Update: Bureaucrats Gone Wild in Cancun. The United Nations Climate Change Conference is meeting in Cancun, Mexico from November 29—December 10 2010 where bureaucrats will work to transfer wealth and technology from developed to developing nations by raising the cost of traditional energy. But before these international bureaucrats get to “work”, they decided to throw a lavish party for themselves.
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Today, Nov. 29, marks the beginning of the Cancun COP (Conference of the Parties [to the Kyoto Protocol]). This is the 16th meeting of the nearly two hundred national delegations, which have been convening annually since the Kyoto Protocol was negotiated in 1997 at COP-3.
This conference promises to be another two-week extravaganza for some 20,000 delegates and hangers-on, who will be enjoying the sand, surf, and tequila-sours —mostly paid for by taxpayers from the U.S. and Western Europe. For most delegates, this annual vacation has become a lifetime career: it pays for their mortgages and their children’s education. I suppose a few of them actually believe that they are saving the earth—even though the Kyoto Protocol (to limit emission of greenhouse [GH] gases, like CO2, but never submitted for ratification to the U.S. Senate) will be defunct in 2012 and there is—thankfully—no sign of any successor treaty.
But never fear: the organizers may “pull a rabbit out of a hat” and spring a surprise on the world. They will likely announce that they have conquered the greenhouse gas hydrofluorocarbon (HFC). Now, HFCs are what replaced HCFCs, which in turn replaced CFCs, thanks to the Montreal Protocol of 1987. This succession of chemical refrigerants has reduced ozone-destroying potential; but unfortunately they are all GH gases. So now HFCs must be eradicated, because a single molecule of HFC produces many thousand times the greenhouse effect of a molecule of CO2. What they don’t tell you, of course, is that the total forcing from the HFCs is less than one percent of that of CO2, according to the IPCC (see page 141). So “slaying the dragon” amounts to slaying a mouse—or something even smaller. But you can bet that it will be trumpeted as a tremendous achievement and will likely invigorate the search for other mice that can be slain.
Of course, industry has no objection to this maneuver of invoking the Montreal Protocol as a means of reducing the claimed GH-gas effects of global warming. It means more profits from patents, new manufacturing facilities, and sales—and it will eliminate the bothersome competition from factories in India, China, and Brazil that are still manufacturing HCFCs, and in some cases even CFCs. Very likely, these nations will oppose the maneuver. But so should consumers. It will mean replacing refrigerants in refrigerators, air conditioners, and automobiles—at huge cost and to little effect. We don’t even know yet what chemical will replace HFC and how well it will work in existing equipment.
But nobody is supposed to notice this, it is hoped, amid the clamor for an international agreement, or any kind of agreement, really—even if it means misusing the Montreal Protocol. Remember that HFCs have no effect on ozone and therefore are not covered by the 1987 Montreal Protocol.
At this point, it is worth remembering how little has been accomplished by the Montreal Protocol—that “signal achievement” of the global environmental community. As U.S. negotiator Richard Benedick brags (in his book Ozone Diplomacy), the Montreal agreement was achieved by skillful diplomacy rather than by relying on science.
When the Montreal Protocol was negotiated and signed in 1987, there was no evidence whatsoever that CFCs were actually destroying stratospheric ozone. At that time, there were no published observations (by leading Belgian researcher Zander or by others) of any increase in stratospheric chlorine, thereby indicating that natural sources, like salt from ocean spray and volcanoes, were dominating over the human contribution of chlorine from CFCs. The scientific evidence changed only in 1988 (thanks to NASA scientist Rinsland), a year after the Montreal Protocol was signed.
Nevertheless, the hype of the Antarctic Ozone Hole (AOH), which was discovered, only by chance, in 1985, was driving global fears of a coming disaster. In the U.S., there was talk about an Arctic ozone hole opening up. There was even a scare about a “hole over Kennebunkport,” President Bush’s summer home. And of course, the EPA, as usual, was hyping the whole matter to the White House. No wonder that poor George Bush (the elder) agreed to phase out CFCs immediately.
And who still remembers all the lurid tales of blind sheep in Patagonia and of ecological disasters in the Southern Ocean—all the result, supposedly, of the AOH. It turned out later that the unfortunate sheep had pink-eye.
