Author Archives: Larry Daichea

Did Climate Change Worsen the Colorado Floods?

by Larry Daichea Posted on September 18, 2013

Mother Jones

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Last Thursday, as torrential rains turned into floods that washed away homes, roads, and bridges in Boulder, Colorado, and the surrounding region, the local National Weather Service forecast office went ahead and said what we were all thinking. It put it like this:

MAJOR FLOODING/FLASH FLOODING EVENT UNDERWAY AT THIS TIME WITH BIBLICAL RAINFALL AMOUNTS REPORTED IN MANY AREAS IN/NEAR THE FOOTHILLS.

The word “biblical” certainly captures the almost preternatural scale of the Colorado floods, and the rainfall that caused them. Indeed, according to climate scientist Martin Hoerling of the National Oceanic and Atmospheric Administration, “this single event has now made the calendar year (2013) the single wettest year on record for Boulder.”

But does that mean that climate change is involved? Although suggestive, broken records alone do not constitute definitive proof that humanity’s fingerprints have been left on a particular weather disaster. On the other hand, climate scientists say with considerable confidence that a hotter planet will feature more extreme rain events, much like this one.

So what can actually be said about the Colorado floods in a climate context?

Just how extreme was this event? First off, it’s important to get a sense of how out-of-the-ordinary these floods—which have killed eight people and left hundreds unaccounted for—really were. That’s not difficult; superlatives have hardly been lacking to describe the event. Remarking on the “epic deluge,” meteorologist Jeff Masters, co-founder of the popular Weather Underground site, had this to say:

According to the National Weather Service, Boulder’s total 3-day rainfall as of Thursday night was 12.30″. Based on data from the NWS Precipitation Frequency Data Server, this was a greater than 1-in-1000 year rainfall event. The city’s previous record rainfall for any month, going back to 1897, was 9.59″, set in May 1995. Some other rainfall totals through Thursday night include 14.60″ at Eldorado Springs, 11.88″ at Aurora, and 9.08″ at Colorado Springs. These are the sort of rains one expects on the coast in a tropical storm, not in the interior of North America!

So what caused such a deluge? That the rains were reminiscent of a tropical storm gives a hint as to how this occurred. What fell over Colorado last week was, in significant part, tropical moisture, pulled up all the way up to the Rockies from the Mexican coast by a confluence of atmospheric events. Furthermore, the rainfall on the Front Range was exacerbated by a so-called atmospheric “blocking pattern,” which produced a situation of stuck weather, in which one pattern (unending rain) persisted for a long period of time. “We had this giant cutoff low sitting over Salt Lake City, dredging up a continuous stream of tropical moisture,” explains Minnesota meteorologist Paul Douglas, who is founder of the Media Logic Group and has been frequently outspoken about the reality of climate change from a Republican political perspective.

Satellite imagery showing tropical moisture being pulled from the coast of Mexico up to Colorado. Cooperative Institute for Meteorological Satellite Studies, University of Wisconsin-Madison.

And here’s the first possible climate linkage: The idea that the jet stream has been altered as a result of climate change, leading to more stuck weather and more blocking patterns, is a serious one, and one that has also been brought up in relation to the odd behavior of Superstorm Sandy. “I’ve noticed since last September, since the record ice loss in the Arctic, that the jet stream has been misbehaving, more blocking patterns in general over the northern hemisphere,” says Douglas.

He’s not the only one: Jennifer Francis of Rutgers University has led the scientific charge when it comes to the connection between Arctic sea ice loss and mid-latitude weather extremes (for further explanation, see here). And while the issue remains debated, it’s certainly possible that global warming is making blocking patterns, like the one that helped produce the Colorado floods, more likely to occur on average.

