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Ranil Senanayake
Analog Forestry is a silvicultural system
that seeks to create a tree-dominated
ecosystem that is analogous to the origina...
Structure Function
Design
Formula = Structure
Database = Function
Map = Design
Principles of Analog Forestry
The natural ecosystems of any area
represents the outcome of eons of
experience in dealing with the climate
and impacts at...
Record the species and ecosystems present in the area under
treatment. The initial data will assist in setting a baseline ...
Principle 1 Observe and record
1. Basic growth forms
Woody plants
Broadleaf evergreens
Broadleaf deciduous
No leaves
Semid...
Understand the ecosystem being
observed in as many perspectives
as possible. It will function in one
way for the ornitholo...
The generation of a database
concentrating on the vegetation species
that are (were) present in the area and the
potential...
Once an understanding of the components of the ecosystem
in question is gained, it is possible to evaluate the species
wit...
The better a manager understands his or her land
the better will be the management response. A
good understanding of the g...
The farm map or farm plan should reflect not only the
current situation but also the desired future condition.
Principle 3...
Identify the different economic outputs possible as a
consequence of the design. All of consumptive products
will have an ...
Finally, the levels of yield should correspond to the value
set on different aspects of the design by the owner. For
insta...
Every landscape has flow through it, solid, liquid, gas and genetic that
produce distinct patterns. Usually the direction ...
Heterogeneity, or a difference between various
landscape elements is a fundamental cause of
species movements and material...
Mineral nutrients flow in and out of a
landscape. Their residence time within
an ecosystem is governed by the
dynamics of ...
Principle 6 Reduce ratio of
external energy in production
All ecosystems use energy to maintain their identity. In agricul...
The example above illustrates the need to identify
baseline descriptors that can be considered as ground
states or thresho...
This process, while still maintaining its identity, has increased
in some manner but now requires a constant input of x+y ...
All farming land will be a part of a natural landscape. The boundaries
of which are often set by definition. A common crit...
Principle 7 Be guided by landscape and
neighbours needs.
In the development of a forest system maturity brings changes in the
trophic web, which in turn, are demonstrated by chang...
The early seral stages such as grasslands, herbfields, meadow etc.
have their particular seral analogues; these are the sy...
In designing for structure, the seral stage that is best suited for
the crops chosen provides the model. Thus, if the crop...
Principle 8 Follow ecological succession
Principle 9 Utilize ecological processes
Incorporation of ecological processes into design always contributes to
further s...
Principle 10 Value Biodiversity
Biodiversity has been perceived in many ways over the
ages. It is pattern wrought in bioma...
The pattern of increasing ecological stability with
increasing diversity in land use has been corroborated
by studies of t...
Scientific approaches to the measurement of
biodiversity can yield methodologies that can
be used to set value on various ...
However, Until modern society recognizes the fact that there are
values other than monetary, there will be a need for 'obj...
Principle 10 Value Biodiversity
ECOSYSTEMS
Páramo Amazonía
Manglares Galápagos
Maturity is the end condition all ecosystems
tend to develop towards. It represents the
ability to stay sustainable in a g...
In the end, every artist has to use the palette at hand. The
database may be incomplete, the maps may be poor. Often, data...
Two approaches to drainage. One with efficiency of drainage as the dominant
design , the other with the natural system bei...
Principles of Analog Forestry
Principles of Analog Forestry
Principles of Analog Forestry
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Principles of Analog Forestry

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A presentation by Dr. Ranil Senanayake, founder of the Analog Forestry design science, describing the design process and principles used in Analog Forestry.

