10 Steps to a Healthy Ocean: Protecting our Oceans from Pollution

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Photo courtesy of Webzer at Flickr.com.

The ocean covers more than 70% of the earth’s surface, and it’s a major part of the ecosystem that we rely on. Phytoplankton are responsible for about half of the oxygen produced worldwide. More than 1 billion people rely on fish for a significant part of their diet. The ocean provides food, recreation, clean air, carbon mitigation, inexpensive transport, and many other things that we take for granted. Yet, we’ve been treating the ocean like a dump for centuries. That may have been fine when society produced trash on a very small scale and all of things we threw away were biodegradable, but technology has changed that.

There are thousands of phantom fishing nets that keep killing fish after being abandoned. Sunken ships leak millions of gallons of oil and billions of styrofoam cups end up in the water every year. Even when these events happen thousands of miles away, they have a ripple effect that’s felt worldwide.

The ocean is one continuous body of water. Each sea and bay is connected by strong currents and migrating animals. That means damage done to one part of the ocean will eventually affect all the connected bodies of water. After oil spills happen in the Arctic Ocean, traces of petroleum spread to the Atlantic, Pacific, and Indian Oceans too.

The oceans are one of many areas around the world where the environment has a direct effect on human health and industry. For example, the rain forests convert carbon dioxide into oxygen and affect climate. Coral reefs nurture schools of fish and they offer passive protection to ports. The organisms that make these areas work are resilient – they’ve survived centuries of natural disasters such as hurricanes and wildfires. Yet some of these areas are under constant stress caused by humans.

Stress factors that threaten wildlife include contamination of water supplies, climate change, human development, and invasive species. Abandoned mines are leaching hazardous chemicals into rivers and lakes. Mangrove forests are being cut down to build beach resorts. River deltas are clogging up with invasive species like zebra mussels and Wakame kelp.

In the face of all these threats, what can we do? Here are a few steps that anyone can take to help protect the health of our oceans.

1) Restore damaged ocean habitat

In areas that have been fished out or poisoned by industry, native species have often been wiped out. But, that doesn’t mean that Cod have been permanently wiped out in the Atlantic, or that scallops will never return to the Virginia fisheries. Jennifer Rich is planting sea grass in an effort to restore the scallop breeding grounds of her home state. She led a volunteer effort off the coast of Virginia to replant eel grass in environmentally damaged areas. Her effort is ongoing, and similar replanting projects could use your help. Wetlands and mangrove forests are especially valuable because they filter sediment, pesticides, and fertilizer runoff before they get to the ocean.

If you’d like to get your hands dirty in another way, plan a beach vacation off of the beaten path. Once a year, the Ocean Conservancy does a worldwide project to remove trash from the shore. Last year, volunteers cleaned up more than 30,000 miles of shoreline. In a single day, more than 7 million pieces of trash were collected for proper disposal. Check with your City Hall – many towns are happy to supply trash bins, rubber gloves, and even boats to anyone who wants to clean up local waterways.

2) Protect natural buffer systems.

Biosystems are nature’s utilities – they desalinate water, absorb carbon, liberate nutrients from the ground, and provide other services free of charge. The plants and animals that make up these systems are often treated as commodities, but killing the goose that lays golden eggs will only put food on the table for a day. Protecting biosystems can pay dividends for years to come.

Forests are an essential buffer for the oceans. Old growth trees neutralize the pH of rain and absorb harmful chemicals before they reach the ocean. Trees that grow in estuaries and along riverways are especially important, but those areas also face increased development pressure and they are easy for loggers to access. Shoreline habitat is being destroyed to build giant shrimp farms and resort hotels. Luckily, there are now sustainable forestry and aquaculture options available. Sustainable logging allows limited harvesting of resources without destroying the natural processes that we benefit from. The next time you buy lumber or land, do some research and check for certifications of sustainability.

3) Substitute organic fertilizer in the place of chemical fertilizers.

When a lawn is overfertilized, the excess fertilizer will usually wash off into the surrounding environment. Fertilizer pollution causes eutrophication in waterways – it saturates the water and promotes algal blooms in nearby lakes. A significant amount of fertilizer runoff will eventually make it out to sea, where it can cause red tides and elevated amounts of harmful bacteria. Surprisingly, residential property has higher levels of fertilizer runoff per acre than agricultural land – possibly because farmers are smarter about how they use fertilizers.