Doesn’t climate change produce more extreme rainfall, period? The idea that there will be more extreme rainfall, in general, in a warming world is very well established scientifically at this point. “The science about future increases of extreme rainfall is very solid, just because we have a good understanding of the physics of it,” says Claudia Tebaldi, a climate scientist and statistician with Climate Central and the National Center for Atmospheric Research. “Warmer air is going to hold more moisture,” Tebaldi continues, “so when something happens, there is going to be more available water to precipitate on us.”

If you want to get your inner nerd on about why this is the case, the answer is the Clausius-Clapeyron equation, which states that as atmospheric temperatures increase, the amount of water vapor that the air can contain increases exponentially. For a good explanation, see here.

How much extra water vapor are we talking about here? “For 1 degree Fahrenheit, it’s something like 5 percent more moisture in the atmosphere,” explains climate scientist Kevin Trenberth of the National Center for Atmospheric Research (which itself happens to be in Boulder). That extra water vapor, according to Trenberth, helps fuel and strengthen storms, even as it also gives them an added moisture supply, meaning that the net effect on increased rainfall may be 5 to 10 percent. For Trenberth, that would therefore mean that climate change contributed somewhat to the Colorado floods, but that’s very different from saying that it caused the entire event. “You can’t blame this thing on climate change,” he says.

Martin Hoerling of NOAA comes to a similar conclusion. “Global warming has led to an increase in the atmosphere’s water holding capacity, and empirical studies indicate a few percent of increase in water vapor to date,” he comments by email. That means that the majority of the moisture over Colorado was there not due to global warming per se, but simply because of the aforementioned atmospheric circulation patterns.

Are extreme rainfall events increasing, as predicted? Absolutely. NOAA’s National Climatic Data Center keeps extensive data on weather extremes, and has found that since the 1970s, there has been an uptick in one-day extreme precipitation events:

Extremes in U.S. one-day precipitation, 1910-2012 National Climatic Data Center

An increasing trend in extreme rains is also supported by the recently leaked draft of the Intergovernmental Panel on Climate Change’s Fifth Assessment Report. The draft says that it is “very likely” that central North America has already seen a trend toward more extreme precipitation events and that there is “medium confidence” that humans have contributed to this change. In the future, moreover, this trend is expected to continue. According to the IPCC draft, “in a warmer world, extreme precipitation events over most of the mid-latitude land masses and over wet tropical regions will very likely be more intense and more frequent by the end of this century.”

In this sense, the Colorado Floods are consistent with the general picture of what we’ve been seeing, and what we would expect to see, under climate change. That doesn’t make them directly caused by climate change, but it does put them in context.

What about Colorado’s climate future in particular? The future precipitation forecast for Colorado itself is less certain. The U.S. National Climate Assessment, which is currently in draft form, includes regional projections for how temperature and rainfall changes are expected to affect different parts of the United States. The report includes Colorado in the country’s Southwest region, which overall has seen a 12 percent increase in heavy precipitation since the year 1958 (considerably less than some other regions). Going forward, the southern part of the Southwest region, including states like Arizona and New Mexico, is actually expected to see a decrease in precipitation. But the picture isn’t as clear for Colorado; according to the National Assessment draft, projections aren’t in agreement with each other. However, even in areas where average rainfall is expected to decline, the percentage of overall precipitation falling in extreme downpour events is expected to increase. In other words, the shift remains towards more extremes.

And now for the really tough question: Did global warming in any way “cause” this event? So far, we’ve established that the Colorado floods are consistent with expected climate trends: more extreme rains (pretty certainly), and possibly more blocking patterns (still a new and debated issue). And we’ve also suggested that rainfall in this particular event may have been amplified, somewhat, by climate change.

But causation? That’s a very different, much knottier issue, as Kevin Trenberth’s remark above (“You can’t blame this thing on climate change”) makes clear. In fact, Trenberth himself has argued prominently that “no events are ’caused by climate change’ or global warming, but all events have a contribution.” The issue is further complicated by a large gap between how scientists understand the word “cause,” and how the lay public does.

“Correlation,” an XKCD comic.

