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Rational Research in Forest Production and Forest Management with Consideration of
Mixed Species Forest Management and Risk
Lecture by Professor Dr. Peter Lohmander, Swedish University of Agricultural Sciences, SLU, Sweden,
http://www.Lohmander.com [email protected]
Operations Research for the Future Forest Management,
University of Guilan, Iran, March 8-12, 2014
Saturday March 8, 13.30-15.00
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Rational Research in Forest Production and Forest Management with Consideration of Mixed Species Forest Management and Risk
β’ In order to solve the forest management optimization problems, it is necessary that the most relevant
and important management options are well investigated and formulated. Models of biological growth should be developed that describe the production options available over time and space. The latest decades clearly show that detailed deterministic long term planning is irrelevant. Energy prices, prices of industrial products and environmental problems rapidly change in ways that cannot be perfectly predicted. Research in forest production planning should focus on the development of growth models that are useful when stochastic optimal control theory is applied. Since biological production takes considerable time, it is very important to create options to sequentially adjust the production to new relative prices, growth conditions, ecological problems and possible damages caused by parasites, fire or storms. In particular, valuable options can be obtained via mixed species stands. When several species are available in the young stands, the species mix can sequentially be adapted to changing product prices, costs and growth conditions. The analysis concerns the structure of relevant stochastic optimal control problems and consistent development of research in forest production. General mathematical models are analyzed. Comparative statics analysis and numerical methods are used to derive optimal results.
β’ Professor Dr. Peter Lohmander, Swedish University of Agricultural Sciences, SLU, Sweden, http://www.Lohmander.com [email protected]
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Lohmander, P., The multi species forest stand, stochastic prices and adaptive selective thinning, SYSTEMS ANALYSIS - MODELLING - SIMULATION, Vol. 9, 229-250, 1992 http://www.Lohmander.com/PL_SAMS_9_1992.pdf
Lohmander, P., Economic two stage multi period species management in a stochastic environment: The value of selective thinning options and stochastic growth parameters,SYSTEMS ANALYSIS - MODELLING -SIMULATION, Vol. 11, 287-302, 1993 http://www.Lohmander.com/PL_SAMS_11_1993.pdf
Lohmander, P., Optimal sequential forestry decisions under risk, ANNALS OF OPERATIONS RESEARCH, Vol. 95, pp. 217-228, 2000 http://www.Lohmander.com/PL_AOR_95_2000.pdf
Lohmander, P., Optimala beslut infΓΆr osΓ€ker framtid, FAKTA SKOG, SUAS, Nr 10, 2001http://www.Lohmander.com/FS01-10.pdf
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Lu, F., Lohmander, P., Optimal mixed stand management under risk, in Lu, F., Optimization of forest management decision making under conditions of risk, Doctoral Thesis, Acta Universitatis Agriculturae Sueciae, Swedish University of Agricultural Sciences, No. 333, 2004
Lohmander, P., Adaptive Optimization of Forest Management in a Stochastic World, in Weintraub A. et al (Editors), Handbook of Operations Research in Natural Resources, Springer, Springer Science, International Series in Operations Research and Management Science, New York, USA, pp 525-544, 2007 http://www.amazon.ca/gp/reader/0387718141/ref=sib_dp_pt/701-0734992-1741115#reader-linkhttp://www.Lohmander.com/PL_Handbook2007.pdf
Lu, F., Lohmander, P., Optimal Decisions for Mixed Forests under Risk, Scientia Silvae Sinicae, Vol. 45, No. 11, Nov. 2009 http://www.Lohmander.com/Lu_Lohmander_2009.pdf
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Lu, F., Lohmander, P., Optimal Decisions for Mixed Forests under Risk, Scientia Silvae Sinicae, Vol. 45, No. 11, Nov. 2009 http://www.Lohmander.com/Lu_Lohmander_2009.pdf
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The stochastic prices and mixed species
problemA new explorative investigation of the
fundamental problem
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Initial price process assumptions:Prices are real Martingale processes. .
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In most cases,
Observation:
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In most cases,
Observation:
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,
Expected present value of management system A without adaptive decisions:
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Expected present value of management system B without adaptive decisions:
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Expected present value of a management system AB with adaptive decisions. (50% of the stems are removed at .)
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π π¨π©=β(π π¨+ππ©)
π βπ+πππ+(πβπ)ππ
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π π¨π©=β(π π¨+ππ© )
π βπ+πππ+(πβπ)ππ
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Case 1:Harvests at are not affected by the timber prices and (since harvests at do not give timber but other assortments, such as energy assortments and pulp wood.) We assume that all management alternatives lead to the same net present values of harvests at . In order to make the following derivations easier to follow, we exclude the present values of harvests at from , and .We also assume that the timber harvest volumes are the same, h, for both species.
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Summary of Case 1:
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Case 2:As Case 1 with the following constraints:
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Observation: For g=0:
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Comparison of investments for g=0:
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Let
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Then,
Standard assumption:
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Comparative statics for g > 0:
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Observation:
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General comparative statics analysis:
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π π¨π©=β(π π¨+ππ© )
π βπ+π (ππ¨ )ππ(ππ¨)+(πβπ(π π¨))ππ(ππ¨)
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π π¨π©=β(π π¨+ππ© )
π βπ+π (π π¨ )ππ(ππ¨)+(πβπ(π π¨))ππ(ππ¨)
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Observation:On the decision boundary, the expected present values of A and B are the same, Usually, and and are strictly positive and of the same order of magnitude. Then:
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Observation:
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CONCLUSIONS:In typical cases:
If , a one species plantation gives the highest expected present value.
At some strictly positive and unique value of , investments in one or two species give the same expected present value.
At higher values of , a two species investment gives a strictly higher expected present value than a one species investment.
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Rational Research in Forest Production and Forest Management with Consideration of Mixed Species Forest Management and Risk
β’ The latest decades clearly show that detailed deterministic long term planning is irrelevant. β’ Energy prices, prices of industrial products and environmental problems rapidly change in ways
that cannot be perfectly predicted. β’ Research in forest production planning should focus on the development of growth models
that are useful when stochastic optimal control theory is applied. β’ Since biological production takes considerable time, it is very important to create options
to sequentially adjust the production to new relative prices, growth conditions, ecological problems and possible damages caused by parasites, fire or storms.
β’ In particular, valuable options can be obtained via mixed species stands. When several species are available in the young stands, the species mix can sequentially be adapted to changing product prices, costs and growth conditions.
β’ Professor Dr. Peter Lohmander, Swedish University of Agricultural Sciences, SLU, Sweden, http://www.Lohmander.com
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