“12-50% of all surface water pollution originates with urban runoff. Additionally, whereas agricultural runoff tends to be limited to nutrients, runoff from roads and parking lots contains a wide variety of additional pollutants including oils, road salts, nutrients, and sediments, as well as hazardous and solid wastes.”

Using organic fertilizers, mulch, and compost can reduce these problems. Not only are these fertilizers slower releasing, but they also contain nutrients in forms that are more easily absorbed by plants. Chemical fertilizers have other problems too. They can form a crust on the top of soil that repels water (blocking soil absorption, increasing runoff, and promoting erosion). Some chemical fertilizers will also kill soil fungus, soil bacteria, earthworms and insects, all of which play a vital role in aerating the soil and helping anchor it to the ground.

4) Landscape with native plants

Plants have evolved to live in just about every area of the country. These native plants are adapted to local soil and weather conditions, so there’s very little need to fertilize or water them. Many beautiful native plants are available. A yard landscaped with unusual plants can really stand out, especially during a drought when all of the neighbors yards turn to dust.

Using native plants to conserve water is known as Xeriscaping. It can be a very effective way to cut your yard’s pollution footprint, and xeriscaped lawns also offer natural habitat to native animals and migrating species. Since native plants are heat and drought tolerant, they also work year round to trap dust, block wind, and prevent erosion.

5) Replace impermeable groundcover

When rain falls on bare ground, about 90% of the water is normally absorbed in the first 30 minutes. On developed land, the surface is usually covered with impervious materials such as asphalt, concrete, and cement. For every 20% of the ground that’s covered with impermeable surfaces, the amount of runoff will increase by roughly 100%. These impervious materials block water from soaking into the ground, but the water has to go somewhere. As a result, residential areas are prone to flash floods and rapid erosion which harm the water quality of nearby rivers and lakes.

You can use this information to make smart landscaping decisions. Instead of putting a sidewalk in your garden, consider using flagstones or building a gravel pathway. If your driveway needs to be resurfaced, check into using permeable cement. There are even companies that build living rooftops – these green roofs not only help insulate your house, but they also protect your roof from heat damage, hail, UV degradation, and animal damage. Permeable areas act as natural buffers to pollution because they help contain runoff.

6) Improve landscaping

Runoff is often caused by poor landscaping. Many older homes have design flaws that cause water to flow much faster than necessary. Not only are these flaws easy to fix, but reducing the speed of runoff will also protect your home from flood damage and erosion. On sharp slopes, you can grow plants with deep roots like prairie grass. Other solutions include placing bales of hay on the slopes to soak up the water or installing terraces. If your building has rain gutters, installing silt fences on the gutters will slow the speed of drainage and reduce the energy of flowing water before it reaches your foundation. If you want to make an even big difference, consider putting a rain barrel or rainwater garden under your downspouts.

When planning these projects, make sure to check local building codes. It’s also important to schedule construction projects for months with low rainfall. While the projects are underway, there will be a lot of exposed soil that can be carried away. Tarps can be used protect bare ground, and sewing quick growing plants will quickly cover up any worrisome spots.

7) Clean up after pets

Housepets are another major source of pollution – pet waste has concentrated forms of some toxic chemicals as well as harmful bacteria that can do serious damage to the ocean. Even the nutrients found in sewage can cause problems because they promote the growth of anaerobic bacteria. Anaerobic bacteria create an Anoxic zone of seawater, where all of the oxygen has been depleted and many organisms are unable to breathe.

Dog droppings and cat poo contain many of the same pathogens that human waste does, such as e coli and salmonella. While human waste is at least partially treated in sewage processing plants, dog waste is often left to decompose wherever the dogs leave it. When it rains or the sprinklers turn on, harmful bacteria in pet waste is spread over the surface of your whole lawn. Runoff will carry this bacteria down the storm drains and eventually out to sea.

One way to reduce the impact of pet waste is to bag up the poop and flush it down the toilet. Septic tanks and sewage systems use good bacteria to breakdown waste into harmless material. It doesn’t matter if the waste comes from a person or a pet – the treatment processes they use can handle almost everything. One thing that you shouldn’t put down the toilet is soiled cat litter. Cat litter is not biodegradable and can also cause damage to pipes.

