Forest Biodiversity and Timber Extraction
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Transcript of Forest Biodiversity and Timber Extraction
Forest Biodiversity and Timber Extraction
Kanchan ChopraPushpam Kumar
Institute of Economic GrowthDelhi 110007 India
Fourth Bio-Econ Workshop, Venice August 28-29, 2003.
Forest Biodiversity and Use for human well-being Forests can provide a range of products
and services for human use, primarly due to diversity inherent in them, thereby contributing to human wellbeing
The mix that is available depends on the demand and the nature of the economic regimes within which they are extracted
Often, market and non-market regimes operate together in provision e.g.of timber and non-timber forest products.
Forest Biodiversity and Timber ExtractionThe interaction takes place in two
ways: 1. through the effect of changed
biodiversity on the extraction effort for the marketed product: timber
2. through policies that increase the supply of marketed product
Combined impact over time is examined in this paper
Organisation of the Paper Characterisation and Measurement
of Bio-diversity Bio-economic indices as measures
of biodiversity in use The theoretical model The reduced form equations and
the econometric estimation Results and Discussion
Characterization and Measurement of Biodiversity Biodiversity: the variety and variability of
life forms from the molecular to the biome level:Three disciplines characterize and measure biodiversity:
Taxonomy: provides the reference system and depicts patterns of diversity
Genetics: knowledge of gene variations within and between species
Ecology: provides knowledge of ecological systems in which diversity is based
Eco-systems and BiodiversityMeasurement of biodiversity can be made
in alternative ways: Number of species Size of an area as a measure as in
island biogeography theory Functional diversity: Ecologists envisage
functionality as relevant for the eco-system itself: ecological functionality
Social Scientists’ interest is in use value or functionality in relation to humans
Diversity and Use by Humans The study of forest products as timber
and non-timber forest products provides a measure of diversity in use
Weighted index of Bioeconomic Diversity: Sigma (piyi/TR)**2 where TR= Sigma piyi
In finding values of timber: Market prices For non-timber: non-market values
The Biodiversity Index The pi s stand for value, not market
price only For some commodities, market prices
may measure value For others, value may be measured by
labour for extraction, non-market traded value etc.
The higher the index, the lower the functional biodiversity of the forest
The Model The Gordon Schaeffer model is the
starting point for the present model
A multi-species natural forest is like a pool from which valuable species are being extracted: products are ranked by value and high value products extracted first
The Model Y = f(E, X) where Y: extraction of timber E: effort : X: Stock of timber Changes in stock are given by X dot =rX(1-X/K)-qEX………..(1) r:net rate of regeneration q: coefficient
depicting availability of timber species and qEX: Extraction (natural forest here: no
rotation: extraction proportional to effort)
The model ctd. Forest departments manage parts of
forests for sustainable extraction of timber (not for sustainable extraction of all goods and services) we put X dot = 0
Hence we obtain, extraction Y=qEX (a function of effort and extraction as Y=qEK(1-qE/r), a function of E and K
The modified model Bio economic Diversity Index:
Sigmai (Pi Yi /TR)**2 and TR = SigmaiPiYi
Now, Y=qBEX…………….(4) B, the biodiversity index is a shift
parameter implying extraction per unit effort Y/E=F(B,X): model with biodiversity
The modified model continued Interest in timber extraction
results in more plantation forests, growth function becomes:
Xdot = rX(1+eW-X/K)-qEX……..(5)
W: Ratio of plantation area to total forest area e: coefficient for impact of W on timber stock
The modified model ctd: However, B=f(W) with B increasing as
W increases (less diversity with plantations)
New growth and sustainable yield functions for timber:
Xdot = rX(1+ eW-X/ K)-qBEX……..(6) Y = qKBE(1+eW-qBE/r)………….(7)
Reduced form of Equations Define Extraction per unit effort, U Without biodiversity index: U= Y/E With bio-diversity effort: U = Y/BE In both cases, X=U/q Growth function(6) is expressed in
terms of U Udot =rU(1-U/qK +eW)-qBEU U dot/U= r –qBE-(r/qK)U +reW…….(8)
Methods of Estimation The above is a recasting of the Schaefar
model as a dynamic, discrete time, model Leads to a differential equation in
Ut(Schnute) Adding time subscripts and integrating from
t-1 to t, we get (with U defined with and without B as Ut and Ubt)
ln(Ut/Ut-1) =r-qEt-(r/qK)Ut+reWt+e’…….(9) ln(Ubt/Ubt-1)= r-qEt-(r/qK) Ubt+reWt+e’..(10)
Data Aspects: Forests in a north Indian State The state of Uttar Pradesh in Northern
India has an area of 29.441 million hectares with 17.29% as forest area
Seven types of forests: three tropical subtypes, one sub-tropical, sub Alpine and Alpine……..Many species natural forest with small managed patches
Another characterisation Dense: with more than 70% canopy cover Open: 30-70% canopy cover; scrub: 10-40 % canopy cover.
