Restoration of oak-hickory dominated forests on the Cumberland Plateau throug...Lily Tidwell
Throughout the Cumberland Plateau region and other areas of the eastern United States, oak-hickory dominated forests have been in decline. While mature oaks and hickories remain common in many canopies, a severe dearth of oak-hickory regeneration, especially in the face of increasing pine and maple regeneration, means that forests are changing in composition, a phenomenon known as mesophication (Iverson et al 2007). The relationship between fire regimes and oak regeneration has been studied thoroughly and regular burns have been shown to be vital in maintaining healthy oak-hickory dominated forests (Iverson et al 2007, Blankenship and Arthur 2005, Brose and Lear 1998).
Restoration of oak-hickory dominated forests on the Cumberland Plateau throug...Lily Tidwell
Throughout the Cumberland Plateau region and other areas of the eastern United States, oak-hickory dominated forests have been in decline. While mature oaks and hickories remain common in many canopies, a severe dearth of oak-hickory regeneration, especially in the face of increasing pine and maple regeneration, means that forests are changing in composition, a phenomenon known as mesophication (Iverson et al 2007). The relationship between fire regimes and oak regeneration has been studied thoroughly and regular burns have been shown to be vital in maintaining healthy oak-hickory dominated forests (Iverson et al 2007, Blankenship and Arthur 2005, Brose and Lear 1998).
Silviculture and management of ash: best practice advice for woodland managers. Edward Wilson
This lecturer was presented at the Living Ash Project Workshop, hosted by Tamar Valley AONB, at Tiverton, Devon on 13 August 2015. The lecture provides and overview of current best-practice guidance for the management of stands of ash trees infected with Chalara ash dieback disease (Hymenoscyphus fraxineus) (formerly Chalara fraxinea). Included in the presentation was a wider discussion of ecological resilience and strategies for adaptation of forest management systems in response to climate change and threats to forest health.
Ecosystem Carbon Storage and Partitioning in Chato Afromontane Forest: Its Cl...IJEAB
Forests trap carbon dioxide (CO2) from the atmosphere, store in the form of carbon (C) and regulate climate change. In this study, C storage and climate change mitigation potential of Chato Afromontane forest was assessed from measurement of the major pools including the aboveground biomass, belowground biomass, dead tree biomass, plant litter and soil organic carbon (SOC). The result showed that biomass accumulation was comparatively larger for natural forest than plantations due to maturity, intactness and species diversity. The total C storage capacity of the forest ranged from 107.12 Mg ha-1 for acacia plantation to 453.21 Mg ha-1 for the intact natural forest. The mean C storage capacity by major pools ranged from 1.36 Mg ha-1 for the dead tree C to 157.95 Mg ha-1 for the aboveground C pool. The forest ecosystem accumulated a total of nearly 6371.30 Gg C in the vegetation plus soil to a depth of 60 cm. Conservation of the sacred forest will have an imperative implication to net positive C addition and regulation of climate change.
Spatial distribution and species abundance area of Non Timber Forest Products...AI Publications
Non Timber Forest Products (NTFPs) are an economically, ecologically, culturally and medicinally important component of forests which keeps forests intact and preserve the resource base of the forest, unlike the exploitation of the forest for timber. Notwithstanding, they are under threat in the Mount Cameroon National Park and adjoining forest zones from deforestation, over exploitation, unsustainable harvesting, logging, unsustainable agriculture and infrastructural developments, all driven by the galloping human population growth. There is need to determine their variety for actual and potential economic usage and species abundance area for increased availability and sustainability. This study was undertaken to examine the spatial distribution and species abundance area of NTFPs in the Mount Cameroon National Park and adjoining forest zones. Data on types and their distribution, plants part used and species abundance area was obtained via specie identification in the plant herbarium of the Limbe Botanical Garden in Limbe, reconnaissance surveys, purposive sampling, questionnaires administration, transect line technique and focused group discussions. Collected data was subjected to descriptive analysis in tables and frequency histograms. While the distribution of the NTFPs varied spatially in the four selected clusters, eight (08) species were the most distributed: Plum (Dacryodes edulis), Njangsa (Ricinodendron heudelotii), Bush pepper (Piper guineense), Bush mango (Irvingia gabonensis), Bitter kola (Garcinia kola), Pygeum (Prunus africana), Eru (Gnetum africanum) and Bush onion (Afrosfyrax lepidophyllus). Results on species abundance area showed that most of the species were located in abundance in the Mt. Cameroon National park, farmlands and community forests. It is recommended that intensive ecological and livelihood data on the NTFPs be collected periodically in order to track the change in the performance of the NTFP management status overtime.