Ordinarily, we think about “cause” in a simple sense in which one thing fully brings about another. Thus, I tripped and fell, and this caused me to have a bump on my head. But in the atmosphere, it’s hardly so simple. As we’ve seen, the Colorado floods were partially caused by moisture from the tropics, partly caused by a blocking pattern that held one weather system in place for an extended period of time, and perhaps also partly caused by past wildfires that increased the risk of runoff (to name just a few partial causes). The cognitive linguist George Lakoff has introduced the distinction between “direct causation” and “systemic causation” to help us tackle this sort of problem. The latter form of causation is not direct; rather, it is diffuse, partial, and usually captured in statistical relationships. But it is no less real for this reason, or less amenable to scientific analysis.

In the past, scientists have demonstrated, for a few individual events, that global warming made them more likely to occur in a statistical sense. That includes the 2003 heat wave in France, and a particularly devastating UK flood in 2000. (For an explanation, see here.) More recently, researchers at the National Oceanic and Atmospheric Administration and the UK Met Office released a landmark study on 2012’s extreme weather events, and whether climate change was involved, finding a role in some of them but not others. For instance, climate change was found to have made July 2012’s heat wave in the U.S. as much as four times more likely to occur, and increased the likelihood of the US’s anomalous March-May 2012 warmth by as much as 12 times. But no role was found for the 2012 US drought.

Not surprisingly, such an analysis has not yet been performed for the 2013 Colorado floods, but it surely will be. And what will be the result? That’s unclear. “With precipitation events it’s much harder than with heat waves,” explains Claudia Tebaldi, “because of these two aspects that combine, the thermodynamic and the dynamic.” The thermodynamic is the easy part: There’s more moisture, due to a warmer atmosphere. There’s physics on that. But the dynamics—whether, in a world without global warming, the atmospheric flow that created this event would still have occurred…well, that’s extraordinarily difficult to unravel.

So what’s the bottom line? With every extreme weather event nowadays, from Superstorm Sandy to the Colorado floods, there’s a strong inclination to link it to climate change. But once you get into the details, the word “link” becomes far too vague: Each event is different, and the ways in which it may or may not relate to a changing climate are also varied. Partial contributions may be present—global warming exacerbated Sandy’s storm surge through sea level rise, and probably contributed to some percentage of the rainfall over Colorado—and individual events may be consistent with larger trends. But ultimate “causal” connections remain difficult to establish and, according to Trenberth, the very attempt itself may be missing the point.

The real question is: Why would we expect it to be otherwise? When you conduct a massive experiment with only one planet as your test subject—or as scientists would put it, an experiment with an N of 1—this is the situation you create. And the proper way of thinking about that situation is clear: Even when you can’t be definitive, you can definitely be worried.

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Did Climate Change Worsen the Colorado Floods?

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Der Spiegel: Gas Attack Was a Gigantic Screw-Up

by Larry Daichea Posted on September 5, 2013

Mother Jones

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So why did Bashar al-Assad launch a chemical weapon attack in the first place? It’s a bit of mystery. McClatchy rounds up the evidence, including a new report from Der Spiegel about a phone call intercepted by German intelligence:

According to Der Spiegel, one of the parties in the intercepted phone call was a “high-ranking member of Hezbollah,” the militant Lebanese movement that’s sent fighters to support the Assad government. That Hezbollah member told the Iranian that “Assad had lost his temper and committed a huge mistake by giving the order for the poison gas use,” according to the magazine’s account.

The U.S. intelligence assessment reached a similar conclusion, finding that the alleged use of chemical weapons may have been in part because of “the regime’s frustration with its inability to secure large portions of Damascus.”

….The German account goes further than others that have been released recently in providing details of Assad’s state of mind that might have played a role in the motivation for launching a chemical attack, noting that Assad sees himself embroiled “in a crucial battle for Damascus.”

