It is the permanent destruction of forests in order to make the land
available for other uses. These include clearing for
farming purposes, ranching and urban use. In these cases, trees are never
re-planted.
Since the industrial age, about half of
world's original forests have been destroyed and millions of animals and living
things have been endangered. Despite the improvements in education, information
and general awareness of the importance of forests, deforestation has not
reduced much, and there are still many more communities and individuals who
still destroy forest lands for personal gains.
Deforestation occurs for many reasons:
trees are cut down to be used or sold as fuel (sometimes in the form of
charcoal) or timber, while cleared land is used as pasture for livestock,
plantations of commodities and settlements. The removal of trees without
sufficient reforestation has resulted in damage to habitat, biodiversity loss
and aridity. It has adverse impacts on biosequestration of atmospheric carbon
dioxide. Deforestation has also been used in war to deprive the enemy of cover
for its forces and also vital resources. Modern examples of this were the use
of Agent Orange by the British military in Malaya during the Malayan Emergency
and the United States military in Vietnam during the Vietnam War. As of 2005,
net deforestation rates have ceased to increased in countries with a per capita
GDP of at least US$4,600.Deforested regions typically incur significant adverse
soil erosion and frequently degrade into wasteland.
Causes of Deforestation
1. Agricultural activities: As earlier
mentioned in the overview, agricultural activities are one of the major factors
affecting deforestation. Due to overgrowing demand for food products, huge
amount of tress are fell down to grow crops and for cattle gazing.
2. Logging: Apart from this, wood based
industries like paper, match-sticks, furniture etc also need a substantial
amount of wood supply. Wood is used as fuel both directly and indirectly,
therefore trees are chopped for supplies. Firewood and charcoal are examples of
wood being used as fuel. Some of these industries thrive on illegal wood
cutting and felling of trees
. 3. Urbanization: Further
on order to gain access to these forests, the construction of roads are
undertaken; here again trees are chopped to create roads. Overpopulation too
directly affects forest covers, as with the expansion of cities more land is
needed to establish housing and settlements. Therefore forest land is
reclaimed.
4. Desertification of land: Some of the other
factors that lead to deforestation are also part natural and part anthropogenic
like Desertification of land. It occurs due to land abuse making it unfit for
growth of trees. Many industries in petrochemicals release their waste into
rivers which results in soil erosion and make it unfit to grow plants and
trees.
5. Mining: Oil and coal mining require
considerable amount of forest land. Apart from this, roads and highways have to
be built to make way for trucks and other equipment. The waste that comes out
from mining pollutes the environment and effects the nearby species.
6. Fires: Another example
would be forest blazes; Hundreds of trees are lost each year due to forest
fires in various portions of the world. This happens due to extreme warm
summers and milder winters. Fires, whether causes by man or nature results in
huge loss of forest cover.
Effects
of deforestation
Looking at the importance of forests and trees in the previous
pages, you can deduce the massive effects of deforestation and tree-cutting activities.
Let us see a few below:
Soils (and the nutrients in them) are exposed to the sun’s heat. Soil moisture
is dried up, nutrients evaporate and bacteria that help break down organic
matter are affected. Eventually, rain washes down the soil surfaces and erosion
takes place. Soils never get their full potential back.
Water Cycle
When forests are destroyed, the atmosphere, water bodies and the water table
are all affected. Trees absorb and retain water in their roots. A large part of
the water that circulates in the ecosystem of rainforests remains inside the
plants. Some of this moisture is transpired into the atmosphere. When this
process is broken, the atmosphere and water bodies begin to dry out. The
watershed potential is compromised and less water will run through the rivers.
Smaller lakes and streams that take water from these larger water bodies dry
up.
Loss of Biodiversity
Many wonderful species of plants and animals have been lost, and many others remain endangered. More than 80% of the world's species remain in the Tropical Rainforest. It is estimated that about 50 to 100 species of animals are being lost each day as a result of destruction of their habitats, and that is a tragedy.
Many wonderful species of plants and animals have been lost, and many others remain endangered. More than 80% of the world's species remain in the Tropical Rainforest. It is estimated that about 50 to 100 species of animals are being lost each day as a result of destruction of their habitats, and that is a tragedy.
Many beautiful creatures, both plants
and animals have vanished from the face of the earth.