A ‘Mildly Interdependent Relationship' between Local People and a Protected ...CIFOR-ICRAF
The protected Moluccan cockatoo, a flagship species of the Manusela National Park, is often found in the human-modified forests surrounding the national park where local people practice ‘arboriculture’: modifying forests to cultivate and protect useful arboreal plants. The Moluccan cockatoo also finds these plants useful as forage and shelter. The villagers, in turn, occasionally trap the cockatoo for sale, particularly in times of hardship. The question is, what exactly is the nature of the relationship between the parrots, the people, and the human-modified forests? Are other species also benefiting from human-modified forests? And what role could human-modified forests then play in increasing conservation of biodiversity? CIFOR postdoc research fellow Masatoshi Sasaoka, CIFOR/CIRAD scientist Yves Laumonier, and CIFOR/FFPRI scientist Ken Sugimura gave this presentation at the 13th Congress of the International Society of Ethnobiology, held in Montpellier (France) on 20-25 May 2012.
Natural regeneration of some commercial timber tree species following selecti...Innspub Net
A critical step in sustainable forest management is to ensure the establishment and regeneration of seedlings and sapling of exploitable tree species following logging. Since selective logging is one of the main silvicultural practices in Cameroon, a detailed understanding of regeneration following selective logging is vital. This study evaluated the natural regeneration of some commercial timber species in logged and unlogged forest types in two forest management units (FMU) in the East Region of Cameroon (FMU 10052 and 10025). Two transects of 5000 x 50m each were established in logged and unlogged forest types. Eleven commercial tree species were assessed for fruit fall, the number of seedlings established and the height increment of the established seedlings. Three of these commercial tree species fruited in both forest types. Fruit fall was significantly higher (p≤0.001)in the logged forest (492 fruits/ha)than in the unlogged forest (52 fruits/ha). Comparing species that fruited in both forest types Klainedoxa gabonensis recorded the highest number of fruit fall(84 fruits/ha) and least (0.24 fruits/ha) in the logged and unlogged forest types respectively. Seedling establishment was significantly higher (p≤0.001) in the unlogged forest (404 seedlings/ha) than in the logged forest (72 seedlings /ha). Seedling performance was better in the unlogged forest compared to the logged forest (low mortality rate). Due to the low seedling establishment and performance of these species in the logged forest, seed trees should be marked and protected prior and after logging as prescribed in the sustainable forest management.
Silviculture and management of ash: best practice advice for woodland managers. Edward Wilson
This lecturer was presented at the Living Ash Project Workshop, hosted by Tamar Valley AONB, at Tiverton, Devon on 13 August 2015. The lecture provides and overview of current best-practice guidance for the management of stands of ash trees infected with Chalara ash dieback disease (Hymenoscyphus fraxineus) (formerly Chalara fraxinea). Included in the presentation was a wider discussion of ecological resilience and strategies for adaptation of forest management systems in response to climate change and threats to forest health.
Ecosystem Carbon Storage and Partitioning in Chato Afromontane Forest: Its Cl...IJEAB
Forests trap carbon dioxide (CO2) from the atmosphere, store in the form of carbon (C) and regulate climate change. In this study, C storage and climate change mitigation potential of Chato Afromontane forest was assessed from measurement of the major pools including the aboveground biomass, belowground biomass, dead tree biomass, plant litter and soil organic carbon (SOC). The result showed that biomass accumulation was comparatively larger for natural forest than plantations due to maturity, intactness and species diversity. The total C storage capacity of the forest ranged from 107.12 Mg ha-1 for acacia plantation to 453.21 Mg ha-1 for the intact natural forest. The mean C storage capacity by major pools ranged from 1.36 Mg ha-1 for the dead tree C to 157.95 Mg ha-1 for the aboveground C pool. The forest ecosystem accumulated a total of nearly 6371.30 Gg C in the vegetation plus soil to a depth of 60 cm. Conservation of the sacred forest will have an imperative implication to net positive C addition and regulation of climate change.
