1 / 27

Economics of Forestland Use and Even-Aged Rotations

Economics of Forestland Use and Even-Aged Rotations. Land tends to be used for the activity that generates the greatest NPV of future satisfaction to the present owner. Once the land use is determined the same maximization of NPV defines how that use will be carried out. Stand Level Decisions.

Download Presentation

Economics of Forestland Use and Even-Aged Rotations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Economics of Forestland Use and Even-Aged Rotations Land tends to be used for the activity that generates the greatest NPV of future satisfaction to the present owner. Once the land use is determined the same maximization of NPV defines how that use will be carried out.

  2. Stand Level Decisions • Assumptions • Competitive market conditions • Landowners are price takers • Non-monetary values ignored • All cash flows and interest rates are real • Taxes “ignored” • Assume cash flows are after taxes, or • Assume public agency context • Cash flows are “expected values” • Discount rate may also need to be increased to account for increased level of risk

  3. Expected Value • Way to account for the risk associated with an investment • Weighted average outcome • Weights are probabilities of possible outcomes • Example • 80% of time investment expected to yield $1,000 • 20% of time investment expected to yield $500 • Expected value is, 0.80x $1,000 + 0.20 x $500 = $900

  4. Land Use In An Unregulated Market -land will be purchased by highest bidder • Example • rural tract of cutover timberland of all one site quality, • not suitable for agriculture because of slope and soil type, • three basic land uses are possible • Even-aged sawtimber production • Even-aged pulpwood production • Grazing

  5. Land Use In An Unregulated Market -land will be purchased by highest bidder • Example • Potential buyers will • project their expected cost and revenue stream from the tract • Estimate a WPL∞ (SEV) using their minimum acceptable rate of return (MAR)

  6. WPL∞ (SEV) t t • ∑ • ∑ Ry(1+r) (t-y) - Cy(1+r) (t-y) a – c y=0 y=0 = + r (1+r)t - 1 Ny t ∑ (Ry– Cy) (1+r) (t-y) a - c y=0 = + r (1+r)t- 1

  7. r = IRR if pay WPL∞ for land WPL∞ = Capital value of periodic series at interest rate r If put WPL∞on right hand side as a cost, NPV = 0

  8. t ∑ (Ry– Cy) (1+r) (t-y) y=0 a - c - WPL∞ = 0 + r (1+r)t- 1

  9. Compare WPL • Even-aged sawtimber • Pulpwood rotation • Grazing

  10. Even-Aged Sawtimber • Costs ($/A) • reforestation of $150 • rotation of 40 years, t = 40 • thinning of $50 in year 10 and every 40 years thereafter • annual cost of $4 • Revenues ($/A) • final harvest of $3,500 every 40 years • thinning of $300 in year 20 and every 40 years thereafter • WPL∞ = Excel Spreadsheet

  11. Even-Aged Pulpwood • Costs ($/A) • reforestation of $150 • rotation of 20 years, t = 20 • annual cost of $4 • Revenue ($/A) • Final harvest of $1,000 every 20 years • WPL∞ = Excel Spreadsheet

  12. Grazing • annual net revenue of $20 per A • initial seeding cost of $175 • WPL∞ = Excel Spreadsheet

  13. Sawtimber producers would tend to win bidding for this type of land Sawtimber Pulpwood Grazing

  14. Market value of land doesn’t usually equal WPL∞ of a given investor • Market value is result of WPL∞ of all interested buyers, and their willingness to bid more than their WPL∞ • Land itself can be treated as a separate investment • Calculate WPL1, the willingness to pay for bare land with land sale after one rotation

  15. WPL1 = t t Lt Ry Cy ∑ ∑ - + (1+r)y (1+r)y (1+r)t y=0 y=0 How much investor would pay for land assuming the land is sold at end of first rotation for Lt WPL1 for sawtimber example = Excel Spreadsheet

  16. Implication • Investor willing to pay $446, $25 more per A, if assume can sell land for $600 per A at end of first rotation. Recall that WPL∞ was $421 per A • If Lt = WPL1 in the equation for WPL1, then WPL1 = WPL∞

  17. Sensitivity Analyses • Recalculate WPL with different assumptions about important variables • MAR • Productivity • Product prices • Increases in annual costs • etc.

  18. Market Allocation of Land Uses • Theoretically yields private optimum land use pattern • Social optimum may be different • How does government try to get closer to social optimum? • Planning and Zoning • Purchase of private land for public uses • Conservation easements

  19. Capital Performance Indicators • Assessment of the return your capital is earning, e.g. • General measure, • ROI, return on investment, • IRR is a ROI measure • Measure for stock • Price-Earnings ratio (P/E) • Measure for bonds • Yield

  20. Capital Performance Indicators Price-Earnings Ratios (P/E) for Stock

  21. Capital Performance Indicators • Measures for forest-related investments • Overall measure • IRR • Individual tree • Financial maturity • Forest • Forest value growth % for forest

  22. Annual Value Growth As % of Forest Capital • “Profits” should be measured in terms of capital tied up, not in absolute terms • Example, • $100 per acre generated with $1,000 of capital is 10% return on investment, • $100 per acre earned with $10,000 of capital is 1% return • Concept used for “financial maturity” of an individual tree”

  23. Annual Value Growth As % of Forest Capital • Calculation should include, • Market value of the land, Ly, in the value of the “forest” capital, • Timber value based on “stumpage value” assuming liquidation of timber for even-aged management. • Liquidation value is sum of stumpage value and land value • Annual value growth should be reduced/increased by sum of annual revenues minus annual costs (a-c)

  24. Annual Value Growth As % of Forest Capital Annual forest value growth % (Hy+1 +Ly+1) – (Hy + Ly) + (a-c) Hy + Ly = Example, Table 7-3

  25. Multi-Year Value Growth As % of Forest Capital  Without net annual revenue (a-c) 1/n ( ) Hy+n + Ly+n Hy + Ly Forest value growth % = - 1  With net annual revenue (a-c) Must determine iteratively, like for IRR

  26. Holding Value (HV) of Forestland • NPV of holding the forest and selling land and timber at the optimal rotation age for the timber • Answers the question: Should I liquidate my investment now or wait until rotation age? t-y [ ] Rq (1+r)q Cq (1+r)q ∑ HVy= - q=0

  27. Optimum rotation age

More Related