Forest Characteristics and Data No single dominating species: hence very
diverse Land use changes documented:
plantations increasing over time Output: Extraction of timber 1975 to 2000 Extraction cost: Costs of felling and
transportation to the forest gate, corrected for difference between monetary and real wage rate to approximate the “effort”variable
Biodiversity Index As stated above, it is a
bioeconomic diversity index Data on quantity of timber and
NTFP extraction from forest department
Sales Value of timber and NTFP from UP Forest Corporation: market prices for timber: different kinds of values for NTFPs
Three Selected Equations
I ln (Ut/Ut-1) =f( Et, Ut) II ln (Ubt/Ubt-1) =f( Et*, Ut*) III ln (Ubt/Ubt-1) = f(Et*, Ubt*, Wt)
Ut and Ubt being defined as with and without the biodiversity index
Data Sources Output of timber in cubic metres per
annum for 25 years: from Annual Reports of Forest Corporation of UP
Effort in Extraction: treated as costs of felling and transportation to the forest gate: deflated by an index of labour cost to arrive at the “effort” variable
Bioeconomic index of diversity: Timber and non-timber products and their value, market or otherwise.
Results and Discussion Equation III gives best results in
terms of explanatory power, nature of fit and DW statistic: the dependent variable is in logarithmic form and a ratio of two years observations are taken, robustness of the results is ensured
III: Log (Ubt/Ubt-1)= r+ (0.4495)0.0853Et
+(2.9636)00169*Ubt +(2.8354)8.7454** Wt
Results and Discussion Ctd. In this form of the equation,explanatory
power increases and Extraction Y is positively related to Effort
E though not a significant determinant of trends in extraction over time
Extraction increases over time (significantly) as W increases (planted area increases )
Extraction increases over time (significantly) as Ubt increases
Results and DiscussionConsider that Ubt is defined as Y/BE: It can increase With increasing B if Y rises faster than B (with
constant E). In other words, a decreasing biodiversity with extraction rising faster, pushes the system towards a state in which increases in extraction take place at an increasing rate
With falling B, (increasing biodiversity), Ubt could
decrease if Y is not rising faster than B is decreasing. This could lead to a decreasing trend in extraction in following periods of time.
Conclusions and Pointers A decrease in biodiversity may imply a rise
in extraction and at a rising rate An increased biodiversity ingeneral means
higher extraction may imply a decreasing trend in the rate of extraction in the future if present extraction does not rise faster than the rate of increase in biodiversity
Together, these two results point to a distinct trade-off between timber extraction levels in the short and long time periods in the scenarios studied.
Conclusions and Pointers Implies that a reduced biodiversity may or
may not be good for timber extraction in the long run
The model attributes it to two kinds of effects : through increasing cost of extraction and policy encouraging monoculture
Plantation policies must balance timber extraction and biodiversity maintenance objectives