Spatial distribution and species abundance area of Non Timber Forest Products...AI Publications
Non Timber Forest Products (NTFPs) are an economically, ecologically, culturally and medicinally important component of forests which keeps forests intact and preserve the resource base of the forest, unlike the exploitation of the forest for timber. Notwithstanding, they are under threat in the Mount Cameroon National Park and adjoining forest zones from deforestation, over exploitation, unsustainable harvesting, logging, unsustainable agriculture and infrastructural developments, all driven by the galloping human population growth. There is need to determine their variety for actual and potential economic usage and species abundance area for increased availability and sustainability. This study was undertaken to examine the spatial distribution and species abundance area of NTFPs in the Mount Cameroon National Park and adjoining forest zones. Data on types and their distribution, plants part used and species abundance area was obtained via specie identification in the plant herbarium of the Limbe Botanical Garden in Limbe, reconnaissance surveys, purposive sampling, questionnaires administration, transect line technique and focused group discussions. Collected data was subjected to descriptive analysis in tables and frequency histograms. While the distribution of the NTFPs varied spatially in the four selected clusters, eight (08) species were the most distributed: Plum (Dacryodes edulis), Njangsa (Ricinodendron heudelotii), Bush pepper (Piper guineense), Bush mango (Irvingia gabonensis), Bitter kola (Garcinia kola), Pygeum (Prunus africana), Eru (Gnetum africanum) and Bush onion (Afrosfyrax lepidophyllus). Results on species abundance area showed that most of the species were located in abundance in the Mt. Cameroon National park, farmlands and community forests. It is recommended that intensive ecological and livelihood data on the NTFPs be collected periodically in order to track the change in the performance of the NTFP management status overtime.
A ‘Mildly Interdependent Relationship' between Local People and a Protected ...CIFOR-ICRAF
The protected Moluccan cockatoo, a flagship species of the Manusela National Park, is often found in the human-modified forests surrounding the national park where local people practice ‘arboriculture’: modifying forests to cultivate and protect useful arboreal plants. The Moluccan cockatoo also finds these plants useful as forage and shelter. The villagers, in turn, occasionally trap the cockatoo for sale, particularly in times of hardship. The question is, what exactly is the nature of the relationship between the parrots, the people, and the human-modified forests? Are other species also benefiting from human-modified forests? And what role could human-modified forests then play in increasing conservation of biodiversity? CIFOR postdoc research fellow Masatoshi Sasaoka, CIFOR/CIRAD scientist Yves Laumonier, and CIFOR/FFPRI scientist Ken Sugimura gave this presentation at the 13th Congress of the International Society of Ethnobiology, held in Montpellier (France) on 20-25 May 2012.
Natural regeneration of some commercial timber tree species following selecti...Innspub Net
A critical step in sustainable forest management is to ensure the establishment and regeneration of seedlings and sapling of exploitable tree species following logging. Since selective logging is one of the main silvicultural practices in Cameroon, a detailed understanding of regeneration following selective logging is vital. This study evaluated the natural regeneration of some commercial timber species in logged and unlogged forest types in two forest management units (FMU) in the East Region of Cameroon (FMU 10052 and 10025). Two transects of 5000 x 50m each were established in logged and unlogged forest types. Eleven commercial tree species were assessed for fruit fall, the number of seedlings established and the height increment of the established seedlings. Three of these commercial tree species fruited in both forest types. Fruit fall was significantly higher (p≤0.001)in the logged forest (492 fruits/ha)than in the unlogged forest (52 fruits/ha). Comparing species that fruited in both forest types Klainedoxa gabonensis recorded the highest number of fruit fall(84 fruits/ha) and least (0.24 fruits/ha) in the logged and unlogged forest types respectively. Seedling establishment was significantly higher (p≤0.001) in the unlogged forest (404 seedlings/ha) than in the logged forest (72 seedlings /ha). Seedling performance was better in the unlogged forest compared to the logged forest (low mortality rate). Due to the low seedling establishment and performance of these species in the logged forest, seed trees should be marked and protected prior and after logging as prescribed in the sustainable forest management.
Forests cover a third of our planet's land.
They provide raw materials, maintain biodiversity, protect land and water resources, and play a role in climate change mitigation.
Forests are heavily exploited, but important efforts are being made to use and manage them more sustainably.
What is the current state of the world's forests?
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This is a technical forestry report prepared by the GW Group in specific relation to the establishment of Astronium tree crops in Costa Rica.
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Mark Leighton - Forests: A Pivotal Player
From Biodiversity for a Livable Climate conference: "Restoring Ecosystems to Reverse Global Warming"
Saturday November 22nd, 2014
In coming years, the world’s energy consumption is expected to increase dramatically. While fossil fuels will remain an important source of energy, renewable energies will also gain importance, as a result of concerns over high fossil fuel prices, increasing greenhouse gas emissions and energy import dependence.
Could biofuels derived from forestry products and residues help meet the energy demand?
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Unveiling the Secrets How Does Generative AI Work.pdfSam H
At its core, generative artificial intelligence relies on the concept of generative models, which serve as engines that churn out entirely new data resembling their training data. It is like a sculptor who has studied so many forms found in nature and then uses this knowledge to create sculptures from his imagination that have never been seen before anywhere else. If taken to cyberspace, gans work almost the same way.