If you have a cat, you might want to go a step further and change your cat litter. The most common types of pet litter is made from bentonite clay and silica. Not only is do these materials prevent decomposition, but they are also produced by strip mining (and strip mining causes water pollution in its own right):

“Clay-based cat litters are not a by-product of the manufacture of something else, but produced by strip mining. The clay, known as bentonite, is found under several layers of soil, which are removed in the mining process. The first few inches of clay are discarded, and the final clay is removed and processed into cat litter.”

There are natural alternatives to conventional cat litter. Check with your local pet store, or consider making your own cat litter with shredded paper, sawdust or wheat bran. Also, some cats prefer not to use kitty litter. Cat droppings on the ground can be scooped up just like dog poop.

If you use biodegradable pet litter or scoop up pet poo, then you may also want to try composting the pet droppings. There are tumbling composters and vermicomposters (worm composters) made especially for pet waste. It’s important to keep pet poop separate from food scraps and grass clippings. That’s because the harmful bacteria in pet waste are largely inactive and they will only multiply if there’s an available food source. A Pet Waste Composter is effective at quickly reducing pet droppings into useful fertilizer.

8 ) Take endangered species off the menu

It’s not easy being tasty. Our search for exotic flavors has pushed many different species to the edge of extinction, and fish are in serious trouble. Fishing trawlers are catching fish faster than they breed, which means that the fish available at the supermarket are getting younger and thinner. Some species, such as Swordfish and Orange Roughy are frighteningly rare in the wild. As certain species of fish disappear from the ocean, they leave a gap in the foodchain. The things that they feed on will multiply because nothing is controlling their numbers, and the fish that feed on the missing species will be stressed as well. The biodiversity of the ocean is in jeopardy, and people who rely on fish for a major portion of their diet face starvation due to overfishing.

What can you do? The Monterey Bay Aquarium has a great pocket guide to bring with you to the supermarket. This guide lists many fish that are abundant, and offers alternatives to endangered species that you can eat with a clear conscience. Greenpeace publishes a Red List of fish which should not be eaten under any circumstances. These are fish that are critically threatened by overfishing, disease, or habitat loss. There are many other fish that are in the gray area – hundreds of species are at risk but not necessarily endangered. Memorizing these lists is a bit tricky. If you have a less than photographic memory and your wallet doesn’t have room for a cheat sheet, another way you can shop for fish that are plentiful is to look for the Marine Stewardship Council eco-label.

Some species that are at risk in the wild are being raised in fish farms to supplement wild stocks. Farmed fish account for an increasing percentage of total fish caught. There’s some controversy over whether farmed fish or wild seafood are more sustainable though. The footprint and operating procedures of fish farms vary considerably between different locations. Some aquaculture operations are very earth friendly, while others turn pristine shoreline into industrial farmland and introduce devastating diseases that affect nearby wild populations. It’s important to research where your food comes from and choose responsible suppliers.

9) Reduce CO2 Emissions.

When most people think of pollutants, they picture ooze pouring out of factory pipes. Due to environmental regulations and pressure from consumers, almost all of these pipes have been cleaned up. Yet we still affect the environment by releasing chemicals with less immediate effects. Greenhouses gases, such as carbon dioxide, methane, and nitrous oxide are changing the way that our planet heats up and cools down. If the greenhouse effect is left unchecked, we could see drastic changes in the temperature of ocean water, reductions in ocean salinity as the polar ice caps melt, and shifts in the paths of major ocean currents (which would cause further temperature changes).

In addition to climate effects, CO2 emissions can have a huge direct impact on the health of ocean life. New research suggests that salt water is becoming more acidic as it absorbs increased amounts of carbon from the air. Changing temperatures and increases acidity are some of the many factors bleaching coral reefs. Elevated temperatures increase the effect of acidity by boosting the rate at which carbonic acid dissolves calcium. Changes in the pH balance of the ocean are also affecting the metabolic rates of various animals, making it harder for many fish to breathe. That’s bad news on top of overfishing and other forms of water pollution. Even highly adaptable species like the Humboldt squid are showing changes in their behavior.

10) Reduce Noise and Light Pollution

Loud noises and bright lights cause major disruptions in the natural world. Animals rely on their sensitive ears and sight to evade predators and find food, yet the oceans are becoming a deafening, blinding place. All creatures have natural rhythms based on the sun and moon, day and night. These rhythms control sleep, breeding, migration, and hibernation, yet the natural rhythms are being disrupted by constant mixed signals due to human activity. The homes of many nocturnal animals are lit up 24 hours a day by beach floodlights and fishing lure lights, and the ocean is filled with the noise of motors, sonar, and mining activity. All this noise and wasted light is a serious form of pollution.