The Montreal Protocol prohibition on manufacturing CFCs has indeed led to the reduction of the atmospheric content of these long-lived CFC molecules. But what about stratospheric ozone itself? There has been little effect on the AOH—just annual fluctuations. And according to the authoritative reports of the World Meteorological Organization, the depletion at mid-latitudes may have been only about 4% over a period ending in 1992. There seems to have been no further depletion since 1993, even while stratospheric chlorine levels were still rising. Something doesn’t quite check out here.
Whatever the cause of the observed 4% ozone depletion may be, compare this piddling amount to the natural variability of total atmospheric ozone, as measured carefully by NOAA: on the order of 100% or more from day to day, seasonal change of 30% to 50%, and an eleven-year sunspot-correlated variation on the order of 3%.
And to top it off, there has been no documented increase at all in solar ultraviolet (UV-B), the radiation that produces sunburn and can lead to skin cancer. All of the monitoring so far has shown no rise over time—and therefore no biological effects due to ozone depletion.
And in any case, theory tells us—and measurements agree—that a 4% depletion amounts to an increase in solar UV equivalent to moving 50 miles to the south, at mid-latitudes. Measured UV-B values increase by 1,000% in going from the pole to equator, as the average solar zenith angle increases.
So look for a “breakthrough” announcement from Cancun, as once again our intrepid negotiators will have “saved the climate”—maybe. In addition to timing and cost issues, some countries will insist that HFCs have no impact on the ozone layer and thus should be handled under the United Nations climate change talks rather than the Montreal Treaty.
A State Department official dismissed that as a legalistic argument and said that the ozone treaty could and should be used to achieve broader environmental objectives. “What we’ve found is that the Montreal Protocol has been a very effective instrument for addressing global environmental problems,” said Daniel A. Reifsnyder, the nation’s chief Montreal Protocol negotiator, in an interview. “It was created to deal with the ozone layer, but it also has tremendous ability to solve the climate problem if people are willing to use it that way.”
Mario Molina, the Mexican scientist who shared the Nobel Prize in chemistry for his work in identifying the role of chlorofluorocarbons in depleting stratospheric ozone, said that extending the Montreal Protocol to include HFCs could reduce the threat of climate change by several times what the Kyoto Protocol proposes. (Evidently, he has not read the IPCC report in which he is listed as a lead author.) “We understand it’s a stretch to use an international agreement designed for another purpose,” he said. “But dealing with these chemicals and using this treaty to protect the planet makes a lot of sense.”
Maybe Dr. Molina should stick to chemistry.
Atmospheric physicists S. Fred Singer is Professor Emeritus of Environmental Sciences at the University of Virginia and founding director of the US Weather Satellite Service (now NESDIS-NOAA).
Glaciers are retreating and parts of the ice sheets on Greenland and Antarctica are melting into the ocean. This must result in a rise in sea level, but by how much? A new measurement of the gravity everywhere around the globe with a pair of orbiting satellites provides the first ever map detailing the rises across different parts of the globe.
According to the new results, the annual world average sea level rise is about 1 millimeter, or about 0.04 of an inch. In some areas, such as the Pacific Ocean near the equator and the waters offshore from India and north of the Amazon River, the rise is larger. In some areas, such as the east coast of the United States, the sea level has actually dropped a bit over the past decade.
The surface of the sea is a constantly shifting fabric. To achieve a truer sense of how much the sea is changing in any one place, scientists measure the strength of gravity in that place. Measuring gravity over a patch of ocean or dry land provides an estimate of how much mass lies in that region. The measured mass depends on the presence of such things as mountains, glaciers, mineral deposits, and oceans.
If the gravity measurement for a place is changing, this could mean that the place is losing mass because of a retreating glacier or gaining mass if, as in the ocean surrounding Antarctica, new melt water is streaming in.
The Gravity Recovery and Climate Experiment, or GRACE for short, consists of a pair of satellites moving in an orbit that takes them over the South and North Poles. The two craft, nicknamed Tom and Jerry after the television cartoon characters, send constant signals to each other to determine their relative spacing to about 10 microns—one-tenth the width of a human hair—over a distance of 130 miles. If the first craft flies above a slightly more weighty area of the Earths’ surface—like a mountain range—it will be tugged a bit out of place, an effect picked up by a change in the relative spacing of the craft.
In these way monthly gravity maps of pieces of land or ocean about 180 miles wide can be made with high precision. The new report for the years of 2003-09 looks at how much mass has been lost from land areas and how much mass has been gained by ocean areas.
