Wednesday, December 19, 2012

Corals show current sea levels are LOW, not high, by historical standards



A paper published today in Quaternary Research finds sea levels on the island of Curaçao [southern Caribbean] during the last interglacial were up to 9 meters higher than the present, and that during another interglacial period 400,000 years ago sea levels were up to 20 meters higher than the present. According to the paper, these significantly higher sea levels during prior interglacials "require major ice sheet loss from Greenland and Antarctica." The authors determine sea levels by dating fossilized reefs that are presently located high above current sea levels [photo below]. The paper also shows sea levels in the Red Sea were up to ~8 meters higher than the present within the past 5,000 years of the current interglacial, and up to ~12 meters higher than the present during the last interglacial. This and many other papers debunk claims by climate alarmists that recent sea level rise is unprecedented, unnatural, or accelerated.
Sea-level history of past interglacial periods from uranium-series dating of corals, Curaçao, Leeward Antilles islands

By Daniel R. Muhsa et al.

Abstract

Curaçao has reef terraces with the potential to provide sea-level histories of interglacial periods. Ages of the Hato (upper) unit of the “Lower Terrace” indicate that this reef dates to the last interglacial period, Marine Isotope Stage (MIS) 5.5. On Curaçao, this high sea stand lasted at least 8000 yr (~ 126 to ~ 118 ka). Elevations and age of this reef show that late Quaternary uplift rates on Curaçao are low, 0.026–0.054 m/ka, consistent with its tectonic setting. Ages of ~ 200 ka for corals from the older Cortalein unit of the Lower Terrace correlate this reef to MIS 7, with paleo-sea level estimates ranging from − 3.3 m to + 2.3 m. The estimates are in agreement with those for MIS 7 made from other localities and indicate that the penultimate interglacial period was a time of significant warmth, on a par with the present interglacial period. The ~ 400 ka (MIS 11) Middle Terrace I on Curaçao, dated by others, may have formed from a paleo-sea level of + 8.3 to + 10.0 m, or (less likely) + 17 m to + 20 m. The lower estimates are conservative compared to previous studies, but still require major ice sheet loss from Greenland and Antarctica


SOURCE

Friday, December 14, 2012

Forget the doom: coral reefs found to be much more robust and resilient than alarmists claim



Hoagy is astounded.  Has his life's work of alarmism just fallen apart?

A WIDESPREAD belief that the world's coral reefs face a calamitous future due to climate change is proving less resilient than the natural wonders themselves.

Rising sea temperatures, storm damage and ocean acidification have grabbed the headlines as looming threats to reef survival.

But as each concern is more thoroughly investigated, scientists are finding nature better equipped to cope than they had imagined.

The latest research, published in Nature: Climate Change today, blows away the theory that reefs were doomed due to rising ocean acidification caused by the higher take-up of carbon dioxide in the seas.

Researchers have found a common coralline algae that grows at the leading edge of coral reefs is not nearly as susceptible to changing ph levels as coral because it contains high levels of dolomite.  In fact, the dolomite-laden algae has a rate of dissolution six to 10 times lower than coral's.

The good news is that dolomite-rich coralline algae is common in shallow coral reefs across the world.  "Our research suggests it is likely they will continue to provide protection for coral reef frameworks as carbon dioxide rises," the paper says.

Lead author Merinda Nash, a PhD candidate with the Australian research school of physics and engineering, says the phenomenon has been overlooked because research to date has been on coral, not coralline algae. "It is not very sexy so it has not got a lot of attention," she said.

"What the research demonstrates is there is a lot we have yet to understand about coral reefs."

This is a sentiment echoed by James Brown of the Kimberley Coral Research Station, who believes the hot water corals of the Kimberley coast hold a treasure trove of answers for marine biologists.

Mr Brown has questioned why the Kimberley coral reefs were thriving in water temperatures and at acidification levels well outside of the limits that conventional science said should be inhospitable for their survival.

"Measurements of dissolved carbon dioxide have shown levels of up to 50 parts per million compared with the average of 28 parts per million," Mr Brown said.  "This is the outer limit of what scientists had believed would be habitable for corals.  Water temperatures are also at the top end of what coral biologists say it is possible for corals to survive in.

"The more we find out about the Kimberley, the more it rewrites the book on coral biology."

Further counter-intuitive results on coral survival have come from an extended project on the Great Barrier Reef to measure the health of deep corals.

The Catlin Seaview Survey has found the damage to coral reefs is literally skin deep, with corals located in deeper water below even the worst impacted sites thriving and in pristine condition. The findings raise the possibility that damaged corals may have an increased opportunity for recovery by recruiting new corals both from adjoining reefs and those located immediately below.

The early findings from the survey have astounded the scientists involved, including Ove Hoegh-Guldberg, a leading global figure in raising concerns about crown of thorns starfish, coral bleaching and ocean acidification.

"The survey has shown that deeper reefs may be protected to an extent from some of the perils of climate-driven events such as mass coral bleaching and storms," he said. "These deeper corals may be important refuges if we get big changes in the shallows."

SOURCE

Wednesday, December 12, 2012

Australia: Greenies using lies about Great Barrier Reef to attack industry




REEF experts believe the loss of half the coral cover on the Great Barrier Reef is a "national crisis" worthy of a rescue package similar to the $12 billion plan to save the Murray Darling Basin.