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1. FORESTRY PRODUCTIVITY LIMITS: REAL, IMAGINED
AND POTENTIAL'
Dr. Conor Boyd'
Forest Industry Lecturer
Forestry Program
The University of Alberta
January 24, 1985
FOREST INDUSTRY LECTURE SERIES NO. 14
'Forest Industry Lecture presented at the University of Alberta, January 24, 1985
'Weyerhaueser Timber Co., Tacoma, Washington
2. THE FOREST INDUSTRY LECTURES
Forest industry in northwestern Canada is cooperating with Alberta Energy and Natural Resources to
provide funds to enrich the Forestry Program of the Faculty of Agriculture and Forestry at the University of
Alberta through sponsorship of noteworthy speakers.
The Forest Industry Lecture Series was started during the 1976-77 term as a seminar course. Desmond
I. Crossley and Maxwell T. MacLaggan presented the first series of lectures. The contribution of these two
noted Canadian foresters is greatly appreciated.
Subsequent speakers in the series have visited for periods of up to a week, with all visits highlighted
by a major public address. It has indeed been a pleasure to host such individuals as C. Ross Silversides, W.
Gerald Burch, Gustaf Siren, Kenneth F.S. King, F.L.C. Reed, Gene Namkoong, Kenneth A. Armson, John J.
Munro, Peder Braathe, Vidar J. Nordin, and Juhani Paivanen. The subjects of their talks are listed at the end of
this paper.
This paper contains Dr. Conor Boyd's major public address given on 24 January 1985.
3. DR. CONOR BOYD
Conor Boyd was born in England, is a Forestry graduate of the University of Edinburgh, Scotland, has
an M.Sc. from the University of New Brunswick and a Ph.D. in Civil Engineering from McGill University. He
has served as an Assistant Professor of Forest Engineering at the University of British Columbia, worked
overseas with Forestal International of Vancouver and joined Weyerhaeuser Company in 1972.
At Weyerhaeuser, Boyd has held several positions including Director of Raw Materials Research and
Development, Director of Forestry Research and Development and, most recently, Director of High Yield
Forestry where he has had responsibility for providing leadership and direction to the near and long term
management of his Company's forest and land assets.
iii
4. We would like to take this opportunity to express our thanks again to the sponsors of this program
— we appreciate very much their willing and sustained support:
Alberta Forest Products Association - Edmonton British Columbia Forest
Products Ltd. - Vancouver Canadian Forest Products Ltd. - Grande Prairie
Prince Albert Pulpwood Ltd. - Prince Albert Procter and Gamble Cellulose Ltd.
- Grande Prairie St. Regis (Alberta) Ltd. - Hinton
Blue Ridge Lumber (1981) Ltd. - Whitecourt
Canadian Forestry Service, Northern Forest Research Centre Edmonton
Alberta Department of Energy and Natural Resources - Edmonton
ii
5. 1
1. INTRODUCTION
Alberta currently occupies a rather enviable position as a North American timber supply region.
Amongst its many attributes it has a surplus supply of high quality, relatively low cost, wood. Because wood
is the principal cost component of most manufactured wood products and because unit wood costs tend to
decrease as biological productivity increases, Alberta's future competitive position is linked to the productive
potential of its forest.
The issues I will explore in this paper are twofold:
What are the current or potential limits to forest productivity?
How productive are Alberta's competitor geographies, specifically the Douglas-fir region and the
southern pine region?
We will first define what is meant by the term "productive potential" and, with your indulgence, I
will draw on my experience in the Douglas-fir region to illustrate the concept.
We will then examine the biological limits to growth and seek to define a spectrum of productivity
limited at the upper extreme by fundamental biological processes and at the lower extreme by the productivity
of unmanaged natural stands. Within this biological spectrum the imposition of financial considerations will
be used to define the narrower band of productivity associated with today's practices.
Following this we will explore the potential impact of new technology as a route to improving
productivity. Finally we will compare the productivity of loblolly pine, the dominant species in the U.S.
South, with the productivity of Douglas-fir, under today's management practices.
2. THE BIOLOGICAL PRODUCTIVITY SPECTRUM
I have chosen to define this spectrum with reference to productivity on a single acre. This
concentrates our attention on a management unit to which we can all relate. For discussion purposes,
Douglas-fir, growing on the west side
6. 2
of the Cascades on an average site (Site III; 105 ft. at age 50), has been chosen as descriptive of our representative acre.