One of the authors of the report, Riccardo Riva from the Delft University of Technology in the Netherlands, said that average annual rise in sea level rise due to meltwater entering the ocean is about 1 millimeter, but that an additional rise will come from that fact that as the average temperature rises so does the ocean temperature, which in turn causes the volume of the ocean to increase.
“The most important result of the new report is the measurement of the sea level changes for specific regions of the Earth that are based on direct and global measurements of mass change,” Riva said.
Mark Tamisiea, who works at the National Oceanography Centre in Southampton, England, and was not involved in the GRACE work, believes the new report represents good research.
“As coastal sea level changes impact society, it is important for us to understand as much about the local differences from the global average as possible,” Tamisiea said. “These results are one piece in that puzzle.”
“GRACE is definitely the ‘real deal’ when it comes from measuring climate change from space,” said Joshua Willis, an ocean expert at the Jet Propulsion Laboratory in Pasadena, Calif. “This work by Dr. Riva and company reminds us that the world’s oceans don’t behave like a giant bathtub. As the ice melts and the water finds its way back to the ocean, the resulting sea level rise won’t be the same all over the world.”
“These effects are still small in today’s rising ocean, but as we look out over the next century, the patterns of sea level change due to melting ice will be magnified many times over as the ice sheets thin and melt,” Willis said.
Looking at the actual map of sea level rises presents an ironic twist. Offshore the areas where melting ice is most rapidly falling into the ocean—such as Greenland and Antarctica—the sea level appears to be falling.
“The main reason for this is the rebound of the solid Earth,” explained Riva. “Less ice causes the continents go up, and therefore sea level drops. Meltwater distributes around quite quickly, in most cases, so there is no accumulation due to that.”
More information: The new GRACE results appear in the journal Geophysical Research Letters.
Icecap Note: This is the equivalent of 4 inches per century well under the IPCC range of 7.5 to 23 inches. This is despite the fact that alarmists like Hansen and Gore claim sea levels are rising much faster than the IPCC projects.
For the period 1993 to 2003, the rate of sea level rise is estimated from observations with satellite altimetry as 3.1 plus/minus 0.7 mm yr–1, significantly higher than the average rate. The tide gauge record indicates that similar large rates have occurred in previous 10-year periods since 1950. It is unknown whether the higher rate in 1993 to 2003 is due to decadal variability or an increase in the longer-term trend.
That last sentence is a classic. They avoided the obvious answer that the higher rate from 1993-2003 was due to using a different methodology to generate the numbers. The older measurements are from tide gauges, and the newer ones are from satellite altimetry.
They failed to mention that tide gauges don’t agree with the satellite altimetry. They failed to mention that we don’t see much if any increase in rates from tide gauge data. They failed to provide any justification for the switch. They failed to provide any evidence that tide gauges are less reliable now than they were in the last century. They failed to do any verification of the accuracy of altimetry measurements.
This is just another IPCC nature trick - switching measurement systems to create an increase where there is none.
NOAA’s Prediction for Active Season Realized; Slow Eastern Pacific Season Sets Record
According to NOAA the 2010 Atlantic hurricane season, which ends tomorrow, was one of the busiest on record. In contrast, the eastern North Pacific season had the fewest storms on record since the satellite era began.
In the Atlantic Basin a total of 19 named storms formed - tied with 1887 and 1995 for third highest on record. Of those, 12 became hurricanes - tied with 1969 for second highest on record. Five of those reached major hurricane status of Category 3 or higher.
These totals are within the ranges predicted in NOAA’s seasonal outlooks issued on May 27 (14-23 named storms; 8-14 hurricanes; 3-7 major hurricanes) and August 5 (14-20 named storms; 8-12 hurricanes; 4-6 major hurricanes). An average Atlantic season produces 11 named storms, six hurricanes and two major hurricanes.
Large-scale climate features strongly influenced this year’s hurricane activity, as they often do. This year, record warm Atlantic waters, combined with the favorable winds coming off Africa and weak wind shear aided by La Nina energized developing storms. The 2010 season continues the string of active hurricane seasons that began in 1995.