They blame Queensland's biggest industries, coal and sugar cane, for the rapid decline and question the fate of the $5 billion tourism icon given mining, farming and port developments.

But leading tourism identities warn the state's tourist trade and international reputation is being damaged as scientists send a "skewed" and "misleading" message that the Reef "is half-dead".

Federal Environment Minister Tony Burke and Industry Minister Martin Ferguson met with state counterparts Andrew Powell and Andrew Cripps to discuss the Reef in Brisbane yesterday.

Professor Terry Hughes, director of the Townsville-based ARC Centre of Excellence Coral Reef Studies, said the talks failed to reveal how officials would handle the show-cause notice by UNESCO on the Reef becoming an "at risk" World Heritage site.

Prof Hughes said authorities had to impose a cap on dredging and stop farm run-off.

"It is a national crisis and it needs a rescue package response equivalent to that in the Murray Darling Basin," he said. "We need to ask: 'Do we need to have a sugar industry or a coal industry?' "

Mike Ball, a veteran dive industry figure, said much of the outer and northern Reef system was still pristine and figures from coastal reefs sent a skewed message overseas.

Canegrowers chief executive Steve Greenwood said it was irresponsible for scientists to suggest the end of the state's $2 billion sugar industry.

Mr Powell said: "Our target is to see a 50 per cent reduction in nutrients run-off by 2013 and a 20 per cent reduction in sediment by 2020."

SOURCE

Misguided PBS spreads acid ocean alarm



On December 5, the PBS News Hour showed a segment titled “Endangered Coral Reefs Die as Ocean Temperatures Rise and Water Turns Acidic,” with Hari Sreenivasan reporting. The story discussed the recent loss of Florida coral reefs and the possible impact on recreation and tourism if reef degradation continues. But PBS wrongly told viewers that reef degradation was due to warmer ocean temperatures and “ocean acidification,” both allegedly caused by human carbon dioxide emissions. Sreenivasan concluded with, “Time that maybe is running out for coral reefs in Florida and elsewhere.”

Scientists, environmental groups, and the United Nations promote the fear of ocean acidification. According to claims, man-made emissions of carbon dioxide are absorbed by the oceans and converted into carbonic acid, thereby changing the chemical balance of the oceans. The basic concept of acidification is correct, but hugely exaggerated.

The PBS segment is wrong in several ways. First, while today’s temperatures are the warmest in the last 400 years, oceans were warmer still during the Medieval Warm Period ten centuries ago. Peer-reviewed studies found that both the Gulf of Mexico and nearby Sargasso Sea were warmer about 1000 AD than at present. These warm temperatures were due to natural climatic changes of Earth―not man-made emissions. Caribbean reefs adapted to these warm seas to remain with us today.

Second, the segment paints a misleading picture of carbon dioxide entering the oceans, without providing perspective for the viewer. Sreenivasan interviews scientist Chris Landon who states, “And it’s enough railroad cars stacked end to end to wrap around the earth seven times. That’s how much carbon is going into the ocean every single year.” This sounds alarming, unless you know that the oceans absorb and release about 90 times that amount of CO2 every year from the atmosphere naturally. In addition, carbon dioxide is absorbed by vast deposits of limestone rock in the ocean floor, removing it from sea water.

Third, the oceans are alkaline, not acidic. We’re discussing a reduction in alkalinity. Solutions are measured as acidic or alkaline (basic) on a logarithmic 14-point scale, called the pH Scale. Battery acid has a pH of about one, while the base lye has a pH as high as thirteen. Milk is slightly acidic, as are most of the foods we eat.

Measured in the open ocean, sea water is alkaline, with a pH of about 8.2. According to computer models, doubling of atmospheric CO2 would decrease ocean pH to about 7.9, still basic, but less so. The concern is that this change would destroy the coral reefs by dissolving the carbonate shells and skeletons of reef creatures. Sreenivasan states, “Acidification acts a lot like osteoporosis does in humans. But in marine animals, it makes their shells and skeletons brittle. The more acidic the water, the harder it is for corals to grow their skeletons.”

But, empirical evidence does not show it harder for today’s marine animals to grow their shells. A study of corals at the Great Barrier Reef shows that shell calcium growth rates today are about 25 percent higher than 300‒400 years ago when both ocean temperatures and levels of atmospheric carbon dioxide were lower.

Scientists still know little about the alkalinity of today’s ocean or the oceans of past centuries. Ocean pH varies by depth, becoming less basic as one goes deeper. It varies by latitude from the equator to the poles. It varies by location, such as the open ocean, coral reef, or kelp bed.

But the PBS segment ignores this uncertainty and implies that the rate of change in ocean pH is alarming. Dr. Langdon states, “What’s really and completely unique about what’s going on now is the rate of change. And that’s what is so difficult for organisms.”

However, evidence shows that a high rate of change in ocean alkalinity is natural. A 2011 study by the Scripps Institution of Oceanography found large variations in ocean pH by day, week, and month. Changes in some locations were as high as 0.35 units over the course of a day, higher than computer models are predicting for the next century.

Scuba divers know that reef creatures already experience acidic conditions near CO2 vents in the ocean floor. These vents bubble CO2 gas amidst coral reefs and grassy ocean pastures in millions of locations. Fish and reefs appear to be doing quite well near these CO2 vents.

The coral reefs in the Caribbean and other seas may be endangered due overfishing, chemical pollution, and human abuse. But let’s not blame reef degradation on misguided fears about global warming.

SOURCE