The lower bound on productivity from this acre might best be described as the yield one would expect from an
unmanaged stand. Here "unmanage" refers to natural regeneration following logging with no site preparation or
subsequent management intervention until final harvest. For Site III, the average annual yield under these conditions is
approximately one cunit per acre per year' (Chambers and Wilson 1972). In other words, this is the average annual yield
one would expect from nature without intervention from man until time of harvest.
In contrast to this lower bound on productivity which is based on field measurements (Chambers and Wilson
1972), the upper bound on productivity can only be estimated as it is based on theoretical assumptions. Based on some
pioneering work on agricultural crops (Loomis and Williams 1969), John Gordon and colleagues (1982) have made some
preliminary estimates of this theoretical productivity limit for Douglas-fir. Their fundamental assumption has been that
solar radiation is the ultimate factor limiting biological productivity. Gordon et al. (1982) have described two limiting
cases of potential productivity: a "low" and a "high" yield case.
The "low" yield case describes yields that are biologically possible with today's technology. This would be
represented by cases where field seed sources were matched to a given site and where establishment, silvicultural and
management treatments are chosen to optimize yield, independent of any cost considerations. Converting Gordon's
estimates of total tree biomass to merchantable volume, the "low" case yields approximately 3 cunits per acre per year.
This figure compares favorably with an independent estimate of productivity for the same site made by our Research and
Development group. Their estimate was derived using our current Douglas-fir growth and yield model to predict the
maximum potential yields possible within the limits of today's technology. The resulting prescriptions, although
economically unacceptable, did support Gordon's concept and quantification of a biological ceiling to yields associated
with best current technology.
'Note: This assumes harvest at age 55, 80 percent of normal basal area, and a 5 percent deduct for logging breakage.
7. 3
The "high" yield case (Gordon e t al . 1982) represents an estimate of the ultimate limits of biological
productivity of Douglas-fir growing on the west side. This estimate is based on the assumption that the
fundamental bio-chemical and bio-physical processes governing the growth of trees can be identified, selected
and combined to perform at optimal levels. To achieve the high yield case, a basic restructuring of the genetic
makeup of Douglas-fir will be required. Again, converting Gordon e t al ' s (1982) estimate of biomass
production to merchantable volume, this theoretical upper bound is approximately 22 cunits per acre per year
for Douglas-fir, a staggering number!
From a pragmatic stand point, it is questionable whether the pursuit of such ultimate productivity
levels is meaningful. Perhaps more meaningful is the selection of a target productivity level for Douglas-fir in
the manner proposed by Farnum and colleagues (1983). They propose a target level that converts to yields of
approximately 5 cunits per acre per year over a rotation. Their choice falls within the range proposed by
Gordon e t al . (1982), and is close to maximum measured yields for conifers growing in north temperate
latitudes (Westlake 1963; Fogel and Hunt in press), and is close to another theoretical estimate of ultimate
productivity (Monteith 1977). Although the 5 cunits average yield, per acre per annum, is somewhat arbitrary,
it does have the appeal of being potentially achievable and will be used in this paper as a practical upper
bound on productivity.
Using the bounds described in this section a biological productivity spectrum for Douglas-fir
growing on Site III on the west side has been assembled as Figure 1. From this we can conclude:
That unmanaged natural stands for this site are producing at one-third the yield biologically possible
with today's technology and at only 20 percent of the levels potentially achievable.
3. PRODUCTIVITY OF CURRENT MANAGEMENT PRACTICES
From the previous discussion it is evident that current management practices should produce yields
that are bounded by unmanaged natural stands at the low end and by Gordon's (1982) estimate of maximum
possible yields with current technology at the upper end. Based on the Department of Natural
8.
9. 5
Resource's estimates° (Larson and Wadsworth 1982), the productivity expected from increasing levels of
management intensity - for Site III - is listed in Table 1. It should be noted that a rotation age of 55 years has
been assumed in all cases, that all estimated yields have been adjusted to those for net productive acres and for
a 5 percent, rather than a 10 percent, loss to account for logging breakage. Also implicit in this table and in the
subsequent discussion is the assumption that our representative acre is on ground that can, if required, be
commercially thinned. The productivity levels listed in Table 1 appear to be within the error of estimation of
Curtis, et al's (1981) new Douglas-fir yield forecasting model and are consistent with the general productivity
expectations of forest managers within the industry.