It also said Assad’s forces had used a highly diluted chemical agent in previous attacks on rebels and that the high death count Aug. 21 might have been the result of “errors made in the mixing of the gas” that made it “much more potent than anticipated.” That would be consistent with a suggestion from an Israeli official, cited by The New York Times, that the attack was “an operational mistake.”

So it was all one big FUBAR, launched by a sociopath who lost control of himself and then bungled by a military unit that was incompetent. And now we’re deciding what we ought to do about it.

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Der Spiegel: Gas Attack Was a Gigantic Screw-Up

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Melting Sea Ice Is Stranding Baby Seals

by Larry Daichea Posted on August 5, 2013

Mother Jones

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This story first appeared on the Guardian website and is reproduced here as part of the Climate Desk collaboration.

Shrinking sea ice is bad news for the baby harp seal, according to Duke University researchers. Pagophilus groenlandicus relies on stable winter sea ice to provide a safe platform to give birth and nurse its young until the pups can swim, hunt, and fend off predators.

But the Duke team reports in PLOS ONE, the Public Library of Science journal, that in four harp seal breeding regions of the North Atlantic, the winter ice had declined by 6 percent a decade since 1979.

The researchers based the conclusion on satellite images of ice cover, yearly reports of seal strandings along the United States’ northeast coast, and DNA studies of the stranded population. They say that although adult seals seemed to survive the decline in sea ice cover, the young were increasingly at risk.

It wasn’t the weaker or the genetically inferior seals in the population that were most at risk: The hazard for the seal babies seemed to be across the board.

If they couldn’t be protected on a large raft of ice, they were more likely to perish and be washed ashore. In the years when ice cover was most reduced, the stranding rates for young seals rose most sharply.

Harp seals are literally pagophilic or ice-loving. They tend to be born in February and March, and are usually weaned after a fortnight. But the pups stay on the ice until they molt their white fur, and then take to the sea to journey northward to the summer feeding grounds.

If it were the weakest pups that perished, then the DNA samples taken from the beach strandings would differ significantly from those of seals caught accidentally by fishermen. There was no difference. So the decline in sea ice remains the best explanation for the rise in strandings.

“Our findings demonstrate that sea ice cover and demographic factors have a greater influence on harp seal stranding rates than genetic diversity,” said Brianne Soulen, one of the leaders of the study.

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Melting Sea Ice Is Stranding Baby Seals

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Giant, oil-belching sinkhole dooms more than 100 homes in Louisiana

by Larry Daichea Posted on June 26, 2013

Giant, oil-belching sinkhole dooms more than 100 homes in Louisiana

By John Upton

It’s looking like a neighborhood in Assumption Parish, La., has been permanently wiped out by a sloppy salt-mining company.

A sinkhole in the area has grown to 15 acres since an old salt mine that was emptied to supply the local petrochemical industry with brine began collapsing in August. Hundreds of neighbors were long ago evacuated, and many of them are now accepting that they will never return to their homes.

The sinkhole isn’t just endangering homes, it is also burping out oil, natural gas, and debris, shaking the area so powerfully that seismic equipment is being used to monitor the site. And brine from the sinkhole is in danger of contaminating local waterways. This thing is so big it even has its own Facebook page.

On Wings of Care

This is not a lake. It’s part of the 15-acre sinkhole in Assumption Parish.

By Monday, the company responsible for the disaster, Texas Brine, had reached agreements to buy up the homes of 44 affected households, but dozens more are still negotiating or have filed suit against the company. From the Baton Rouge Advocate:

“While not every resident chose to participate in the settlement process, Texas Brine has been committed to offering reasonable offers to those residents who decided they wanted to move from the area and voluntarily participated in the settlement process,” [Texas Brine spokesman Sonny] Cranch said.

But not everybody thinks the offers are reasonable.

“Me and my wife worked for the last 10 years to get where we are,” Jarred Breaux said at his home Tuesday afternoon. “Do you feel like starting over?”