Climate Change
Plants absorb Carbon Dioxide CO2 (a greenhouse gas) from the atmosphere and uses it to produce food (carbohydrates, fats, and proteins that make up trees). In return, it gives off Oxygen. Destroying the forests mean CO2 will remain in the atmosphere and in addition, destroyed vegetation will give off more CO2 stored in them as they decompose. This will alter the climate of that region. Cool climates may get a lot hotter and hot places may get a lot cooler.
Plants absorb Carbon Dioxide CO2 (a greenhouse gas) from the atmosphere and uses it to produce food (carbohydrates, fats, and proteins that make up trees). In return, it gives off Oxygen. Destroying the forests mean CO2 will remain in the atmosphere and in addition, destroyed vegetation will give off more CO2 stored in them as they decompose. This will alter the climate of that region. Cool climates may get a lot hotter and hot places may get a lot cooler.
Economic impact
Damage to forests
and other aspects of nature could halve living standards for the world's poor and reduce global GDP by about 7% by 2050, a
report concluded at the Convention on Biological Diversity (CBD) meeting in Bonn. Historically,
utilization of forest products, including timber and fuel wood, has played a
key role in human societies, comparable to the roles of water and cultivable
land. Today, developed countries continue to utilize timber for building
houses, and wood pulp for paper.
In developing countries almost three billion people rely on wood for heating
and cooking.
The forest
products industry is a large part of the economy in both developed and
developing countries. Short-term economic gains made by conversion of forest to
agriculture, or over-exploitation of wood products, typically leads to
loss of long-term income and long-term biological productivity. West Africa, Madagascar, Southeast Asia and many other regions have
experienced lower revenue because of declining timber harvests. Illegal logging
causes billions of dollars of losses to national economies annually.
The new
procedures to get amounts of wood are causing more harm to the economy and
overpower the amount of money spent by people employed in logging. According to
a study, "in most areas studied, the various ventures that prompted
deforestation rarely generated more than US$5 for every ton of carbon they
released and frequently returned far less than US$1". The price on the
European market for an offset tied to a one-ton reduction in carbon is 23 euro (about US$35).
Rapidly growing
economies also have an effect on deforestation. Most pressure will come from
the world's developing countries, which have the fastest-growing populations
and most rapid economic (industrial) growth In 1995, economic growth in
developing countries reached nearly 6%, compared with the 2% growth rate for
developed countries.” As our human population grows, new homes, communities,
and expansions of cities will occur. Connecting all of the new expansions will
be roads, a very important part in our daily life. Rural roads promote economic
development but also facilitate deforestation. About 90% of the deforestation
has occurred within 100 km of roads in most parts of the Amazon
Control
Reducing emissions
Main international organizations including the United Nations and the World Bank, have begun to develop programs aimed at curbing deforestation. The blanket term Reducing Emissions from Deforestation and Forest Degradation (REDD) describes these sorts of programs, which use direct monetary or other incentives to encourage developing countries to limit and/or roll back deforestation. Funding has been an issue, but at the UN Framework Convention on Climate Change (UNFCCC) Conference of the Parties-15 (COP-15) in Copenhagen in December 2009, an accord was reached with a collective commitment by developed countries for new and additional resources, including forestry and investments through international institutions, that will approach USD 30 billion for the period 2010–2012.Significant work is underway on tools for use in monitoring developing country adherence to their agreed REDD targets. These tools, which rely on remote forest monitoring using satellite imagery and other data sources, include the Center for Global Development's FORMA (Forest Monitoring for Action) initiative and the Group on Earth Observations' Forest Carbon Tracking Portal. Methodological guidance for forest monitoring was also emphasized at COP-15. The environmental organization Avoided Deforestation Partners leads the campaign for development of REDD through funding from the U.S. government. In 2014, the Food and Agriculture Organization of the United Nations and partners launched Open Foris - a set of open-source software tools that assist countries in gathering, producing and disseminating information on the state of forest resources. The tools support the inventory lifecycle, from needs assessment, design, planning, field data collection and management, estimation analysis, and dissemination. Remote sensing image processing tools are included, as well as tools for international reporting for Reducing emissions from deforestation and forest degradation (REDD) and MRV] and FAO's Global Forest Resource Assessments.
