in India planted 50 million tree saplings in an effort to re-green the country. While there are many good reasons to combat deforestation, this project would have to be replicated 800 times to cancel out the CO2 created by humans.

This does not mean that there is still not some importance in doing so, however. Global CO2 levels could be reduced by planting trees as national geographic concludes, "If we act now we could cut carbon dioxide emissions by at least 25% these levels would not have been seen until almost a century ago". 

Aren't loggers required to replace the trees they cut down?

In many countries there are regulations that require logging companies to replace the trees they log. According to AppalachianWood.org "Three quarters of all the trees planted in America last year were planted by forest product companies and private timberland owners. And logging companies pay a special fee to fund for replanting and reforestation when they buy the right to harvest a section of timber on state or national forests." Americans plant at least 1.6 billion trees or about 6 trees for each one we use. 

However, the same philosophy of forest management is not occurring in other countries. While their are conflicting data sets as to the rate of deforestation, all scientists agree that we are continuing to have a net loss of forests year after year. According to the Food and Agricultural Organization of the United Nations:

"Between 2015 and 2020, the rate of deforestation was estimated at 10 million hectares (38,000 square miles) per year, down from 16 million hectares per year in the 1990s. The area of primary forest worldwide has decreased by over 80 million hectares 310,000 square miles) since 1990."

For example, more than half the potential to restore trees can be found in the following countries: Russia (373 million); Canada (78 million); Australia (58 million); Brazil (50 million); and China (40 million).

So the answer seems to be that planting trees, while a good idea, would not in itself cancel all of the effects of human production of CO2 and many trees would actually die off before they are large enough.

For more information on deforestation visit the State of Forests and Forestry website.

The Impact of Large-Scale Reforestation on Climate Change and Air Quality

Large-scale reforestation has a significant positive impact on climate change and air quality by sequestering carbon dioxide (CO₂) and releasing oxygen, helping to reduce greenhouse gases in the atmosphere. Trees absorb CO₂ through photosynthesis, making them a natural carbon sink that can offset emissions from human activities such as transportation and industrial production.

Reforestation can also improve local air quality by trapping airborne pollutants, stabilizing soil, and providing cooling shade, all of which contribute to a healthier environment and mitigate some effects of climate change.

However, while reforestation is beneficial, it alone cannot fully offset the rising CO₂ levels from global emissions. Current fossil fuel use and industrial activities release CO₂ at rates that outpace what natural carbon sinks like forests can absorb.

Additionally, land and resource limitations make it unfeasible to plant enough trees to neutralize all emissions. Effective climate action requires a multi-pronged approach: reducing emissions through clean energy, improving energy efficiency, and supporting carbon capture technologies.

While reforestation remains a crucial tool, it must work in tandem with these other efforts to meaningfully address the CO₂ levels impacting climate and air quality on a global scale.

What is the best way to offset CO2 levels?

While planting trees are important, trees alone aren't enough. As a single person, what can you do to help offset the rise in CO2 levels?

1. Reforestation. If you own land, plant trees on it. As the old Chinese proverb goes, "The best time to plant a tree was 20 years ago. The second best time is now.” Here are the trees that convert the most CO2:

2. Renewable energy. There are dozen's of small ways you can take advantage of renewable energy around your home, from solar panels to roof-mounted solar water heaters to paying a few dollars extra to the utility company each month for their carbon offset program. Building a new house? Talk to your architect about using thermal mass walls to retain both heating and cooling.

3. Community projects are a great way to get involved and help the climate. The advantage of these projects is that you will spend time with like-minded people and see for yourself what works and what doesn't in their homes and businesses.

4. Waste to energy initiatives are programs that convert organic waste into energy. The only way these can happen is by supporting government officials and politicians who are also committed to these goals.

5. Changing transport. Common sense says that taking a train instead of a plane doesn't matter since the plane would make the trip with or without you. However, for personal transport, electric cars finally make sense. If everything you know about electric cars is over a year old, it's time to research them again.

We can take steps to reduce CO2 emissions now, or we can wait and see what happens. Only good science and good data will give us a valid answer.

Resources:

These resources should provide you with reliable and up-to-date information on the impacts of high CO2 levels in the atmosphere and the broader context of climate change. Always verify the credibility. 


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