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Transcript of "Principles of Analog Forestry"

  1. 1. Ranil Senanayake
  2. 2. Analog Forestry is a silvicultural system that seeks to create a tree-dominated ecosystem that is analogous to the original mature ecosystem in architectural structure and ecological function. Principles of Analog Forestry Formula Database Map
  3. 3. Structure Function Design Formula = Structure Database = Function Map = Design Principles of Analog Forestry
  4. 4. The natural ecosystems of any area represents the outcome of eons of experience in dealing with the climate and impacts at that place. If the area or landscape in question is fortunate enough to contain some representative element, excellent! If something remains, though in a degraded condition, it is still useful, there will be many lessons to be learned. If nothing remains, look to history, books, stories, and local experience build up an idea of what the land once sustained. Observe the ecosystems and the patterns of biodiversity in the area to be treated. Principle 1 Observe and record
  5. 5. Record the species and ecosystems present in the area under treatment. The initial data will assist in setting a baseline against which future observations their changes can be evaluated. Recording is also of importance in evaluating the management activity and in maintaining a management history. It is important to record the physiognomic formula for the vegetation types on the land. The structure of the system will demonstrate a wide range of different architectural responses varying from trees to lianas. While it is useful to appreciate that there may be differences between juvenile and adult forms, the primary design consideration will centre on the adult form. Thus tree species are identified as having a terminal, decurrent or excurrent growth structure, with the crown occupying a dominant, co-dominant, intermediate or suppressed position. Other growth forms are similarly recorded Principle 1 Observe and record
  6. 6. Principle 1 Observe and record 1. Basic growth forms Woody plants Broadleaf evergreens Broadleaf deciduous No leaves Semideciduous Mixed Herbaceous Plants Grasses Ferns Lichens and mosses 2. Spe cial growth forms Vines Succulents (cactus) Bushy plants/shrubs Bamboos Epiphytes Palms 3. Le af Characte ristics Consistency Hard Soft Succulent Size Large (greater than 12.7 cm) Medium (7.6-12.6 cm) Small (2.5-7.5 cm) Very small (less than 2.5 cm) Symbol E D O S M G F L V S U B Y P h s z l m p t B. Structure Height Cover Height level Type of Cover 8 = over 35 m Continuous (over 75%) c 7 = 20-35 m Inte rrupted (50-75%) i 6 = 10-20 m In patches (25-50%) p 5 = 5-10 m Rare (6- 25%) r 4 = 2-5 m Sporadic (1-6%) e 3 = 5-2 m Nearly absent (<1%) a 2 = 10-50 cm 1 = less than 10 cm EXAMPLES OF FORMULA Example 1 V7cdm, V6izn, V6idm, V6rdg; H2c, H2-6r, L2-7c; S2-6c; E2-7i P6i Example 2 V8rdm, V7idm, V6idg, V5rdg; H2c; S2-6i; L2-6c; T8c; E7-8h; P7c; S3h **A good way to become familiar wi th the code is to draw out the two examples above and see what kinds of forests are being described.
  7. 7. Understand the ecosystem being observed in as many perspectives as possible. It will function in one way for the ornithological element, another for the herpetological element another for the hydrological performance and yet another for its social and economic performance. The ecosystem will have certain physiognomic features and taxonomic features. A synthesis of many variables will always yield better choices of the species and patterns to be used in design. This is when the observations and records must be synthesised with as much scientific and traditional information as possible. Principle 2 Understand and Evaluate
  8. 8. The generation of a database concentrating on the vegetation species that are (were) present in the area and the potential new species to be considered is a critical part of such recording and should be initiated at the inception of the project. This enables an assessment of both ecological function and anthropocentric function, which includes economic, social or cultural values provided by a single species or by the community as a whole. The performance of each member of the vegetation complex impacts the stability of the ecosystem. A soil building species might contribute to its stability positively, while an invasive species might contribute negatively. Principle 2 Understand and Evaluate
  9. 9. Once an understanding of the components of the ecosystem in question is gained, it is possible to evaluate the species within it in terms of the management goals. Principle 2 Understand and Evaluate Data Base exercise to determine species ecological functions and structures Name Scientific Name Human Use Ecological functions Root system Growth form Micro- habitat Propagation Manzana tropical Syzgium malacense Edible/ construction Birds/insects Deep Overstory Tree shade Seed; germination 15 dias Platanillo Hiliconiaceae sp Floral Birds, reptiles Superficial Low growth humidity Seeds, rhizomes Durian Durio zibethinus Edible/ construction Birds/ mammals Deep Irregular Tree shade Seed, grafting
  10. 10. The better a manager understands his or her land the better will be the management response. A good understanding of the geography of the land, its peculiarities and its history is important prior to design. A powerful tool, in understanding the land is a carefully drawn out map that identifies the most pertinent features of the farm. Mapping the land is best done if developed as a series of overlays. Once the physical boundaries have been mapped, overlays that demarcate the contours, the hedges, fence lines, vegetation, soils, wind direction and water flow are some useful variables. Know the land in terms of its soil condition and biodiversity. The soil ecosystem and surface vegetation are the most important assets of a farm. The soil, as much as the trees, crops or livestock upon it, is a constantly changing, living thing. All we have to do is occasionally turn the soil with a spade to be impressed by this fact. However, something is very wrong with much of this resource today. Salting, wind erosion, water erosion, acidification and structural decline are on a landscape scale, like scabs or wounds on a diseased animal, these are indicators of ill health and disease. Principle 3 Know your land
