Jessica Weinkle

PTC: Costly Climate Policy Dud

by Marlo Lewis on December 20, 2012

in Blog, Features

Post image for PTC: Costly Climate Policy Dud

The wind energy production tax credit (PTC) expires at the stroke of midnight, Dec. 31, unless Congress votes to renew the tax break. A one-year extension would add an estimated $12.1 billion to deficit spending over 10 years. A six-year extension, advocated by the wind industry, could add $50 billion.

The fiscal cliff looms and the national debt already exceeds GDP, but if Congress cared more about the general interest of taxpayers than about the special interests of campaign contributors, the nation would not be sliding towards insolvency.

Whether Congress should renew the PTC or let it expire is the topic of this week’s National Journal Energy Experts Blog. Twenty wonks weigh in, including your humble servant. I heartily recommend the contributions by Sen. Lamar Alexander (R.-Tenn.), Craig Rucker, Phil Kerpin, Benjamin Zycher, Thomas Pyle, James Valvo, and David Banks.

My contribution addresses the environmental side of the debate, in particular the claim that recent extreme weather events demonstrate “just how badly our nation needs to take advantage of our vast wind energy potential,” as one contributor put it.

Below is a lightly edited version of my comment.

* * *

Of all the lame arguments used to sell Americans on the proposition that wind power, an industry propped up by Soviet-style production quota in 29 states and numerous other policy privileges, deserves another renewal of the 20-year-old production tax credit (PTC), the lamest is the claim that the PTC helps protect us from extreme weather.

PTC advocates talk as if Hurricane Sandy and the Midwest drought were obvious consequences of anthropogenic global warming, and that subsidizing wind energy is a cost-effective way to mitigate climate change.

They are wrong on both counts.

Neither economic analyses nor meteorological investigations validate the asserted link between recent extreme weather events and global warming. When weather-related damages are adjusted (“normalized”) to account for changes in population, per capita income, and the consumer price index, there is no long-term trend such as might indicate an increase in the frequency or severity of extreme weather related to global climate change.

A 2012 study in the journal Climate Change  examined 370 years of tropical cyclone data from the Lesser Antilles, the eastern Caribbean island chain bisecting the main development region for landfalling U.S. hurricanes. The study found no long-term trend in either the power or frequency of tropical cyclones from 1638 to 2009. It did however find a 50- to 70-year wave pattern associated with the Atlantic Multidecadal Oscillation, a mode of natural climate variability. [click to continue…]

No Long-Term Trend in Frequency, Strength of Landfalling Hurricanes

by Marlo Lewis on December 17, 2012

in Features

Post image for No Long-Term Trend in Frequency, Strength of Landfalling Hurricanes

Numerous politicians, pundits, and activists, and even some scientists blame fossil-fuel emissions for the death and devastation wrought by Hurricane Sandy. Such allegations are ideological, not scientific.

As noted previously on this blog, when hurricane damages are adjusted (“normalized”) to account for changes in population, per capita income, and the consumer price index, there is no long-term trend such as might indicate an increase in hurricane frequency or power related to global climate change.

Moreover, 370 years of tropical cyclone data from the Lesser Antilles (the eastern Caribbean island chain that bisects the main development region for landfalling U.S. hurricanes) show no long-term trend in either power or frequency but a 50- to 70-year wave pattern associated with the Atlantic Multidecadal Oscillation, a mode of natural climate variability. 

A new study by Jessica Weinkle (University of Colorado), Ryan Maue (Naval Research Laboratory), and Roger Pielke, Jr. (University of Colorado) dumps more cold water on claims that global warming significantly (detectably) influences hurricane behavior.

The researchers examined data on the number and power of hurricanes making landfall in the five main hurricane basins: North Atlantic, northeastern Pacific, western North Pacific, northern Indian Ocean, and Southern Hemisphere. The data extend back to 1944 for the North Atlantic, to 1950 for the northeastern Pacific, and to 1970 for the other basins. The data for all basins is current through 2010.

Here’s what Weinkle, Maue, and Pielke, Jr. found:  

We have identified considerable interannual variability in the frequency of global hurricane landfalls; but within the resolution of the available data, our evidence does not support the presence of significant long-period global or individual basin linear trends for minor, major, or total hurricanes within the period(s) covered by the available quality data. Therefore, our long-period analysis does not support claims that increasing TC [tropical cyclone] landfall frequency or landfall intensity has contributed to concomitantly increasing economic losses.

Figure explanation: Red bars indicate the number of major (category 3-5) hurricanes, blue bars indicate the number of minor (category 1-2) hurricanes. [click to continue…]