Every year, we waste hundreds of millions of dollars worth of electricity on light that goes in unintended directions. Globe and acorn shaped streetlights are a prime example – they send light out in all directions, yet only 15-25% of that light reaches ground level. The efficiency of these spherical streetlights can be vastly increased by putting a simple reflector dish on the top, and replacing the light with a lower wattage bulb. Redirecting the light can save 75% on electricity costs, and it will also protect animals that are already endangered by human development.

Skyglow and light trespass are also nuisances to human beings. These effects of errant light were first noticed by astronomers and other night owls, but an increasing number of people are finding that they can’t turn off the lights at night. Light pollution has a direct effect on human health, it drags down property values, and it destroys the natural beauty of the night sky.

Some cities, states, and countries have started passing laws to protect wildlife from luminous pollution. These laws will likely become more stringent over time. Unfortunately, there are many sources of light pollution in the ocean, and very few of them are regulated.

Here are some things you can do to reduce light pollution:

  • Upgrade exterior lights to full cut-off fixtures and other dark-sky friendly products
  • Install bulbs with lower wattage lamps
  • Turn-off lights when you’re not in the area
  • Replace automatic timers with motion detectors
  • Discuss the issue with your family, friends, and neighbors
  • Use curtains on all of your windows (this can also pay dividends in insulation)
  • Campaign for regulations that protect against photopollution in your town
  • Demand strict enforcement of light control ordinances

Every year, thousands of sea turtle hatchlings and young seabirds are killed by lights on the beach. These lights cause reflections on sand that look just like moonlight on water, disorienting the young animals and causing them to wander away from the ocean. Instead of going for a swim, baby turtles and birds are hit by cars, eaten by predators, and die of exhaustion. Reducing light pollution can save many species from extinction.

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Photo courtesy of Luca5 at Flickr.com.

Sound pollution also kills many wild animals every year. The scale of the problem is unknown, and scientists are just beginning to study the effects of man-made noise on wildlife. Early results show that loud motor sounds can deafen animals who rely on their sensitive hearing to find food and evade predators. These noises can also drown out mating calls and distress signals. There is suspicion that navigation systems such as sonar are responsible for an increasing number of whale and dolphin beachings. High intensity sound waves can cause internal ruptures and induce symptoms similar to the bends.

Water conducts sound waves much better than air does, so loud noises can travel much further in the ocean than they would on land. This is worrisome, because the noise level in the ocean is increasing rapidly. Between 1948 and 1998, the average volume of sound in the ocean increased about 15 decibels. 15 decibels may not sound like much, but that’s the difference between the amount of noise in a regular office and a busy street.

So, how can we reduce noise pollution in the oceans?

  • Move shipping paths away from marine sanctuaries
  • Install noise baffles on boats and ships
  • Reduce the use of high intensity sonar
  • Protect sensitive habitat from oil and mineral exploration

So, that wraps up a ‘quick’ ten-list. But, there’s one other thing you can do to save the oceans.

Buy from environmentally responsible companies

The policies that companies follow can make a huge difference on the health of our oceans. Since the United States put pollution controls in place, we’ve seen remarkable recovery in many of the worst affected waterways:

“Oxygen levels in New York Harbor, for instance, are now 50 percent higher than they were 30 years ago. In the Southern California Bight, off Los Angeles and San Diego, inputs of many pollutants have been reduced 90 percent or more over a 25-year period, and the ecosystem there—including kelp, fish, and seabird populations—has greatly recovered. “

A lot has been accomplished, but we can still do better. Comparing modern emissions to emissions from the 1970’s, is sort of like comparing a Boeing 777 to the Wright Flier – we’ve come a long way in a short period of time, and we should expect major improvements. Unfortunately, many companies are still stuck in the seventies and see nothing wrong with dumping wastewater directly into rivers that feed into the ocean. Not all of our factories and processing plants are using best practices, but it’s easy to find companies that devote resources to improving their environmental record.

