Distribution Of Natural Resources

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Distribution of natural Resources

World Distribution of forest reserves

Forests cover 31 percent of the world’s land surface, just over 4 billion hectares. (One hectare = 2.47 acres.) This is down from the pre-industrial area of 5.9 billion hectares. According to data from the U.N. Food and agriculture Organization, deforestation was at its highest rate in the 1990s, when each year the world lost on Average 16 million hectares of forest—roughly the size of the state of Michigan. At the same time, forest area expanded in some places, either through planting or natural processes, bringing the global net loss of forest to 8.3 million hectares per year.  In the first decade of this century, the rate of deforestation was slightly lower, but still, a disturbingly high 13 million hectares were destroyed annually. As forest expansion remained stable, the global net forest loss between 2000 and 2010 was 5.2 million hectares per year.

Global rates of deforestation do not capture the full damage done to the world’s forests. Forest degradation from selective logging, road construction, Climate change, and other means compromises the Health of remaining forests. Each year the world has less forested area, and the forests that remain are of lower quality. For example, replacing natural old-Growth forests with a Monoculture of an exotic species greatly reduces Biodiversity-2/”>Biodiversity.

The spread of planted forests has been accelerating, rising from an expansion of 3.7 million hectares annually in the 1990s to 4.9 million hectares annually the following decade. Planted forests now cover some 264 million hectares, comprising nearly 7 percent of total forest area. Plantations now have the potential to produce an estimated 1.2 billion cubic meters of industrial wood each year, about two thirds of current global wood production. Where forests have already been cleared, plantations can alleviate the pressure on standing forests.

Forests are primarily threatened by land clearing for agriculture and pasture and by harvesting wood for fuel or industrial uses. In Brazil—which has lost 55 million hectares since 1990, an area three fourths the size of Texas—land clearing for farms and ranches is the big driver.  Home to the Amazon rainforest, Brazil contains 13 percent of the world’s forested area, second only to Russia’s 20 percent. Between 2000 and 2010, Brazil lost 2.6 million hectares of forest each year, more than any other country. Brazil is trying to reduce deforestation rates 80 percent from the 1996–2005 average by 2020 and has in fact seen a large drop in deforestation in recent years. But rising beef, corn, and soybean prices are likely to pressure the government to weaken its forest protection, further threatening the world’s largest rainforest.

Two other South American countries, Bolivia and Venezuela, have also felled large areas of trees, making South America the region with the largest forest loss between 2000 and 2010.  The continent lost 40 million hectares of forest during that period.

Africa also suffers from extensive deforestation, having lost 34 million hectares from 2000 to 2010. Firewood harvesting and charcoal production are important drivers. Four sub-Saharan nations—Nigeria, Tanzania, Zimbabwe, and the Democratic Republic of the Congo—each cleared more than 300,000 hectares per year.

In contrast to South America, Asia has changed its trajectory from net forest loss in the 1990s to net forest expansion in the following decade, with China leading the growth in planted forests. After disastrous flooding in 1998, China realized the tremendous flood control and Soil protection benefits of intact forests, leading it to ban logging in key river basins and to begin planting trees at a rapid rate.

China’s heavy planting can disguise the trends elsewhere in the region, however. As the world’s largest processor of wood products, China imports both legally and illegally logged timber, driving deforestation in other countries. Indonesia, where 82 percent of the land area was covered by lush forests in the 1960s, has been a prime target. Today less than half of that country is forested, with some 24 million hectares of forest lost between 1990 and 2010. The good news is that the deforestation rate of 1.9 million hectares per year in the 1990s fell to 500,000 hectares per year during the most recent decade.

Another large driver of deforestation in Indonesia is palm oil production; the country accounts for almost half of the global output of this product. Expansion of oil palm, which is largely planted on lands that have been logged or burned, threatens the remaining forests. To assess this risk and limit the country’s contribution to Global Warming from land use change, Indonesia instituted a two-year moratorium in May 2011 on new licenses to convert primary forests to oil palm or other uses. The temporary ban is meant to provide time for the government to devise a way to double palm oil production by 2020 from 2009 levels while protecting its forests. The effectiveness of this ban remains to be seen, considering the ambitiousness of the production goal and the government’s ongoing struggle to limit illegal logging.

Mexico is another country where the government is taking on deforestation. In the 1990s Mexico had the seventh highest rate of deforestation in the world. Recent efforts to curb deforestation and encourage plantations halved the rate of forest loss from 400,000 hectares of forest per year in the 1990s to 200,000 hectares per year in the 2000s. In Mexico and Central America combined, annual deforestation losses have shrunk from 700,000 hectares to 400,000 hectares.

Across the globe, Australia moved in the opposite direction, switching from a net forest gain in the 1990s to a net forest loss in the following decade.  Australia’s persistent drought from 2002 to 2010 was double trouble for its forests: the drought restricted forest regrowth while simultaneously increasing fire risk. Wildfires, stoked by extended drought and high temperatures, burned millions of hectares of forest in Australia. Just one megafire on February 7, 2009, now known as “Black Saturday,” burned over 400,000 hectares—an area the size of the state of Rhode Island.

Wildfires, in Conjunction with insect outbreaks, have also altered Canada’s forests. Around the turn of the twenty-first century, these disturbances released large amounts of carbon to the Atmosphere, possibly transforming Canada’s boreal forests from a Carbon Sink, pulling carbon dioxide from the air and storing it, to a carbon source.  Carbon dioxide traps heat within the earth’s atmosphere, so whether Canada’s 310 million hectares of forest—the third most of any country—is a carbon source or sink can have large implications for future Climate Change.

