Uneven-aged Management II.

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Presentation transcript:

Uneven-aged Management II. Lecture 10 (5/4/2017)

Review: Sustainable Regeneration Sustainable k values.

Selecting the optimal cutting cycle and residual basal area Longer cutting cycles require lower residual BAs after the harvest (thus, the cutting cycle and BA decisions cannot be separated); Identical harvests at the end of each cutting cycles; Forest Value = Present Value of all costs and revenues from the uneven-aged management regime

The Forest Value of Uneven-aged Management Regimes

Example 1: A 200-ac Uneven-aged Stand Determine best cutting cycle and residual basal area. Consider three residual basal areas (50,60 and 70 ft2) and three cutting cycles: 5, 10 and 15 years. Stumpage Price is $220/mbf and there is a fixed harvesting cost of $2,000 for the entire stand. The property taxes are $5/ac/yr. Use a 4% real alternate rate of return. Residual Basal Area Volume Harvested (mbf/ac) in Initial Harvest Volume Harvested (mbf/ac) in Future Harvests 5-year Cycle 10-year Cycle 15-year Cycle 50 1.98 0.88 2.42 3.00 60 1.76 1.10 2.53 3.10 70 1.21 1.30 2.64 3.63

Forest Value (per acre) Solution: ? Residual Basal Area Forest Value (per acre) 5-year Cycle 10-year Cycle 15-year Cycle 50 $1,148.00 $1,388.40 $1,112.10 60 $1,323.00 $1,390.40 $1,091.20 70 $1,405.10 $1,319.80 $1,115.80

What if the stand is 80 instead of 200 ac? Residual Basal Area Forest Value (per acre) 5-year Cycle 10-year Cycle 15-year Cycle 50 $1,063.80 $1,342.10 $1,078.40 60 $1,238.80 $1,344.10 $1,057.50 70 $1,320.90 $1,273.50 $1,082.10

Individual Tree Selection General rule of thumb: “Keep the trees with the most potential to increase in value”; The Financial Maturity Principle (W. Duerr): The rate of value increase in a tree must exceed the alternative rate of return; dmax: the diameter at which the increase in value becomes less than the opportunity cost of not cutting the tree.

The financial maturity of a single tree Applying the financial maturity principle to an individual tree: Determine the ARR; Calculate the current stumpage value of the tree; Estimate the stumpage value of the tree at the next point in time when the tree could be cut; Compare the projected rate of value increase with the ARR. If that rate is less than the ARR then cut the tree now, otherwise keep it.

Example 1: An individual tree decision Consider a tree with a current stumpage value of $221.7. The projected stumpage value of this tree after 8 years is $323.1. If ARR=4%, is the tree financially mature? Answer: We know that: SV0 = $221.7, SV8 = $323.1. Calculate the annual rate of value increase: Answer: Keep the tree.

The (growing) stock holding cost Stock holding cost = the opportunity cost of not reinvesting the value of the tree (analogue to the inventory cost in even-aged stands): The Financial Maturity Rule reinstated: If the Tree Value Growth > the Stock Holding Cost, then keep the tree, otherwise cut it.

Example: An individual tree decision Consider a tree with a current stumpage value of $221.7. The projected stumpage value of this tree after 8 years is $323.1. If ARR=4%, is the tree financially mature? Since the Tree Value Growth is greater than the Stock Holding Cost The answer is to keep the tree.

The land holding cost Land holding cost = the opportunity cost of allowing a tree to continue to use the growing space that it occupies; A new tree could be started earlier if the mature tree is cut; Calculate the LEV for the space occupied by the tree: The Financial Maturity Rule Redefined: If the Tree Value Growth > the Stock + Land Holding Cost, then keep the tree, otherwise cut it.

Example: An individual tree decision Consider a tree with a current stumpage value of $221.7. The projected stumpage value of this tree after 8 years is $323.1. If ARR=4%, is the tree financially mature? Once the current tree is cut, a new crop tree will start to grow and will reach an expected value of $451.3 at age 30, $785.9 at age 40 and $1,128.5 at age 50. There are no management costs. Should the tree be kept?

Example (cont.) Since we know that the Tree Value Growth is $101.4 and the Stock Holding Cost is $81.71, the net gain from keeping the tree is: Since the Net Holding Gain is negative, the optimal decision is to cut the tree now.