Module 4 Topic 5

Oregon State University Ecampus

19 Sept 201602:49

Summary

TLDRIn this tutorial, we learn how to calculate the basal area of a tree using its diameter at chest height. The area of the tree's cross-section is first calculated using the formula for the area of a circle, where the diameter is divided by two to find the radius. After converting inches to feet, the area is calculated to be 1.77 square feet. The script also introduces the forester's constant (0.005454), which simplifies the process, allowing foresters to directly calculate basal area by squaring the diameter and multiplying by this constant. This method yields the same result with less time and effort.

Takeaways

😀 The basal area of a tree is determined by measuring the diameter of the tree trunk at chest height (DBH).
😀 The formula for the area of a circle is Area = π × radius², which is used to calculate the tree's cross-sectional area.
😀 To find the radius of the tree, divide the diameter by 2. For example, a diameter of 18 inches gives a radius of 9 inches.
😀 The radius must be converted from inches to feet by dividing by 12 (since there are 12 inches in a foot). In this case, 9 inches equals 0.75 feet.
😀 Once the radius is in feet, it is squared, and then multiplied by π to calculate the area in square feet.
😀 For a tree with a 9-inch radius (0.75 feet), the area is approximately 1.77 square feet.
😀 A more efficient way to calculate basal area in the field is by using the forester’s constant, which is 0.005454.
😀 The forester’s constant allows you to skip the steps of converting inches to feet and squaring the radius manually.
😀 To use the forester’s constant, square the tree's diameter and multiply by 0.005454 to quickly calculate the basal area in square feet.
😀 Both the manual method and the forester’s constant method give the same result for the basal area, but the constant method is faster and more convenient in fieldwork.

Q & A

What is the purpose of measuring the diameter of a tree at chest height?
-The purpose is to determine the area of the cross-section of the tree trunk, which is important for calculating the tree's basal area, an important metric for forest management and biomass estimation.
How do you calculate the area of a tree's cross-section?
-You calculate the area of a tree's cross-section using the formula for the area of a circle: Area = π * radius^2. To get the radius, divide the diameter by 2, and then square the radius before multiplying by π.
What is the radius of a tree with a diameter of 18 inches?
-The radius of a tree with a diameter of 18 inches is 9 inches, which is half of the diameter.
How do you convert inches to feet when calculating the area of a tree's cross-section?
-To convert inches to feet, divide the measurement in inches by 12, as there are 12 inches in one foot.
What is the radius in feet for a tree with a diameter of 18 inches?
-The radius in feet for a tree with a diameter of 18 inches is 0.75 feet, calculated by dividing 9 inches (the radius in inches) by 12.
What formula is used to calculate the basal area of a tree, and why is it more efficient than converting inches to feet each time?
-The formula for basal area is: Basal Area = 0.005454 * diameter^2. This is more efficient because it eliminates the need to manually convert inches to feet each time, as the constant 0.005454 already accounts for the conversion.
What is the forester's constant, and how does it simplify calculations in forestry?
-The forester's constant is 0.005454, and it simplifies calculations by converting a tree's diameter directly into basal area in square feet without needing to first convert measurements to feet and use the area formula.
How do you calculate basal area using the forester's constant for a tree with a diameter of 18 inches?
-To calculate the basal area, square the diameter (18 inches) to get 324, then multiply by the forester's constant: 0.005454 * 324 = 1.77 square feet.
What result is obtained when using the forester's constant for a tree with a diameter of 18 inches?
-Using the forester's constant for a tree with a diameter of 18 inches, the basal area calculated is 1.77 square feet, the same result as when using the regular area formula.
What is the advantage of using the forester's constant in the field?
-The advantage is that it simplifies the calculation process, allowing foresters to quickly determine basal area by plugging the diameter directly into the formula, saving time in the field.