TABLE I. PRODUCTIVITY OF CURRENT MANAGEMENT REGIMEN
SITE III, DOUGLAS-FIR, WESTERN WASHINGTON
Regimen
Unmanaged natural stands
Productivity
(Cunits/acre/annum)
Plant (includes site prep, vegetation and animal
control)
1.0
Plant and thin (includes
precommercial 1.7 and one
commercial thinning)
1.5
Plant, thin and fertilize (all above 2.0 treatments plus 2nd commercial thinning and
fertilize at 15, 25, and 35 years
Given that an acre of bare land is going to be managed for wood production, a decision on the
appropriate level of management intensity must be made. Which, if any, of the regimens listed in Table 1
yields the highest expected returns? In answering this question, the most common approach has
°With adjustments identified in this text, and no genetic improvement.
10. 6
been to select the regimen that maximizes the discounted values of future cash flows. The inherent limitation
of this approach has been, and continues to be, the problem of accurately forecasting market values of wood
products 50 years in the future. However, if judgement is used such analyses can serve as a useful reference
point. The recent work by Larson (1977) for the Department of Natural Resources is useful as one such
reference point.
Based on this (Larson 1977) and other sources, I have generalized the cost, revenue, producvity
relationships for Douglas-fir management on Site III for 1982 technology. These relationships are shown
graphically as Figure 2.
The generalized cost curve includes all establishment and silvicultural costs on a discounted basis.
These costs typically increase linearly up to productivity levels associated with the most intensive
management levels listed in Table 2 and then increase exponentially as shown. The exponential increases
result from smaller productivity gains associated with added treatments.
The generalized "revenue" curve includes estimates of all discounted revenues from thinnings and
final harvest net of harvesting costs. This net revenue curve tends to be linear up to average annual yields of
about 1.5 cunits and takes a step shift up when commercial thinnings are initiated. Beyond productivities of 2
cunits, on this scale, revenues tend to fall off. For this site, productivity above 2 cunits per acre per year can
be achieved by carrying higher levels of stocking but this is invariably associated with smaller tree diameters
and thus lower raw material values and higher log production cost.
The difference between the discounted revenues and discounted costs is the net present value. In
Figure 2 this can be seen to increase with intensity of management up to the "plant, thin and fertilize"
regimen and then to decrease. If one accepts these generalized relationships, the conclusions are:
That increased management intensity leads to increased net returns up to a maximum for the regimen
that produces approximately 2 cunits per acre per annum (on Site III). This provides a financially
constrained productivity limit and a definition of the maximum level of management intensity
justified by these relationships.
Intensive forest management on this site results in twice the productivity achievable from unmanaged
stands.
11.
12. 8
Intensive forest management productivity levels are approximately two-thirds the level biologically
possible with today's technology. Quite clearly, we are not on a productivity plateau.
A survey of member companies conducted by the Washington Forest Protection Association (Larson
and Wadsworth 1982) would suggest there is a broad support for viewing the "plant, thin and fertilize" regimen,
of Table 1, as being representative of the most intensive management currently being practiced today.
The subsequent discussion will concentrate on the extent to which our current view of intensive forest
management might be impacted by changes in technology. In examining these potential impacts we will explore
how the basic relationships between productivity, costs and revenues of Figure 2 might change.
4. POTENTIAL IMPACT OF NEW TECHNOLOGY
Based on the previous discussion it is clear the biological productivity of today's forest is limited by a
view of financial returns and not by the capacity of this biological factory to produce. The challenge for
technology directed at increasing yields from the forest (both volume and value) is to recognize that the
fundamental economic relationships must also be changed. To be implemented by the private sector, new
technology must result in some combination of cost reduction and/or value improvement. From a productivity
standpoint, success will be measured by how far we can shift the region of maximum expected net returns to the
right on our productivity spectrum. Where should technology efforts be directed to enable us to move in this
direction?
Two types of efforts are suggested from our previous, single acre, discussion. The barriers to moving
from 2 to 3 on our scale (Figure 1) are excessive costs and inadequate returns, not biological barriers. Here the
technological challenge is to improve the full array of current practices by removing or reducing these barriers.
The principal challenge in moving from 3 to 5 on this same scale is to fundamentally change the genetic
composition of Douglas-fir stands. In practice, work to improve the effectiveness of current practices and on
genetic breeding can proceed together. It is, however, convenient to separate these efforts concceptually.
13. 9
4.1 Moving Yield From 2 to 3 on the Productivity Scale
By "current technologies" we are referring to the full array of silvicultural treatment from site
preparation through planting, vegetation management, thinning, fertilizing, to final harvest, in use today.
Fertilization serves as a good example to address how costs and returns might be improved through
improvements to this technology. Studies (Ballard 1980) have demonstrated that only 15 to 20 percent of the
total nitrogen aerially applied to a forest, in the form of urea, enters the tree. Eighty percent does not reach its
target. Alternative methods and forms of application which ensure that the fertilizer applied actually enters
the tree have significant potential for cost reduction.