In evaluating implications of overall emissions reductions, countries of greatest concern are those categorized as High Forest Cover with High Rates of Deforestation (HFHD) and Low Forest Cover with High Rates of Deforestation (LFHD). Afghanistan, Benin, Botswana, Burma, Burundi, Cameroon, Chad, Ecuador, El Salvador, Ethiopia, Ghana, Guatemala, Guinea, Haiti, Honduras, Indonesia, Liberia, Malawi, Mali, Mauritania, Mongolia, Namibia, Nepal, Nicaragua, Niger, Nigeria, Pakistan, Paraguay, Philippines, Senegal, Sierra Leone, Sri Lanka, Sudan, Togo, Uganda, United Republic of Tanzania, Zimbabwe are listed as having Low Forest Cover with High Rates of Deforestation (LFHD). Brazil, Cambodia, Democratic Peoples Republic of Korea, Equatorial Guinea, Malaysia, Solomon Islands, Timor-Leste, Venezuela, Zambia are listed as High Forest Cover with High Rates of Deforestation (HFHD).
Payments for conserving forests
In Bolivia, deforestation in upper river basins has caused environmental problems, including soil erosion and declining water quality. An innovative project to try and remedy this situation involves landholders in upstream areas being paid by downstream water users to conserve forests. The landholders receive US$20 to conserve the trees, avoid polluting livestock practices, and enhance the biodiversity and forest carbon on their land. They also receive US$30, which purchases a beehive, to compensate for conservation for two hectares of water-sustaining forest for five years. Honey revenue per hectare of forest is US$5 per year, so within five years, the landholder has sold US$50 of honey. The project is being conducted by FundaciĆ³n Natura Bolivia and Rare Conservation, with support from the Climate & Development Knowledge Network.
Farming
New methods are being developed to farm more intensively, such as high-yield hybrid crops, greenhouse, autonomous building gardens, and hydroponics. These methods are often dependent on chemical inputs to maintain necessary yields. In cyclic agriculture, cattle are grazed on farm land that is resting and rejuvenating. Cyclic agriculture actually increases the fertility of the soil. Intensive farming can also decrease soil nutrients by consuming at an accelerated rate the trace minerals needed for crop growth.The most promising approach, however, is the concept of food forests in permaculture, which consists of agroforestal systems carefully designed to mimic natural forests, with an emphasis on plant and animal species of interest for food, timber and other uses. These systems have low dependence on fossil fuels and agro-chemicals, are highly self-maintaining, highly productive, and with strong positive impact on soil and water quality, and biodiversity.
Monitoring deforestation
There are multiple methods that are appropriate and reliable for reducing and monitoring deforestation. One method is the “visual interpretation of aerial photos or satellite imagery that is labor-intensive but does not require high-level training in computer image processing or extensive computational resources” Another method includes hot-spot analysis (that is, locations of rapid change) using expert opinion or coarse resolution satellite data to identify locations for detailed digital analysis with high resolution satellite images. Deforestation is typically assessed by quantifying the amount of area deforested, measured at the present time. From an environmental point of view, quantifying the damage and its possible consequences is a more important task, while conservation efforts are more focused on forested land protection and development of land-use alternatives to avoid continued deforestation Deforestation rate and total area deforested, have been widely used for monitoring deforestation in many regions, including the Brazilian Amazon deforestation monitoring by INPE.
Forest management
Efforts to stop or slow deforestation have been attempted for many centuries because it has long been known that deforestation can cause environmental damage sufficient in some cases to cause societies to collapse. In Tonga, paramount rulers developed policies designed to prevent conflicts between short-term gains from converting forest to farmland and long-term problems forest loss would cause while during the 17th and 18th centuries in Tokugawa, Japan, the shoguns developed a highly sophisticated system of long-term planning to stop and even reverse deforestation of the preceding centuries through substituting timber by other products and more efficient use of land that had been farmed for many centuries. In 16th-century Germany, landowners also developed silviculture to deal with the problem of deforestation. However, these policies tend to be limited to environments with good rainfall, no dry season and very young soils (through volcanism or glaciation). This is because on older and less fertile soils trees grow too slowly for silviculture to be economic, whilst in areas with a strong dry season there is always a risk of forest fires destroying a tree crop before it matures.
In the areas where "slash-and-burn" is practiced, switching to "slash-and-char" would prevent the rapid deforestation and subsequent degradation of soils. The biochar thus created, given back to the soil, is not only a durable carbon sequestration method, but it also is an extremely beneficial amendment to the soil. Mixed with biomass it brings the creation of terra preta, one of the richest soils on the planet and the only one known to regenerate itself.
