HUMAN IMPACTS:  RESOURCES

RENEWABLE RESOURCES
 
  • RENEWABLE RESOURCES are those that are re-created as fast as we use them, so we can never run out of them.
    Because we cannot run out of these resources, our use can be called sustainable, meaning that the use can go on and on forever.

  • BIOLOGICAL RESOURCES:
    Biological resources are based on living organisms that can reproduce and make more of themselves.
    Living things are thus a renewable resouce, as long as we don't overuse them.
    Plant foods are renewable (if sustainably farmed) because we can keep growing more of them. The same is true of Biofuels.
    Forest products, including wood and paper, are renewable if sustainably managed.
    Some animal foods can also be sustainably managed using current practices, but others cannot.
        Overfishing, for example, depletes the fish stock of many fisheries around the world.
        Common types of farming require far more plant food to feed animals for human consumption than if people ate plant foods instead.
    Food energy and energy from biofuels is derived from solar energy that plants capture during photosynthesis.

  • SOLAR ENERGY:
    As long as the Sun keeps shining, solar energy is renewable and sustainable.
    Solar energy can be used to generate electricity. Some of this energy can be stored in batteries.
    Solar energy is already being used around the world to heat many homes and to supply them with electricity.
    Many people hope that we can develop more solar energy because it is both sustainable and clean (non-polluting).
    Energy storage is needed to supply energy during the night, when sunlight is not available.
        Batteries will currently work on a small scale only; bigger batteries are being developed.

  • WIND ENERGY and HYDROELECTRIC POWER:
    Wind energy can be harvested by wind turbines or windmills. The energy can be used to generate electricity.
        One problem is that the winds sometimes stop blowing, so batteries are needed to store the energy.
        Winds are driven by the heating effects of the sun (see Topic 64) are are therefore renewable and sustainable.
    Hydroelectric power can be generated by waterfalls on rivers turning the generators to generate electricity.
        Many parts of Canada generate most of their electricity by hydroelectric power.
        Hydroelectric power is driven by water flowing downstream. The water is renewed by rainfall or snowfall, and ultimately
        by solar energy evaporating water into the atmosphere and forming clouds.

  • TIDAL POWER:
    Tidal energy can be used in certain coastal areas to generate electricity using turbines similar to those used in hydroelectric plants.
        Several countries in Europe are already using tidal energy plants to generate electricity, and they are building even more.
        Tidal energy is driven by the tides, which are driven by the revolution of the moon around the Earth.

  • GEOTHERMAL ENERGY:
    Geothermal energy is only available in a few places because it is related to present or past volcanic activity.
        Very hot, underground magma can be used to heat water and drive turbines to generate electricity.
        In places where geothermal energy is available, it is sustainable, dependable, and inexpensive to maintain once it is installed.
        Geothermal energy is currently being used in Iceland, and in scattered locations elsewhere around the globe.

LIMITED RESOURCES
  • LIMITED (FINITE) RESOURCES are resources that only exist in a finite supply, so we could run out of them.
    Land, fresh water, mineral resources, and fossil fuels are the most important kinds of finite resources.
    Several additional resources become limited if poorly managed, or if the human population increases beyond the Earth's habitable limit or "carrying capacity".

  • LAND (for Agriculture, or for Human Habitation):
    Land in a finite resource. Growing human populations reqjuire more and more land. We may soon run out.
    Destruction of forests and other habitats all over the world is one unfortunate consequence of overpopulation and increasing land use.
    One possible solution is to get people to eat more plant-based foods. Each acre of land can support the food needs of many more people
        (almost ten times as many) if those people eat mostly plant foods instead of beef and other animal foods.

  • FRESH WATER is also a limited resource. It is renewable, but increasing human population is quickly reaching the point
        where there may not be enough safe water for drinking or for irrigation of crops everywhere on the planet.