An improving understanding of the nutrient requirement of trees also has the potential for improving
yield response above levels currently anticipated by five yearly applications (Axelsson 1982). Improving the
yield and concentrating it on the larger trees in a stand will result in increased returns from thinnings and
final harvest. Thus, improvements in fertilization technology have considerable potential for increased
productivity through a combination of lower costs and increased future revenues.
However, fertilization is just one example. The list of possibilities is long and with a concerted
scientific effort, the potential for improvement appears high.
4.2 Moving Yield From 3 to 5 on the Productivity Scale
Perhaps the largest opportunities for significant gains in productivity rest in this area. From both a
scientific and operational standpoint, tree improvement activities for western tree species are in their infancy.
Significant quantities of first generation improved seed have yet to be produced for Douglas-fir. By contrast,
genetic breeding and selection for many agricultural crops has progressed through at least 100 generations of
improvement. It is because this area is largely unexplored in forestry and because the incremental costs of
genetic improvement, relative to other treatments, are proportionately lower that the potential for
improvement is so promising.
14. 10
The scientific challenge is to improve the efficiency of the biological processes that produce wood.
Within a single species, trees exist that are photosynthetically more efficient; other trees exist that convert the
photosynthate to usable wood more efficiently; and still other trees enjoy a longer growing period. The
geneticist's challenge is to combine these (and other) desirable characteristics to capture all the benefits and at the
same time restrict undesirable attributes. Using the array of technologies described by Farnum et al. (1983), the
potential for increasing gain per (breed, test and select) cycle of tree improvement and for shortening this
breeding cycle appears very promising. The principal impact of genetically improved material will be to achieve
larger diameters earlier and thus improve the expected net returns from forestry investments.
Achieving the 2 cunits per acre per annum potential gains from genetic improvements alone; i.e., going
from 3 to 5 on our scale, appears biologically feasible. Whether the private sector will pursue these potential
gains, and those from improving current technologies, will depend in large part on its view of the future and on
its view of the relative costs and benefits associated with developing each new technology.
If the economic incentive exists, the potential for improving yield through improved technology exists.
Increases in productivity over current "intensive" levels on the order of two and one-half times appear feasible
for Douglas-fir non-coastal sites.
5. PRODUCTIVITY OF LOBLOLLY PINE
Having spent some time developing the notion of limits to biological productivity with reference to the
Douglas-fir region, I would now like to turn our attention to the U.S. South. Because these two geographies are
the most productive coniferous tree growing regions in North America, and because high biological productivity
tends to be associated with low wood costs, these two regions have particular relevance as long-term competitors
to Alberta as a wood producer.
An example of the growth potential of loblolly pine grown on an average site (70 ft. at age 25) on North
Carolina's coastal plain is shown in Figure 3.
15. 11
Figure 3. Growth increases of lobolly pine resulting from increasing levels of forest management intensity
(North Carolina, coastal plain, example on site 70 thinnable land, with plantation rotated at age 30).
16. 12
The "unmanaged" condition represents a base case, and reflects the productivity one would expect on
this site from natural pine regeneration followed by clear cutting at age 30 - i.e., approximately 40 cu. ft. per
acre per annum. By just planting and controlling stocking levels through thinning, the productivity can be
increased by a factor greater than 2. Modifying the site, through bedding, draining and the addition of
phosphorus, results in a further doubling of the productivity on these wet organic sites. When first generation
genetically improved seed and urea fertilizer are added to the preceding treatments the productivity is
expected to be approximately 5.7 times that of the unmanaged base case.
The productivity gains of this example are also representative of the gains achievable from today's
intensive forest management levels on other sites in the South. Thus the relative impact of intensive forest
management is greater in the U.S. South than in the Douglas-fir region (5 - 6X vs 2X). With current
technology the absolute productivity of these two regions is now similar on similar sites. That is, the best
sites in the U.S. South produce wood at the same rate as the best sites in the Douglas-fir region. However, the
in-place tree improvement programs in the South are more advanced and have the potential for pushing
Southern productivity ahead of the Douglas-fir region, on a site for site basis. This results from the lobolly
pine genetic tree improvement programs being at least one generation of breeding and testing ahead of the
Douglas-fir programs.
Clearly other factors than biological productivity also play a key role in any region's competitive
position. A large legacy of natural stand inventory, wood quality, and access/proximity to markets are crucial
competitive considerations for Alberta's forest industry.