Sustainable practices
Bamboo is advocated as a more
sustainable alternative for cutting down wood for fuel.
Certification, as provided by global certification systems such as Program for the Endorsement of Forest Certification and Forest Stewardship Council, contributes to tackling deforestation by creating market demand for timber from sustainably managed forests. According to the United Nations Food and Agriculture Organization (FAO), "A major condition for the adoption of sustainable forest management is a demand for products that are produced sustainably and consumer willingness to pay for the higher costs entailed. Certification represents a shift from regulatory approaches to market incentives to promote sustainable forest management. By promoting the positive attributes of forest products from sustainably managed forests, certification focuses on the demand side of environmental conservation." Rainforest Rescue argues that the standards of organizations like FSC are too closely connected to industry interests and therefore do not guarantee environmentally and socially responsible forest management. In reality, monitoring systems are inadequate and various cases of fraud have been documented worldwide.
Some nations have taken steps to help increase the amount of trees on Earth. In 1981, China created National Tree Planting Day Forest and forest coverage had now reached 16.55% of China's land mass, as against only 12% two decades ago
Using fuel from bamboo rather than wood results in cleaner burning, and since bamboo matures much faster than wood, deforestation is reduced as supply can be replenished faster.
Reforestation
In many parts of the world, especially in East Asian countries, reforestation and afforestation are increasing the area of forested lands. The amount of woodland has increased in 22 of the world's 50 most forested nations. Asia as a whole gained 1 million hectares of forest between 2000 and 2005. Tropical forest in El Salvador expanded more than 20% between 1992 and 2001. Based on these trends, one study projects that global forest will increase by 10%—an area the size of India—by 2050.
In the People's Republic of China, where large scale destruction of forests has occurred, the government has in the past required that every able-bodied citizen between the ages of 11 and 60 plant three to five trees per year or do the equivalent amount of work in other forest services. The government claims that at least 1 billion trees have been planted in China every year since 1982. This is no longer required today, but March 12 of every year in China is the Planting Holiday. Also, it has introduced the Green Wall of China project, which aims to halt the expansion of the Gobi desert through the planting of trees. However, due to the large percentage of trees dying off after planting (up to 75%), the project is not very successful.[ There has been a 47-million-hectare increase in forest area in China since the 1970s. The total number of trees amounted to be about 35 billion and 4.55% of China's land mass increased in forest coverage. The forest coverage was 12% two decades ago and now is 16.55%.
An ambitious proposal for China is the Aerially Delivered Re-forestation and Erosion Control System and the proposed Sahara Forest Project coupled with the Seawater Greenhouse.
In Western countries, increasing consumer demand for wood products that have been produced and harvested in a sustainable manner is causing forest landowners and forest industries to become increasingly accountable for their forest management and timber harvesting practices.
The Arbor Day Foundation's Rain Forest Rescue program is a charity that helps to prevent deforestation. The charity uses donated money to buy up and preserve rainforest land before the lumber companies can buy it. The Arbor Day Foundation then protects the land from deforestation. This also locks in the way of life of the primitive tribes living on the forest land. Organizations such as Community Forestry International, Cool Earth, The Nature Conservancy, World Wide Fund for Nature, Conservation International, African Conservation Foundation and Greenpeace also focus on preserving forest habitats. Greenpeace in particular has also mapped out the forests that are still intact and published this information on the internet. World Resources Institute in turn has made a simpler thematic map showing the amount of forests present just before the age of man (8000 years ago) and the current (reduced) levels of forest These maps mark the amount of afforestation required to repair the damage caused by people.
Forest plantations
To meet the world's demand for wood, it has been suggested by forestry writers Botkins and Sedjo that high-yielding forest plantations are suitable. It has been calculated that plantations yielding 10 cubic meters per hectare annually could supply all the timber required for international trade on 5% of the world's existing forestland. By contrast, natural forests produce about 1–2 cubic meters per hectare; therefore, 5–10 times more forestland would be required to meet demand. Forester Chad Oliver has suggested a forest mosaic with high-yield forest lands interspersed with conservation land.
In the country of Senegal, on the western coast of Africa, a movement headed by youths has helped to plant over 6 million mangrove trees. The trees will protect local villages from storm damages and will provide a habitat for local wildlife. The project started in 2008, and already the Senegalese government has been asked to establish rules and regulations that would protect the new mangrove forests.
Saswati Mukherjee
Jamuna Sharma