But short-term weather patterns dictate where storms actually travel and in many cases this season, that was away from the United States. The jet stream’s position contributed to warm and dry conditions in the eastern U.S. and acted as a barrier that kept many storms over open water. Also, because many storms formed in the extreme eastern Atlantic, they re-curved back out to sea without threatening land. “As NOAA forecasters predicted, the Atlantic hurricane season was one of the most active on record, though fortunately most storms avoided the U.S. For that reason, you could say the season was a gentle giant,” said Jack Hayes, Ph.D., director of NOAA’s National Weather Service.
Other parts of the Atlantic basin weren’t as fortunate. Hurricane Tomas brought heavy rain to earthquake-ravaged Haiti, and several storms, including Alex, battered eastern Mexico and Central America with heavy rain, mudslides and deadly flooding.
Hurricane Alex, a rare June Hurricane
Though La Nina helped to enhance the Atlantic hurricane season, it also suppressed storms from forming and strengthening in the eastern North Pacific. Of that region’s seven named storms this year, three grew into hurricanes and two of those became major hurricanes. This is the fewest named storms (previous record low was eight in 1977) and the fewest hurricanes (previous record low was four in 1969, 1970, 1977 and 2007) on record since the satellite era began in the mid-1960s. An average eastern North Pacific season produces 15 named storms, nine hurricanes and four major hurricanes.
Streams that support cold-water fish are getting warmer. Traditional native plants are becoming harder to find. And some animal migratory patterns have been disrupted. Native American tribes own and manage 5 percent of the land in the U.S.—lands that are rich with renewable resources. But Native Americans are disproportionately affected by climate change. And droughts, temperature changes and altered animal behavior are just some of the ways climate change is being acutely felt on reservations in the West, putting tribal environments, identity and cultural traditions at risk, experts say.
“The elders are commenting on how much warmer it’s getting, and how that warming is impacting the snow and the mountains,” said Germaine White, a member and information and education specialist for the Confederated Salish and Kootenai Tribes in northwestern Montana. “They pray about that. They are concerned. There needs to be snow so that the plants and animal communities thrive.”
Mission Mountains are visible in the distance on the Ninepipe National Wildlife Refuge on the Flathead Indian Reservation in northwestern Montana. Residents there are experiencing the impacts of climate change. Many in the Confederated Salish and Kootenai Tribes reside on the Flathead Indian Reservation, 1.3 million acres at the base of the Northern Rockies. Temperatures are rising in cold-water streams, creating perilous survival conditions for native fish such as trout. White said the land has become drier, more prone to wildfires and hospitable to several non-native plant species, triggering a decline in traditional ones.
Members of the Tulalip Tribes, which own 22,000 acres in Washington, are facing similar problems. The 4,000-member indigenous group is experiencing a winter season that now ends two months earlier than usual. The six weeks that it normally took for the snow to melt into waterways happens in two weeks. The rapid snowmelt has a knock-on effect. More water flows through the streams, scouring sediment and altering the habitats that salmon use to develop. That creates a schism between water flow and the salmon biology, and threatens the core of tribal identity, said Preston Hardison, a policy analyst for the Natural Resources Office of the Tulalip Tribes.
“For the survival of their culture, they need these ecosystems to be as secure from climate change as they can,” he said. But the fear among experts isn’t just for the future of the tribes. Lonnie Thompson, a leading climatologist, glaciologist and professor of geological sciences at Ohio State University, said the climate change impacts that Native Americans are experiencing on tribal lands is a harbinger of sorts of what the rest of the world will experience in later years because of climate change.
“I think what you see, especially in the changes that are occurring around glaciers, that these are just the canaries in the coal mine of things to come,” said Thompson, who has spent more than 30 years studying Peru’s Quelccaya glacier, the largest tropical ice cap in the world.
Learning to be More Efficient
Alexis Bonogofsky, senior tribal lands coordinator for the National Wildlife Federation, works with tribes throughout Montana to build small-scale renewable energy projects, including a weatherization project for the Northern Cheyenne. The nonprofit is helping the tribe retrofit tribal buildings to be more energy efficient. They’re working to implement a green technology training program at the community college that will teach students how to construct energy-efficient homes using sustainable products and fix renewable energy projects.
“Our long-term vision,” Bonogofsky said, “is that there will be a workforce on Northern Cheyenne tribal systems who can not only repair small-scale renewable energy technology, but are able to build new houses that are straw bale and energy efficient.” Other Western tribes are battling climate change’s effects by creating small-scale renewable-energy projects to help reduce carbon emissions and reliance on fossil fuels.