  11. 11. The farm map or farm plan should reflect not only the current situation but also the desired future condition. Principle 3 Know your land
  12. 12. Identify the different economic outputs possible as a consequence of the design. All of consumptive products will have an optimum level of extraction. The awareness of optimum yield level of each resource and designing for sustainable production will assist in setting the levels of yield and determining design. Principle 4 Identify levels of yield Design decisions as well as management decisions, will ultimately be based on goals and activities that facilitate the achievement of such goals. A good knowledge of the levels of yield both in terms of individual species and ecosystem services is important. The yield required will differ depending on the priorities of the landowner or manager. If the goal is conservation the yield will be measured by increases in the target species, if the goal is economic gain the yield will be measured in terms of income or production. If the demand for yield is focussed on a single crop the higher the yield required the more the production system would move towards a single species monoculture.
  13. 13. Finally, the levels of yield should correspond to the value set on different aspects of the design by the owner. For instance one owner might look for Bird and Butterfly increase as yield because ecotourism is seen as the income source, while another operator might look for high value market crop production because traditional agriculture is seen as the income source. Principle 4 Identify levels of yield
  14. 14. Every landscape has flow through it, solid, liquid, gas and genetic that produce distinct patterns. Usually the direction of flow in solids, liquids and gasses is governed by gravity, resulting in the very characteristic drainage patters of water or soil flowing on land. Similarly wind moving across the landscape produce some significant patterns. Genes usually follow existing corridors of ecosystems conducive for that species. The understanding of the flow systems across the farm or land area to be managed is useful in setting the design. Cutting across flow systems is usually not productive. Following, augmenting or ameliorating flow systems to improve the ecosystem being designed, such that the crop or organism under management, will improve in productivity. The other consideration when looking at flow systems across a landscape its the propensity to form reservoirs. In waterflow systems, reservoirs, be it natural or artificial can contribute greatly to local productivity. A similar relationship can be seen in the soil, with mineral soils weathering and flowing to form reservoirs of concentrate, the pattern is repeated in the flow of the organic fraction of the soil. Principle 5 Map out flow and reservoir system (existing and potential)
  15. 15. Heterogeneity, or a difference between various landscape elements is a fundamental cause of species movements and material flows. The distribution of species and the condition of landscape structure are linked in a feedback loop so that the expansion and contraction of species among landscape elements has a major effect on, as well as being controlled by, landscape heterogeneity. As spatial heterogeneity increases so does the potential for energy flow across ecosystem boundaries. As the number of individual ecosystems increase within a landscape, a greater proportion of edge animals and plants move between adjacent systems. Thus, as landscape heterogeneity increases so do the flows of heat energy, nutrients and biomass across the boundaries separating the various elements. Principle 5 Map out flow and reservoir system (existing and potential)
  16. 16. Mineral nutrients flow in and out of a landscape. Their residence time within an ecosystem is governed by the dynamics of wind, water and organisms. Most ecosystems have well developed regulatory mechanisms to hold their requirement of nutrient within that system. However disturbance, especially when severe disrupts these mechanisms and facilitates transport to adjacent or other ecosystems. Therefore the rate of redistribution of mineral nutrients among landscape elements increases with the intensity of disturbance within them. Principle 5 Map out flow and reservoir system (existing and potential)
  17. 17. Principle 6 Reduce ratio of external energy in production All ecosystems use energy to maintain their identity. In agricultural ecosystems, productivity is a goal and energy is expended at meeting this goal. Often energy subsidies from outside the farm have to be provided. As an increase in the flow of energy tends to organize and simplify the system, increases in external energy inputs impact both biodiversity and sustainability. Increases of energy to an ecosystem represent a measure by which ecosystem modification can be addressed. Increases in the input of energy to an ecosystem, tends to organize and simplify that ecosystem and change its biodiversity, the removal of that input will lead to a collapse of the system. The greater the modification of the system, the greater it depends on external inputs. Thus energy dependency can provide a measure by which ecosystem modification can be addressed. In a heavily energy dependent agricultural system, the natural or biological system has been dispensed with and an artificial environment has been created to allow for increased production. Such a system is not only unsustainable; it creates a dependency cycle that the operator will find difficult to break out of.