When you make purchase decisions at work or for your home, are you buying from companies that publish an independently reviewed environmental report card? If you can convince even one of the companies you do business with to adopt these guidelines, that will multiply the effects of your choices. Here’s a list of the a top polluters in the United States: these are companies that might reconsider their record if large numbers of customers demanded that they act responsibly to protect the oceans.

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Photo courtesy of HckySo at Flickr.com.

The Sahara desert is reaching north into Spain



Photo courtesy of DanielKHC at Flickr.com.

Droughts are a worldwide problem, with water in short supply in many different countries. Australia and Spain are both suffering through record breaking droughts right now. It hasn’t gotten much attention in the US, but rainfall in Spain is at its lowest level in 40 years. This comes at a time when population is booming and per capita water use is rising.

Water use is a very emotional issue in Spain, and tensions are running high between neighboring cities and regions. Opinions are divided largely along geographic lines; many people living in the southern provinces favor redirecting water from the north (where the drought is less severe). No one in the North wants to sacrifice their water rights to support wasteful behavior though, and water redirection projects face strong opposition. To break this logjam,

…the government is building more desalination plants, adding to the more than 900 already in Spain – the largest number in any one country outside the Middle East.

There is some concern that these energy intensive desalination plants will drive up the price of water while also creating even more climate change. It’s a no-win situation, like trying to prevent an avalanche by running a snow maker.

Leaders in Spain are looking for a better solution. The country is currently hosting the 2008 World’s Fair in Zaragosa, and the theme of Expo 2008 is “Water and Sustainable Development”. New technologies are on display, including water saving fixtures for the home and agricultural techniques that conserve water. Government programs are encouraging people to adopt these innovations with tax rebates and grants, and if the Spanish are successful in conserving their water, they may be able to stop the desertification of their country. Otherwise, climate change will devastate the environment, with lasting effects on the economy.

If you get a chance to visit Zaragosa, you’ll see an alternative vision of the future, with clean technology offering jobs and climate security. The best vantage point to view the fairgrounds is atop the 250 foot tall Water Tower building.



Photo courtesy of Paulo Brandão at Flickr.com.

Turning trash into fuel for our cars


Photo courtesy of JohnKit at Flickr.com.

Trash, trash, trash. We’ve got plenty of it! Just take a look around your neighborhood on trash pickup day – all those bulging bags are headed to the landfill, where they’ll be buried and put out of sight, out of mind. Yet those bags may contain a solution to high fuel prices.

In the near future, our cars could be powered with gases produced by decaying waste. A test project is underway that will effectively convert a 30 acre cell of the McComas landfill into a giant compost pile. For the project, researchers are laying 7 pipes in various layers in the landfill, and the pipes will recirculate leachate through the trash heap. By adding nutrient rich moisture to the pile, these pipes will allow bacteria to digest the trash at an accelerated rate (200-300% the rate of decomposition in other landfills).

This accelerated decomposition will help conserve space in the landfill, but it will also produce methane gas as a byproduct. Methane gas (also known as natural gas) is distributed to homes and businesses by natural gas utilities. Methane from the McComas landfill will be transported by Atmos Energy, and sold to heat buildings, run industrial machinery, and generate electricity. Methane can also be compressed for use by buses that use natural gas for fuel , or even processed into hydrogen for the next generation of gasoline-free cars.

Landfill gas is an alternative source for hydrogen fuel, and using waste to produce our fuel is one way to reduce our dependence on fossil fuels. The majority of hydrogen produced today is derived from petroleum products. Converting landfill methane into fuel is a double win, because it reduces the use of gasoline while also preventing the release of methane into the atmosphere. This is important, because methane gas has an even greater effect on climate change than carbon dioxide.

So, how much gas are we talking about here?

As it stands, McCommas already captures about 5.6 million cubic feet of methane a day, which is piped to an on-site plant operated by the independent company, Dallas Clean Energy. Some of the city’s estimates show that by 2012, output could exceed 20 million cubic feet per day.

The conversion rate from methane into hydrogen is about 66%. That means the McComas landfill could produce 13.2 million cubic feet of hydrogen daily. Across the entire country, our current production of Hydrogen amounts to about 3 billion cubic feet per year, so this one landfill could more than double our current hydrogen production.

There are many more landfills in the US. We have about 3,000 active landfills and 10,000 old landfills, all full of trash that’s breaking down into methane. Tapping them to produce hydrogen gas would be a great way to escape our addiction to oil.


Photo courtesy of
cosraifoto at Flickr.com.

