SUSTAINABLE DEVELOPMENT
In seeking a "solution" to deforestation of tropical rainforests - whether it be through debt-for-nature-swaps,
extractive reserves, selective logging, ecotourism, or another strategy - the ultimate fate of forests rests in
the hands of local people. While some would argue rainforests can be "saved" by restricting economic
growth, it is necessary to realize parks and reserves will not persist unless local communities are persuaded that
it is in their material interest to conserve.
AGRICULTURE
For thousands of years tropical rainforests have been managed to sustain productive agriculture and at times, sustain
dense human populations. It is estimated that more land was under cultivation in the Amazon on the eve of the arrival
of Columbus than is today. Studies suggest that nearly 12% of Amazonian terra firme (upland) forests are "anthropogenic
in nature resulting from prolonged management by prehistoric populations." The fact that certain forms of
agriculture are possible is a vital consideration for the sustainable, economic development of tropical rainforests.
Rainforests have a long history of disturbance by humans who promoted areas of concentrated diversity of useful
species within a diverse landscape. Without undermining the ecological basis of production, indigenous communities
promoted the abundance of certain valuable species by creating conditions favoring their growth and development.
Palm forests, groves of Brazil nuts and fruit trees, and vine forests about near ancient Amazonian settlements
(past settlements are marked by the presence of pottery and anthropogenic "black soils"). These vegetation
types have species useful for everyday life.
ACTIONS
Today we can incorporate the techniques of indigenous peoples into agricultural projects in the rainforest to increase
the productivity of degraded forest lands and promote sustainable use of forest resources. Through agroforestry
and floodplain orchards outright destruction of rainforests can be avoided, while improving economic efficiency
and providing a source of income for rural poor.
About 60% of rainforest deforestation is caused by the shifted cultivator, who is usually pushed to marginal lands by
lack of other suitable land. In some areas these farmers may be forced into the forests as a result of population
growth and by landowners who hold large tracts of farmland. In many countries wealthy landholders - who have
the most political clout, - control the most productive lands leaving the small farmers little choice but to clear a
homestead from the forest.
For example, in Brazil, 10% of the population owns almost 90% of the fertile land. In
many countries the politically expedient way for dealing with this skewed land-distribution has been to open up
"unused" wildlands for poor farmers rather than confront large landowners.
Some would argue that some form of agrarian land reform is the best way to attack forest loss caused by "swidden
agriculture." Land reform may return some productive land over to peasants and be accomplished by reducing
subsidies granted to large landowners for leaving tracts of their land uncultivated.
However, a better approach to addressing the needs of the shifted cultivator and agriculturist alike is improving
and intensifying currently existing agricultural projects and promoting alternative cultivation techniques - notably
agroforestry - based on those used by indigenous forest dwellers. Many cleared forest areas used for agriculture
and now in decline can be salvaged by cultivation techniques that loosely mimic the diversity of the surrounding
rainforest. In other words, polycultural fields - patchworks of perennial crops, annual crops, pasture land, secondary
growth, and forest - could be the key to increasing agricultural productivity and reducing destruction in many
rainforests.
Historically, agriculture in the Amazon rainforest has had a highly dynamic nature whether it be on a grand scale
or at a subsistence level. Today a good deal of rainforest agriculture consists of monocultures (single crop fields)
of annual crops which must be replanted on a regular basis to sustain yields. Poor tropical soils quickly wear
out under a regime of annuals and fertilizers must be added or additional forest needs to be cleared if growth
is to continue.
Brazil Moves to Slow Amazon
Settlement
Many forest dwellers instead focus on perennials - crops which continue
to produce for a number of years like citrus, manioc, vanilla, banana, mango, pepper, cacao, coffee, and rubber
- as the basis of their agricultural techniques. Instead of continuously clearing new sections of forest, these
cultivators plant perennials or a mixture of perennials and annuals on their patch of land. Perennials can help
restore nutrients to degraded soils and remain productive for decades, bringing a steady stream of cash to needy
farmers.
A mixture of perennials and annuals often works best for agricultural plots because such polycultural fields provide
a diversified income (prices of many cash crops are notoriously volatile) and insurance if one crop fails. The
home gardens of many forest dwellers are one form of agriculture well suited to the rainforest environment. These
diverse agroforestry systems provide a wealth of plant species - both local and foreign [tropical plants like mango,
pineapple, manioc, papaya, and orange have almost cosmopolitan distribution today] - useful in everyday life. Home
gardens can serve as a living pharmacy and a local hardware store, while providing shade for humans and livestock,
foods for the kitchen, and ornamentals. Many home gardens contain remnants from old growth forest in that useful
forest trees (like Brazil nuts) often left standing when clearing a homestead.
An added bonus of such agroforestry systems is they maintain forest systems, soils, and biological diversity at
a far higher level than do conventional agricultural techniques. As long as such fields are adjacent to secondary
and old growth forest, many species will continue to thrive. Growing crops like coffee, cocoa, bananas, and vanilla in the
shade of canopy trees preserves more biodiversity than standard cultivation techniques. In recent years, "rainforest-friendly"
coffee has gained popularity and is now heavily promoted in some parts of the United States. Polycultural fields
also recover considerably faster than conventional fields when they are abandoned because forest systems - such
as hydrological cycles, nutrient recycling, and seed dispersal - are maintained.
Additionally, seed banks in the
soil persist and crop trees provide shade necessary for canopy tree seed generation, allowing a relatively smooth
transition to secondary forest once the farmer moves on to a new area.
Despite all these positives, sustainable agriculture faces several hurdles in reaching widespread acceptance. Agroforestry
and other forms of reduced impact agriculture are more attuned to the ecological realities than most forms of agriculture
in the rainforest, but they must also be attuned to economic realities. For example, many migrants to the rainforest
are ignorant of such cultivation methods. Instead - assuming they even know anything of agricultural techniques
- they often rely on what works in different climates and soil conditions; methods that traditionally fail on cleared
rainforest lands. For example, under the Indonesian transmigration program, facing crop failures, these transmigrants
ironically adopt the cultivation techniques of the very locals whose farming system they were sent to improve.
Thus, one major challenge in promoting agroforestry is overcoming the ignorance of many rainforest migrants of
such farming techniques. A second obstacle is the lack of access for many rural poor. Without means to transport
their goods to market or even a market for their goods, locals have little chance of turning a profit for their
labor. Another issue for consideration is the lack of credit facilities for poor farmers to borrow in times of
need. Overcoming these obstacles - whether through improvement of existing roads, education systems, UN initiatives,
or other means will bring us much closer to resolving the shifted cultivator problem. Without satisfying the peasant
farmer, deforestation for subsistence agriculture will only grow worse as the population of more than 600 million
poor tropical farmers worldwide continues to expand at 4-6% annually.
Agroforestry techniques can be applied on a larger scale using corridors of forest and a mixture of perennials
and annuals. While management and harvesting costs would likely increase, these negatives could be outweighed by
the value of income diversification, soil protection, maintenance of forest functions, and preservation of biodiversity.
Sustainable agriculture is one of many means that can offer economic survival to landless poor and industry. Sustainable
development through harvesting of the forests' renewable has potential for saving rainforests by providing tangible
returns in the short-run.