  • MINERAL RESOURCES:
    Gold and silver are considered precious because their quantity is small. We have always known this.
    Other metals exist in larger quantities, but their supply is limited, not inexhaustible:
    • Native elements:  These metals sometimes occur chemically uncombined, making then simple to extract: gold, silver, copper
    • Sulfides:  These metals are often combined with sulfur and are easily extracted with only moderate heat: copper, zinc, nickel, tin
    • Oxides:  A wide variety of metals are found as oxides, including iron, cobalt, manganese, and aluminum.
          A good deal of energy (heat or electricity) is required to extract these metals from their ores.
    • Carbonates:  Calcium and magnesium are commonly found as carbonates.
          Calcium carbonate (marble, limestone) is an important building material, and other carbonates are occasionally used instead.
          Calcium carbonate can also be roasted and converted into lime (calcium oxide) for use in cement, plaster, and mortar.
    • Sulfates:  Calcium sulfate (gypsum) and magnesium sulfate (epsom salts) are commercially important in their naturally occurring form.
    • Nitrates, phosphates:  Several nitrates and phosphates are used as fertilizers.


  • FOSSIL FUELS:
    Coal is the fossil fuel that has been in use the longest, but the supply is finite.
        New coal deposits ar becoming harder and harder to find and more expensive to extract from deeper underground.
        Mining coal is often dangerous work: many miners die from underground accidents; many more die later on from "Black lung disease" (pneumoconiosis).
        Burning coal also causes many forms of pollution, including coal dust (soot), acid rain, carbon dioxide, and many cancer-causing products (carcinogens).
    Petroleum (Oil) is currently the fossil fuel that is used the most.   Our planet's supply of oil is large but finite.
        The largest crude oil deposits are found in the Middle East, in the Gulf Coast region of the United States, and in Venezuela.
        Crude oil must be shipped by pipeline or tranker to a refinery for processing into useful fuel products, lubricants, and chemical products.
        From the refinery, oil is transported by pipeline or tanker to its destination.
        Oil spills and similar accidents occur during transportation.
    Hydraulic fracturing ("Fracking") is used to extract hard-to-get petroleum from oil shales. The process uses lots of water and chemicals,
        and it leaves behind many toxic wastes that pollute local groundwater supplies, so there is a lot of opposition to it from people living nearby.
        In the United States, hydraulic fracturing has made much more oil available than was previously available, so that the United States
        is now a net exporter of oil (we used to be a net importer, mostly from the Middle East and Venezuela).
    Natural gas (methane) usually occurs wherever petroleum occurs, and more is generated from petroleum refining.
        Natural gan can easily be shipped by pipeline. It burns much cleaner than most other fuels.
        Leaks and accidental releases are pollution problems that contribute to global warming and climate change.



MANAGING LIMITED (FINITE) RESOURCES

  • IN GENERAL, there are several approaches to managing finite resources:
    • 1. Conservation and limited use of the resource.
    • 2. Improving efficiency in the use of the resource.
    • 3. Recycling and re-using the resource as much as possible.
    • 4. Finding alternatives to the resource, especially if the alternatives are sustainable and renewable.
    The same principles also apply to renewable resources in order to ensure that they are not overused and that their use remains sustainable.

  • Land:
    The land surface of the Earth is finite, and encroaching on forest or other habitats brings other problems (such as
        loss of biodiversity and loss of photosynthesis).
    Better use of land includes growing of more sustainable crops: the same area of land can feed many more people if it is used to grow
        food plants than if it used to raise animals for human consumption.
    Population control: Any effort that controls the human population reduces the pressure on land resources for agricultutre and for housing.

  • Minerals:
    Much effort is being devoted to technology that uses smaller quantities of metals and other ineral substances in short supply.
    More and more, recycling is being used to re-use metals as much as possible, e.g., from electronics.

  • Fossil fuels:
    Considerable effort is being made to expand renewable sources of energy and reduce our dependence on fossil fuels.
    Automobiles and other engines that use fossil fuels are being made more and more fuel-efficient (getting more miles per gallon, for example).
    In many cases, more efficient fossil fuels (such as natural gas) are replacing less efficient ones (such as heating oil). This is only
        a temporary solution (or "bridging" technology), however.
    Better insulation of houses and more efficient lighting systems and appliances will reduce the amount of fuel needed.



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