On the Hopi reservation in Arizona, tribal leaders are developing a wind turbine farm that will supply power to 14,000 homes. Roger Tungovia, the project manager of the Hopi Renewable Energy Office, said the tribe was spurred to consider alternative energy projects after residents of the tribal lands began experiencing irregular weather conditions, such as drought, increased flooding during summer months and major snowstorms in the winter.
The Tulalip are planning for climate-change adaptation. That includes assessing how sea grass and kelp can help keep water, salmon and sediment from being washed out into the ocean from streams. They are also looking at how nursery habitats near the coast can take carbon dioxide out of the environment. Tribal officials hope to use that information to establish wetlands that will help slow the water’s movement in the spring.
The projects not only work to stave off the impact of climate change, but also to bring jobs to areas that may be economically depressed. Pat Spears, a member of the Lower Brule Sioux Tribe and president of Intertribal Council on Utility Policy, supports building a wind farm on his South Dakota reservation, where the wind blows up to 18 miles per hour. “We don’t want wall-to-wall turbines,” he said. “We want to restore our economy.”
Other Problems, Too
Climate change isn’t the only problem affecting the environment on reservations. Development and work to acquire natural resources such as coal can also disrupt the land’s natural processes. Gail Small, a former elected member of the tribal council for the Northern Cheyenne Tribe in southeastern Montana, said work to extract natural resources, coupled with climate change, altered traditional routes animals used to traverse across the reservation. “The elk are confused,” Small said. “Their migratory patterns are all disrupted.”
Thirty years ago, the Tribal Council on the Flathead Indian Reservation dedicated nearly 25 percent of their land as open space—the first tribal wilderness in the nation, White said. That move has helped keep swathes of mountain range, where snowpack melts into waterways, largely undisturbed.
“We have been keen on ensuring that there are entire watersheds that have cold, clean, connected complex water,” White said. “They are components of a healthy streams for native fish restoration.” The Tribal Council also moved to a 10-hour, four-day workweek, to save energy and minimize the number of days people drove to and from work, White said.
Hardison said the nation in general, and tribes in particular, have a small window of time to act on climate change before the changes trigger ecological collapse. Once that threshold is reached, it will be almost impossible to reverse the effects. “If the cultures are going to survive, we have to stabilize over the next 20, 30 years,” Hardison said. “It’s a culture killer, from an Indian point of view.” See post here.
Icecap response: The temperatures in Montana have experienced very little net trend over the last century - mostly justthe cyclical changes associated with the PDO and solar. See the plots for Great Falls (flat) and Crow Agency (net cooling).
As for the disappearing snow in late winter and early spring, this is common in El Ninos winters which favor a more southerly winter storm track and warmth and less snow across the northwest and north central. Since the PDO positive phase from 1978 to 1998 favored El Ninos (the periiod had 10 El Ninos and only 3 mostly weaker La Ninas), this early spring melt was understandable. Thr PDO flipped to the neative mode in 1999 and we have had more La Ninas (6) than El Ninos (3).
In these La Nina winters, snow has been heavier and temperatures away from cities (Crow Agency) have trended down. In 2008 and 2009 winters and spring, very cold weather persisted in the northern tier and southern Canada - so much so that they had trouble getting spring grains in the ground (snow covered in parts of southern Canada into mid June). Since the cold PDO is likely to remain for a few decades, look for more La Ninas, colder temperatures and more snow winter into spring.
The same is true for Europe with a correlation with the AMO (Atlantic Multidecadal Oscillation) which relates inversely to the North Atlantic Oscillation. A warm AMO means a negative NAO is favored - that correlates with more cold and snow for Europe.
Dr. Richard Keen, Coal Creek Canyon co-op observer
October Spot Check - Colorado
For the past four months I’ve posted a “spot check” comparing NCDC’s monthly analyzed temperature departure maps with actual departures observed a two Colorado stations, Coal Creek Canyon and Denver. Here’s October’s update.
First, the map (with the station locations annotated) shows a 4-degree plus anomaly over northeast Colorado. However, the two stations - Coal Creek Canyon and Denver - logged departures from the 1971-2000 normal of 1.4 and 4.3 degrees, respectively. The large difference between the two anomalies likely reflects the absence of strong inversions that usually keep Denver cooler. The table compares the observed and analyzed departures over the five months for the two stations, and the story remains the same - NCDC’s analyses continue to run almost two degrees warmer than the actual station data.