He said Texas Brine’s offer just wasn’t enough for him to pick up his family and leave his home, but he would be interested in extended discussions and participating in mediation with Texas Brine.

“I know we’ve got a big decision (to make) pretty soon,” said Breaux, who doesn’t have an attorney but said he likely will look for one soon.

This is not the first such trouble triggered by a former brine mine, but it caught the attention of Louisiana lawmakers. From a report earlier this month in the New Orleans Times-Picayune:

Gov. Bobby Jindal [on] Friday signed a slew of bills tightening regulations for underground cavern operators and written in response to a debris-filled sinkhole in the swamps of Assumption Parish. …

“These laws will ensure that companies are acting in good faith and upholding public safety. It’s critical that we hold companies accountable when they put communities at risk and these new laws will help achieve that goal,” Jindal said in a statement.

John Upton is a science fan and green news boffin who tweets, posts articles to Facebook, and blogs about ecology. He welcomes reader questions, tips, and incoherent rants: johnupton@gmail.com.

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Giant, oil-belching sinkhole dooms more than 100 homes in Louisiana

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"Horror at Their Capabilities" Drove Leak of NSA Spying Program

by Larry Daichea Posted on June 7, 2013

Mother Jones

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Dan Drezner is curious about why we’re suddenly getting a bunch of leaks about U.S. surveillance programs. As it happens, the Washington Post explained in the very last paragraph of its story about the PRISM program:

Firsthand experience with these systems, and horror at their capabilities, is what drove a career intelligence officer to provide PowerPoint slides about PRISM and supporting materials to The Washington Post in order to expose what he believes to be a gross intrusion on privacy. “They quite literally can watch your ideas form as you type,” the officer said.

Is this the same source who was responsible for the story about NSA’s surveillance of phone records? That’s not clear—though if the sources are different it’s a helluva coincidence.

In any case, this got buried at the end of my blog post about PRISM, and I thought it deserved a bit more play. So now you know part of the story, anyway.

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"Horror at Their Capabilities" Drove Leak of NSA Spying Program

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Exploding Trains, Explained

by Larry Daichea Posted on May 30, 2013

Mother Jones

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A train and a garbage truck collided outside of Baltimore on Tuesday evening, resulting in a large explosion that released smoke that could be seen miles away. CSX, the train’s operator, confirmed that the train was carrying hazardous chemicals that caused the explosion. The Washington Post reports:

CSX spokesman Gary Sease said the sodium chlorate in a derailed car near the front of the train exploded, igniting terephthalic acid in another derailed car. Sodium chlorate is used mainly as a bleaching agent in paper production. Oklahoma State University chemist Nick Materer said it could make for a potentially explosive mixture when combined with an incompatible substance such as spilled fuel.
Another chemist, Darlene Lyudmirskiy, of Spectrum Chemical Manufacturing Corp. in Gardena, Calif., said such a mixture would be unstable and wouldn’t need even a spark to cause a reaction.
“If it’s not compatible, anything could set it off,” she said.

The incident could have been much worse if other chemicals had been involved—chemicals like chlorine gas or anhydrous ammonia. When a Norfolk Southern train derailed in Graniteville, SC in 2005 and released chlorine, nine people died and 5,000 had to be evacuated. While not nearly that bad, the Baltimore explosion has brought renewed attention to the hazardous chemicals that are transported by rail in the US.

In 2012, trains carried 189 million tons of chemicals. That only represents about 20 percent of all the chemicals shipped in the US. But trains carry 64 percent of a class of chemicals known as “toxic inhalation hazards” or TIH, like chlorine, that can be deadly if inhaled. Rail is the safest, most efficient way to transport those chemicals—one rail tank can carry as much as four trucks, and trains moving along a dedicated shipping line rather than on the highways, meaning that collisions are less likely, as researchers at Harvard’s Kennedy School of Government have pointed out.