Discover your inner Bruce Wayne


Photo courtesy of jen d. cox at Flickr.com.

Are you fascinated by bats? Have you ever wanted your own Batmobile, Batphone, or Batarang? If you’re counting down the days until the new Batman movie premiers (July 18th, 2008), now is a good time to learn more about the fascinating creatures that inspired the franchise.

There are several major cities with bat colonies. The largest urban colony in North America is in Austin, Texas, under the Congress Avenue Bridge. It has approximately 1.5 million Mexican Free-Tailed Bats and during the summer they eat 10,000-20,000 pounds of insects every night. Another bat colony with large numbers year-round can be found in Houston, Texas. Many other bat nesting sites are scattered throughout Texas and other US states bordering Mexico, including New Mexico, Arizona, and California.

Here’s what it looks like when the bats take flight at sunset:

Bats do a wonderful job of controlling insect populations. Recent studies have shown they eat as many insects as birds do – without their insect control efforts, farmers would lose millions of dollars of crops. Bats are a natural alternative to pesticides. Instead of spraying thousands of gallons of chemicals, many cities have started building bat friendly bridges and protecting bat habitat from development.

Is your yard infested with bugs? One brown bat can eat up to 3000 mosquitoes each night. Bats also control other insects that target humans as well as bugs that like to eat landscaping plants. Even better, bats turn these pests into a highly effective fertilizer.

If you’d like to reduce your use of pesticides and chemical fertilizers, why not invite some bats to roost in your yard? With a bat house, you can encourage these insect eaters to start their own small colony. If you have a serious insect problem or if you have Wayne Mansion sized yard, this Deluxe Bat House can provide a home for three times as many bats.

Don’t forget to pick up a Bat Gizmo to complete you Batman experience. This Bat Detector is an amazing gadget that makes ultrasonic bat calls audible to the human ear. With it, you can listen in on your new pet bats and hear how grateful they are for your hospitality!


Photo courtesy of mikemilton at Flickr.com.

Biofuels and the Law of Unintended Consquences


Photo courtesy of floridapfe at Flickr.com.

An increasing number of scientists and activists are raising concerns about the impact of biofuel production. The ethanol boom has its roots in a corn surplus that depressed prices – now, shortages of corn are causing food prices to skyrocket and there’s a fear that high commodity prices are pushing farmers to expand cropland. The resulting deforestation is releasing more carbon than the biofuels are saving:

There was just one flaw in the calculation: the studies all credited fuel crops for sequestering carbon, but no one checked whether the crops would ultimately replace vegetation and soils that sucked up even more carbon. It was as if the science world assumed biofuels would be grown in parking lots. The deforestation of Indonesia has shown that’s not the case. It turns out that the carbon lost when wilderness is razed overwhelms the gains from cleaner-burning fuels.

This situation illustrates the Law of Unintended Consequences. This law, which is more like Murphy’s Law than a scientific maxim, states that “for any action one can conceive, there will always be results that were not predicted.” For example, when city planners first came up with suburbs, they expected these housing developments would reduce traffic and overcrowding in downtown areas. Instead, many of these suburbs made traffic worse because they increased the size of the workforce commuting into downtown.

As with anything ethanol related, there’s some controversy about whether ethanol use is what’s driving up the price of corn, or whether the cost rise is driven by population growth and global wealth. As consumers in Asia and India develop disposable income, we’re seeing a sharp rise in the consumption of animal protein. The residents of third-world countries are developing an appetite for more meat, which means that the cost of grains will continue to rise (because raising chickens, pigs, cows, and other farm animals consumes a lot of feed).

There’s some symmetry to the Law of Unintended Consequences – the ethanol boom itself may have been created by accident. According to FoodAndWaterWatch.org, corn prices were historically about $2.50 a bushel after adjusting for inflation. It was only after changes in US law drove down the price of corn that it became an affordable feedstock for ethanol plants:

Nominal corn prices have been low and declining since the 1996 Farm Bill shifted U.S. commodity policy to promoting over-production.

The oversupply of corn created a decline in value, which, in turn, led farmers to seek new markets (such as ethanol) and pressure their representatives in Congress to subsidize these markets. So, by this line of reasoning, the 1996 Farm Bill led to a sharp increase in the price of per bushel. There’s some tasty irony for you.


Photo courtesy of sasakei at Flickr.com.