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🌳 Tree Carbon Sequestration Calculator

Estimate the amount of carbon dioxide (CO₂) a tree can sequester.

Tree Species: Tree Height (feet): Diameter at Breast Height (inches): Estimated CO₂ Sequestered (lbs):

Number of Trees: Average Height (feet): Average DBH (inches): Total CO₂ Sequestered (lbs):

Updated On: May 9, 2025

Tree Carbon Sequestration Calculator

Created by James S. Lockwood

With a background in botany and ecological sciences, James specializes in creating practical tools and resources to help gardeners, farmers, and plant enthusiasts optimize their green spaces.

Trees play a crucial role in mitigating climate change by absorbing carbon dioxide (CO₂) from the atmosphere. Use our Tree Carbon Sequestration Calculator to estimate how much CO₂ a tree can store over its lifetime. Whether you’re an environmentalist, a researcher, or a landowner looking to understand your tree’s impact, this tool provides valuable insights into carbon sequestration.

How to Use the Tree Carbon Sequestration Calculator?

Select a Tree Species – Choose from oak, maple, pine, and more.
Enter Tree Height – The taller the tree, the more carbon it stores.
Input Diameter at Breast Height (DBH) – Measured at 4.5 feet from the ground.
View Estimated CO₂ Sequestered – The calculator provides results in pounds of CO₂ stored.
Multiple Trees? – Use the bulk calculator to estimate total carbon sequestration for a forest or urban trees.

If you’re also planning to plant trees, check our Tree Planting Cost Calculator.

How to Calculate Carbon Sequestration in Trees?

Understanding how trees absorb and store carbon helps us quantify their role in climate action. The general formula for carbon sequestration follows these steps:

Step 1: Estimate Biomass

The above-ground biomass of a tree is calculated as:

$\times (DBH^2) \times Height$

Where:

DBH = Diameter at Breast Height (inches)
Height = Tree height (feet)

Step 2: Determine Carbon Content

Since approximately 50% of biomass is carbon, the amount of carbon stored is:

$\times 0.5$

Step 3: Convert Carbon to CO₂ Sequestered

To estimate CO₂ absorption, we use the conversion factor 3.67 (since CO₂ is heavier than pure carbon):

$\times 3.67$

This formula gives an estimate of how much CO₂ a single tree or a group of trees can store over time.

Why Carbon Sequestration Matters?

Climate Change Mitigation – Trees absorb CO₂, reducing greenhouse gases.
Urban Cooling – Sequestered carbon contributes to healthier urban ecosystems.
Biodiversity Benefits – Trees support wildlife while cleaning the air.
Carbon Offsetting – Businesses and individuals can offset emissions by planting trees.

Disclaimer forTree Carbon Sequestration Calculator

The Tree Carbon Sequestration Calculator provides estimated values for informational purposes only. Results may vary due to measurement accuracy, tree irregularities, and environmental factors. Always verify calculations with professional forestry tools or expert guidance before making land management decisions.

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