Even if rail is safer than trucks, there are plenty of reasons to want to limit the amount of dangerous chemicals carried by rail. There’s always a chance of an accident, as Tuesday’s explosion demonstrated, and local governments and first responders don’t even know what’s traveling on those trains until an accident happens. Then there’s also the threat of a deliberate attack on either the rails or the chemical facilities where the tankers eventually end up. The best solution, says Greenpeace legislative director Rick Hind, is getting companies to shift from a “catastrophic chemical to a non-catastrophic substance or process”—that is, using chemicals that won’t explode or give off noxious fumes. These chemicals would be safer to transport, and safer to use when they reach their destinations.

Some companies and municipal water systems have already started phasing out the use of deadly chemicals like chlorine. But it would take a stronger regulatory push to make a larger switch happen. There was some effort to do so immediately after September 11, at the height of terrorism fears. But the Bush White House did not back it due to pressure from the chemical industry, recalls Bob Bostock, the homeland security adviser to the then-EPA administrator Christine Todd Whitman. “That effort died before it really got started,” he says.

Now Bostock hopes that the EPA will use its regulatory authority under the Clean Air Act to “to require facilities to at least evaluate safer technologies.” “It’s very feasible to do so,” he says. “A lot of facilities have done it. A lot have not.”

Railroad operators aren’t particularly jazzed about transporting hazardous chemicals, either. But because a few companies control the majority of major railroads, they are required under federal “common carrier” rules that say they can’t refuse to carry TIH or other hazardous chemicals. The Association of American Railroads, the industry trade group, has asked Congress to allow them to “decide for themselves whether to accept, and at what price they are willing to accept, such materials for transportation.” AAR has also called for safer alternatives to hazardous chemicals as a means of reducing their own risk as carriers.

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Exploding Trains, Explained

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Why haven’t the big green groups divested from fossil fuels?

by Larry Daichea Posted on May 6, 2013

Why haven’t the big green groups divested from fossil fuels?

By Lisa Hymas

Dirty money.

Colleges and universities have started to do it. Cities like San Francisco and Seattle have started to do it. But many of the biggest environmental and conservation groups in the U.S. still haven’t made any moves to dump their investments in oil, gas, and coal companies, reports Naomi Klein in The Nation:

One would assume that green groups would want to make absolutely sure that the money they have raised in the name of saving the planet is not being invested in the companies whose business model requires cooking said planet, and which have been sabotaging all attempts at serious climate action for more than two decades.

But in some cases at least, that was a false assumption. …

Conservation International, notorious for its partnerships with oil companies and other bad actors (the CEO of Northrop Grumman is on its board, for God’s sake), has close to $22 million invested in publicly traded securities and, according to a spokesperson, “We do not have any explicit policy prohibiting investment in energy companies.” The same goes for the Ocean Conservancy, which has $14.4 million invested in publicly traded securities, including hundreds of thousands in “energy,” “materials” and “utilities” holdings. A spokesperson confirmed in writing that the organization does “not have an environmental or social screen investment policy.”

Neither organization would divulge how much of its holdings were in fossil fuel companies or release a list of its investments. But according to Dan Apfel, executive director of the Responsible Endowments Coalition, unless an institution specifically directs its investment managers not to invest in fossil fuels, it will almost certainly hold some stock, simply because those stocks (including coal-burning utilities) make up about 13 percent of the US market, according to one standard index. “All investors are basically invested in fossil fuels,” says Apfel. “You can’t be an investor that is not invested in fossil fuels, unless you’ve actually worked very hard to ensure that you’re not.”

Another group that appears very far from divesting is the Wildlife Conservation Society. Its financial statement for fiscal year 2012 describes a subcategory of investments that includes “energy, mining, oil drilling, and agricultural businesses.” How much of WCS’s $377 million endowment is being held in energy and drilling companies? It failed to provide that information despite repeated requests.