  18. 18. The example above illustrates the need to identify baseline descriptors that can be considered as ground states or thresholds from which a measure of sustainability or non-sustainability can be described. For instance, if a process uses a certain amount of inputs to maintain its identity, it can be described relative to that level of inputs identified as the baseline. Any change in state that requires a change in the amount of inputs required to maintain its stability and productivity can then be evaluated as to its potential for sustainability. If a process uses x inputs to maintain its identity and if this process can maintain itself by securing these from its environment, it can be termed a sustainable process. Now the same process can be accelerated or expanded by adding y inputs. Principle 6 Reduce ratio of external energy in production
  19. 19. This process, while still maintaining its identity, has increased in some manner but now requires a constant input of x+y to maintain this state. The removal of the extra inputs could lead to the process degrading to a state different to the original ground state. Principle 6 Reduce ratio of external energy in production
  20. 20. All farming land will be a part of a natural landscape. The boundaries of which are often set by definition. A common criterion to delineate a landscape is on a watershed basis. Once identified, each landscape can be divided into various replicating, such as open fields, tree covered, homesteads, roads, streams etc. A landscape will often have many vegetation components ranging from mature native vegetation to open meadows. The patches of remnant vegetation often being the only habitat left for native biodiversity. The connection of these habitat patches with corridors will reduce the populations' vulnerability to extinction. Small isolated populations are particularly threatened with extinction due to ongoing deterministic factors and greater influence of stochastic processes Indeed it is the stochasticity inherent in small populations (e.g. the chance that all offspring born in one season are male) that will ultimately lead to its extinction. Corridors can increase the effective size of the habitat patch and lessen the chance of local extinction. The more analogous to the original, the more effective the corridor. Another possibility is to increase patch size by creating an outwardly expanding zone of vegetation analogous to the original ecosystem Principle 7 Be guided by landscape and neighbours needs.
  21. 21. Principle 7 Be guided by landscape and neighbours needs.
  22. 22. In the development of a forest system maturity brings changes in the trophic web, which in turn, are demonstrated by changes in species composition. The tree species that are characteristic of each stage confer stability to that particular stage, thus mid-seral successional stages are often better adopted as design criteria for woodlots, orchards, home gardens, tree farms or agroforests. Early successional stages are mimicked by annual agriculture and pasture. Incorporation of ecological processes that contribute to further stability, can thus lend a great deal to design. In the tropics, the use of mid-seral leguminous trees such as Erythrina, Gliricidia, and Inga as shade trees for tea, coffee and is common, as the crop plants are shade adapted mid seral plants and do best in a microclimate created by light shade. Principle 8 Follow ecological succession
  23. 23. The early seral stages such as grasslands, herbfields, meadow etc. have their particular seral analogues; these are the systems of annual cropping or pasture. The ecological characteristics of the early seral stages are r selected life strategies, that is plants that are short lived, low root/shoot ratios, produce many seeds, etc. While it is possible to enable many such ecosystems to develop into more mature states, the relative advantages of changing this land to forest type ecosystems has to be carefully considered. Principle 8 Follow ecological succession
  24. 24. In designing for structure, the seral stage that is best suited for the crops chosen provides the model. Thus, if the crops in question are annuals, such as cereal grain, beans, squashes etc. the pioneer stages provide the model. If the crops in question are perennials such as coffee, fruit etc, the later seral stages provide the model. The pioneer stages in most ecosystems are diverse and incorporate a range of plant types capable of high productivity, a pattern often reflected in traditional agriculture. The early seral stages of forest ecosystems, provide the next growth or building up phase Principle 8 Follow ecological succession
  25. 25. Principle 8 Follow ecological succession
  26. 26. Principle 9 Utilize ecological processes Incorporation of ecological processes into design always contributes to further stability. All ecosystems are driven by a series of processes some of which are significant important and contribute to maintaining stability and productivity. Ecological processes in every ecosystem, allow for increases in efficiency through management. The identification of key processes such as edge effects, where the ecotone or the boundary between two ecosystems facilitates a higher biodiversity, keystone species: A species on which the persistence of a large number of other species on the ecosystem depends and whose impacts are greater than would be expected from its relative abundance or total biomass. or the use of indicator species, organisms that correspond to a certain level or state of biodiversity, will enable the design of an effective and elegant model.