The United States added a net 7.7 million hectares of trees between 1990 and 2010, around 380,000 hectares per year. Although the United States has experienced impressive forest regeneration within its own borders, it still contributes to deforestation as an importer of forest products—some $20 billion worth in 2011. The case in Europe is similar, where 2011 imports of forest products totaled $110 billion. Led by Spain, Italy, France, Norway, and Sweden, this region added a net 16 million hectares of forested area from 1990 to 2010.


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The distribution of Natural Resources is a complex topic with many factors to consider. Some of the most important factors include:

The distribution of natural resources is a critical issue that has a major impact on the environment, the economy, and Society. It is important to understand the factors that affect the distribution of natural resources in order to develop sustainable management practices.

Geological factors

The distribution of natural resources is largely determined by geology. Certain types of resources are only found in certain geological formations. For example, oil and gas are typically found in sedimentary rocks, while coal is found in metamorphic rocks. The distribution of these geological formations is determined by the Earth’s tectonic history.

Climate

The climate can also affect the distribution of natural resources. For example, tropical rainforests are home to a wide variety of plant and animal life, while deserts are relatively barren. The climate affects the distribution of natural resources by determining the types of Plants and animals that can live in a particular area.

Human activity

Human activity can also have a significant impact on the distribution of natural resources. For example, deforestation can lead to the loss of important habitats and resources, while mining can pollute the environment and disrupt ecosystems. Human activity can also affect the distribution of natural resources by changing the climate.

Economic factors

The distribution of natural resources can also be affected by economic factors. For example, countries with abundant natural resources may be able to export them and earn a lot of Money. This can lead to Economic Development and improve the standard of living of the people in those countries. However, it can also lead to environmental problems, such as deforestation and pollution.

Political factors

The distribution of natural resources can also be affected by political factors. For example, countries with abundant natural resources may be more likely to be involved in conflicts over those resources. This can lead to instability and violence. Political factors can also affect the distribution of natural resources by influencing the policies of governments.

Social factors

The distribution of natural resources can also be affected by social factors. For example, in some countries, Women are not allowed to own land or property. This can limit their ability to access natural resources and can contribute to POVERTY. Social factors can also affect the distribution of natural resources by influencing the values and beliefs of people.

Environmental factors

The distribution of natural resources can also be affected by environmental factors. For example, climate change can lead to changes in the distribution of plant and animal life. This can affect the availability of natural resources, such as food and water. Environmental factors can also affect the distribution of natural resources by polluting the environment and making it difficult to extract resources.

Sustainable management

It is important to manage natural resources in a sustainable way. This means using them in a way that does not damage the environment or harm future generations. There are many ways to manage natural resources sustainably. One way is to use renewable resources, such as solar and wind power. Another way is to reduce our consumption of resources. We can also recycle and reuse resources to reduce the amount of waste we produce.

The distribution of natural resources is a complex issue with many factors to consider. It is important to understand these factors in order to develop sustainable management practices.

What is the difference between renewable and non-renewable resources?

Renewable resources are those that can be replenished naturally over time, such as water, sunlight, and wind. Non-renewable resources are those that cannot be replenished naturally, such as fossil fuels and Minerals.

What are the three main types of natural resources?

The three main types of natural resources are:

What are the benefits of using natural resources?

Natural resources provide us with a variety of benefits, including:

What are the challenges of using natural resources?

The use of natural resources can pose a number of challenges, including:

What are some ways to conserve natural resources?

There are a number of ways to conserve natural resources, including:

What are the benefits of conserving natural resources?

There are a number of benefits to conserving natural resources, including:

  1. Which of the following is not a type of natural resource?
    (A) Renewable resources
    (B) Non-renewable resources
    (C) Human-made resources
    (D) All of the above are types of natural resources.

  2. Which of the following is an example of a renewable resource?
    (A) Coal
    (B) Oil
    (C) Water
    (D) Natural gas

  3. Which of the following is an example of a non-renewable resource?
    (A) Solar Energy
    (B) Wind Energy
    (C) Forests
    (D) Fossil fuels

  4. Which of the following is a way to conserve natural resources?
    (A) Reduce, reuse, and recycle
    (B) Use less energy
    (C) Choose products that are made from recycled materials
    (D) All of the above are ways to conserve natural resources.

  5. Which of the following is a negative impact of human activity on the environment?
    (A) Air Pollution
    (B) Water Pollution
    (C) Land pollution
    (D) All of the above are negative impacts of human activity on the environment.

  6. Which of the following is a way to reduce air pollution?
    (A) Drive less
    (B) Walk or bike more
    (C) Use public transportation
    (D) All of the above are ways to reduce air pollution.

  7. Which of the following is a way to reduce water pollution?
    (A) Don’t pollute waterways
    (B) Don’t use pesticides or herbicides
    (C) Don’t overwater your lawn
    (D) All of the above are ways to reduce water pollution.

  8. Which of the following is a way to reduce land pollution?
    (A) Recycle
    (B) Compost
    (C) Reduce, reuse, and recycle
    (D) All of the above are ways to reduce land pollution.

  9. Which of the following is a goal of Sustainable Development?
    (A) To meet the needs of the present without compromising the ability of future generations to meet their own needs
    (B) To reduce poverty and inequality
    (C) To protect the environment
    (D) All of the above are goals of sustainable development.

  10. Which of the following is an example of a sustainable practice?
    (A) Using renewable energy sources
    (B) Reducing, reusing, and recycling
    (C) Conserving water
    (D) All of the above are examples of sustainable practices.

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