6. FOREST PRODUCTIVITY LIMITS
From our Douglas-fir example the potential limits to productivity are at least two and one-half times
greater than today' "intensive" management levels. From a theoretical standpoint similar relative increases
should be achievable for many other coniferous forest species growing in other North temperate locations.
In the context of the Douglas-fir example, intensively managed stands are twice as productive as
unmanaged stands and financial returns, not
17. 13
biological barriers are limiting. I would define this as the current real limit to productivity - at least for this example.
Imagined limits to productivity tend to be conservative. Many people view today's level of intensive forest
management as a ceiling on forest productivity. For a variety of reasons this view is quite pervasive.
I would argue that any wood producing region that currently competes in world markets will ultimately
restrict its competitiveness with such conservative thinking. An acceptance of the idea of potential limits to
productivity and of the gap between real and potential limits is, in my view, a prerequisite to action and an important
key to future competitiveness.
18. 14
REFERENCES
Axelsson, B. 1982. Ultimate Forest Productivity, What is Possible? IUFRO Symposium of Forest Site and
Continuous Productivity, University of Washington, August.
Ballard, R. 1980. Forest Plantations, Shape of the Future. Proceedings of Weyerhaeuser Science Symposium,
#1, Tacoma, Washington.
Chambers, C.J. and Wilson, F.M. 1972. Empirical Yield Tables for the Douglas-Fir Zone. Dept. Nat.
Resources, State of Washington, Dept. Nat. Resources Rept. No. 20R.
Curtis, R.O., Glendenen, G.W. and DeMars, D.J. 1981. A New Stand Simulator for Coast Douglas-Fir:
DFSIM User's Guide. USDA, For. Serv. PNW. 128.
Farnum, P., Timmis, R. and Kulp, J.L. 1983. Biotechnology of Forest Yield. Science, Jan., Vol. 219, pp. 694-
702.
Fogel, R. and Hunt, G. (In Press). Contribution of Mycorrhizae and Soil Fungi to Nutrient Cycling in a
Douglas-Fir Ecosystem. Ecology.
Gordon, J., Farnum, P. and Timmis, R. 1982. Theoretical Maximum Phytomass Yields as Guides for Yield
Improvement. Proc. of 7th North American Forest Biology Workshop, Lexington, Kentucky, July.
Larson, D.N. 1977. Economic Analysis, Phase II, Washington Forest Productivity Study. Dept. Nat.
Resources, State of Washington, Oct. 1977).
Larson, D.N. and Wadsworth, R.K. 1982. Washington Forestry Productivity Study, Phase III, Part II. Dept.
Nat. Resources, State of Washington, Jan.
Loomis, R.S. and Williams, W.A. 1969. Maximum Crop Productivity: An Estimate. Agri. Sci. Review 7.
19. 15
Monteith, J.L. 1977. Phil. Trans. R. Soc. Land B. 281 177. Westlake, D.F. 1963. Biol. Rev. 38, 385.
20. FOREST INDUSTRY LECTURE SERIES
1. Industrial Forestry in a Changing Canada, by C. Ross Silversides. 17 November, 1977.
2. The Role of Integrated Forest Companies in Western Canada, by W. Gerald Burch. 15 March, 1978.
3. Premises of Energy Forestry in Sweden, by Gustaf Siren. 7 March, 1979.
4. Agro-forestry - Prospects and Problems, by K.F.S. King. 27 September, 1979.
5. The Role of the Federal Government in Forestry, by F.L.C. Reed. 5 March, 1980.
6. Breeding for Variable Environments, by Gene Namkoong. 14 August, 1980.
7. Federal Forestry Commitments in the 1980's, by Roger Simmons. 5 December, 1980.
8. Space, Time, and Perspectives in Forestry, by Kenneth A. Armson. 26 November, 1981.
9. Labour's Role in Forest Resource Management, by John J. (Jack) Munro. 25 March, 1982.
10. Stocking Control and Its Effect on Yields, by Dr. Peder Braathe. 4 November, 1982.
11. Timber Management Scheduling on Public Lands - Why the Future is Not Like the Past. Dr. K.N. Johnson.
29 March 1983. (Not available).
12. The Canadian Schools of Forestry - Retrospect and Prospect. Dr. V.J. Nordin. January 19, 1984.
13. Increasing the Land Base and Yield Through Drainage. J. Paivanen. 15 March 1984.
14. Forestry Productivity Limits: Real, Imagined and Potential. Conor Boyd. 24 January 1985.
Copies are available free on request to the Department of Forest Science, The
University of Alberta, Edmonton, Alberta T6G 2H1.