  27. 27. Principle 10 Value Biodiversity Biodiversity has been perceived in many ways over the ages. It is pattern wrought in biomass at any time. It provides the variety of our living world, has been the source of human inspiration across cultures and ages. Biodiversity provides the material as well as the indicators for sustainable land management. In modern times it is invaluable as a management tool as the level of biodiversity is an extremely useful measure of the health of ecosystems. Thus, the integration of biodiversity needs into laws and policies governing natural resource based production systems is essential for management towards a higher degree of stability and sustainability.
  28. 28. The pattern of increasing ecological stability with increasing diversity in land use has been corroborated by studies of traditional land managers, whose management systems are sustainable and who conserve a much higher level of biodiversity than conventional responses . High levels of diversity in the agricultural field produce positive effects of biological control, spread the risk in marketing and production, as well as distributing labour needs to fit with a single family unit . These methods of land management have much to contribute to biodiversity management. Principle 10 Value Biodiversity
  29. 29. Scientific approaches to the measurement of biodiversity can yield methodologies that can be used to set value on various types to land management. However, it is also useful to stop and reflect that humanity did not always perceive biodiversity in such analytical ways. Consider the sentiments of Chief Seattle in 1854. Our ways are different to your ways. The sight of your cities pains the eyes of the red man. But perhaps it is because the red man is a savage and does not understand. There is no quiet place in the white man's cities. No place to hear the unfurling of leaves in the spring or the rustle of insects wings. But perhaps it is because I am a savage and I do not understand. The clatter only seems to insult the ears. And what is there to life, if a man cannot hear the lonely cry of the whip-poor-will or the arguments of the frogs around a pond at night? I am a red man and do not understand. The Indian prefers the soft sound of the wind darting over the face of a pond, and the smell of the wind itself, cleansed by a midday rain, or scented with the pinion pine. Principle 10 Value Biodiversity
  30. 30. However, Until modern society recognizes the fact that there are values other than monetary, there will be a need for 'objective measurement' to set value. To obtain some universally agreed measurement of biodiversity is an important international goal. Such an agreement can allow the linking of biodiversity measures to development funding. An expressed objective of the Global Biodiversity Strategy (GBS) is, 'to integrate biodiversity conservation into international economic policy' It is an issue today, because the beauty and wonder of the living world cannot have meaning in the marketplace. As a consequence, this value of biodiversity has retreated before the onslaught of the monocultures of economic expediency. Principle 10 Value Biodiversity
  31. 31. Principle 10 Value Biodiversity ECOSYSTEMS Páramo Amazonía Manglares Galápagos
  32. 32. Maturity is the end condition all ecosystems tend to develop towards. It represents the ability to stay sustainable in a given geographical site. Seral succession or the gradual changing of species and structures in an ecosystem as it moves towards maturity is a singularly important consideration in design. Maturity is a process more than an end condition. Mature ecosystems are usually higher in biomass, though not necessarily in biodiversity than more immature systems. As maturity confers stability every element of a landscape that can mature should be encouraged to do so. The term climax is often used to denote the end state of seral succession in tree-dominated ecosystems. Principle 11 Respect Maturity
  33. 33. In the end, every artist has to use the palette at hand. The database may be incomplete, the maps may be poor. Often, data on the region may be lacking, familiarity with landscapes or ecosystems are often superior to poor data. Every landscape and its associated ecosystems will have unique characteristics, some a level significant for design, others not. Every landscape, every ecosystem has nestled within it many more. Management and monitoring has to proceed on an uniform scale. Responding to change on the landscape must be biased towards system sustainability rather than short term responses. All this requires the designer to respond skilfully and creatively Principle 12 Respond creatively
  34. 34. Two approaches to drainage. One with efficiency of drainage as the dominant design , the other with the natural system being the dominant design
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