The [World Wildlife Fund]-US told me that it doesn’t invest directly in corporations—but it refused to answer questions about whether it applies environmental screens to its very sizable mixed-asset funds. The National Wildlife Federation Endowment used to apply environmental screens for its $25.7 million of investments in publicly traded securities, but now, according to a spokesperson, it tells its investment managers to “look for best-in-class companies who were implementing conservation, environmental and sustainable practices.” In other words, not a fossil fuel divestment policy.

Meanwhile, the Nature Conservancy—the richest of all the green groups—has at least $22.8 million invested in the energy sector, according to its 2012 financial statements. Along with WCS, TNC completely refused to answer any of my questions or provide any further details about its holdings or policies.

Alongside her article, Klein has published a “cheat sheet” listing 14 big green groups and specifics about what they are — or are not — doing to get their financial houses in order. The Sierra Club and the Wilderness Society come out smelling the rosiest. (Klein is on the board of 350.org, which has been pushing a divestment campaign.)

Over at Forbes.com, Tim Worstall plays the contrarian:

[I]t seems most righteous to take the profits being made in the [fossil fuel] field to use to campaign against those profits. … We, of course, can then take the moral decision as to what to do with that extra money: buy solar cells, hug panda bears, whatever. I myself might use it to subsidise the research I already do into how to make fuel cells.

Do you buy that logic? Tell us below in comments.

Lisa Hymas is senior editor at Grist. You can follow her on

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WATCH: Tar Sands Timmy Needs a Pipeline Fiore Cartoon

by Larry Daichea Posted on April 11, 2013

Mother Jones

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Mark Fiore is a Pulitzer Prize-winning editorial cartoonist and animator whose work has appeared in the Washington Post, the Los Angeles Times, the San Francisco Examiner, and dozens of other publications. He is an active member of the American Association of Editorial Cartoonists, and has a website featuring his work.

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WATCH: Tar Sands Timmy Needs a Pipeline Fiore Cartoon

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There Are Three Basic Types of Aquaponics Setups

by Larry Daichea Posted on April 8, 2013

There are three basic types of aquaponics systems.

They are media filled beds, nutrient film technique and the deep water culture system. Within each category there are endless variations in the design and construction of individual systems. The important thing is that the plants and fish co-exist in their separate environments.

The local high and low temperatures impact the site conditions which cause specific changes to individual setups. Systems need protection from local wind and weather conditions. It is essential to protect against contamination from chemicals and other poisons. Sunlight and orientation to the sun are also important factors in your setup.

Another major factor in the design of the system is the budget and space constraint. Systems can range in size from small systems using an indoor aquarium to large scale commercial operations. Depending on the site conditions one of the following options will likely be best suited for your needs.

1. Media Filled Beds: This type of system uses small grow media balls that are used to support the root system of the plants. The media is flooded with waste water and nourished with plant friendly water. The media should not be limestone as the pH will be affected and certain nutrient reactions will be inhibited. Low cost and ease of setup make this a great choice for a beginner. The simple ebb and flow system has been used for many years for backyard systems.

2. The NFT (nutrient film technique) is another common way to setup an aquaponics system. Water is pumped from the fish tank and then allowed to gravity flow in a thin film through an enclosed gutter where the plants are placed until they are harvested. this is a great way to grow leafy vegetables, but is not as optimal for taller plants due to the lack of support for the roots.

3. Deep Water Culture is exactly what the name implies. Deeper water is used and plants are floated on the surface so the roots can dangle into the water. The water is aerated for the fish and the plants float on the surface. This is ideal for larger scale operations.

Flood and drain media filled beds are simplest and most reliable systems for beginners. It can be done in a variety of different containers and you can use recycled materials. The flood and drain system also doesn’t require extensive maintenance.

For bigger systems, the deep water culture method is a great fit since the overall costs are reduced a t the larger scale of production. This method is also highly expandable.

Build your own aquaponics system with complete aquaponics how to videos for your backyard paradise.

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