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September 09 2011


Reliance on Unconventional Gas is No Good for Climate, Says Scientist Tom Wigley

A partial shift from coal to unconventional gas on a worldwide scale will continue to accelerate climate change for a significant amount of time, according to Tom Wigley of the National Center for Atmospheric Research (NCAR). An increased reliance on gas would eventually reverse the warming trend but would only decelerate climate change by a few tenths of a degree. According to Wigley’s findings, that miniscule change will only feasibly occur sometime between 2050 and 2140, depending on the severity of fugitive methane from gas drilling, processing, and transport operations. 

Tom Wrigley, senior research associate at NCAR, is due to publish these findings next month in the peer-reviewed journal Climatic Change Letters. The journal recently received significant attention on this topic after publishing the striking findings of Professors Robert Howarth and Anthony Ingraffea. The Cornell University scientists performed a lifecycle analysis of the major fossil fuels to discover that unconventional gas offers little to no climate advantage over coal. 

The hotly contested findings sent a shock wave through the gas industry and environmental community alike, challenging the notion that the continent’s vast reserves of unconventional gas could or should serve as an alternative, interim fuel during the switch to a low-carbon economy. Wigley’s findings also pose a significant challenge to this assumption.
“Relying more on natural gas would reduce emissions of carbon dioxide, but it would do little to help solve the climate problem,” Wigley told Science Daily. “It would be many decades before it would slow down global warming at all, and even then it would just be making a difference around the edges.”

Wigley’s research pays special attention to the particular atmospheric effects of burning gas and coal. When burned, gas produces less carbon dioxide than coal while producing a significant amount of methane, a potent greenhouse gas that reacts with other atmospheric gases such as ozone and water vapor. However, the particulate associated with burning coal, such as sulfur and ash, produces a cooling effect by preventing sunlight from entering the earth’s atmosphere. The pollutants associated with burning the carbon-intensive fuel, while not desirable by any means, have the ironic effect of counteracting coal’s tremendous global warming potential.
Like the Howarth article, methane leakages from gas production are important to Wigley’s findings. However, the figures surrounding fugitive methane emissions are at best imprecise. Plugging in a variation of methane leakage rates from zero to ten percent, Wigley was able to simulate a spectrum of results, none of which bode well for unconventional gas.

“Whatever the methane leakage rate, you can’t get away from the additional warming that will occur initially because, by not burning coal, you’re not having the cooling effect of sulfates and other particles,” says Wigley. “This particle effect is a double-edge sword because reducing them is a good thing in terms of lessening air pollution and acid rain. But the paradox is when we clean up these particles, it slows down efforts to reduce global warming.”

Any increase in global warming puts already fragile ecosystems at an even greater risk.

Wigley’s findings mean yet another challenge for the gas industry and their continuous claim that unconventional gas can and should provide the pathway to a clean energy future. It will be interesting to see how the gas industry responds to this new important contribution to the evolving science surrounding unconventional gas.

January 22 2011


Canadian Hotspot Hits 21°C (37.8°F) Above Normal

While world media have been distracted by cold temperatures in Europe (December averages in the U.K. were 5.2°C [9.4°F] below normal), a vast pocket over northeastern Canada has been hitting heights that were not just unprecedented but, until this year, unimaginable.

As Bob Henson reports at the NCAR & UCAR Currents, the Canadian low Arctic has been unseasonably, unreasonably balmy, with the largest anomaly rising to 21°C [37.8°F] above normal. Hudson Bay and the waters around Baffin Island remained open well beyond usual, suggesting that the risk for an extraordinarily low summer ice season is built into the works. (If you look at this map, from Bremen University, you see that even the North Pole was unconvincingly frozen by Jan. 11 of this year.)

Henson looks particularly at the community of Coral Harbour, on the northwest corner of Hudson Bay in Nunavut, where typical January temperatures range from a bone-chilling low of –34°C (–29.2°F) to teeth-chattering "high" of -26°C (–14.8°F). This year, Environment Canada reported that in the first 12 days:<!--break-->

  • Coral Harbour went 11 days without getting down to its average daily high.
  • On Jan. 6, the low temperature was –3.7°C (25.3°F) - that's 30°C (54°F) above average.
  • On both the 5th and 6th, Coral Harbor inched above the freezing mark. Before this year, temperatures above 0°C (32°F) had never been recorded in the entire three months of January, February, and March.

Fans of this kind of weather trivia (which is to say, courageous people who don't mind spending the odd sleepless night considering the trajectory of Earth's changing climate) should shuffle on over to Lou Grinzo's blog, The Cost of Energy, and look especially to Lou's Quick Graphs, a great page that pulls together a host of useful and interesting scientific sources, all of which tend to argue that we're in a heap of trouble.

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