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Thursday, 19 May 2016

Focus on Australia - 05/18/2016

Hang down your heads, Aussies and Kiwis in shame!


Australia, or at least the more intelligent parts of the population, seems to be undergoing a slow awakening to climate change and the destruction of its ecosystem just as we enter the runaway phase and it's too late.


The time to talk about this and take action was about 25 years ago.

There as everywhere the Powers-that-be seem to want to keep it all under wraps and have decided that now is the perfect time to sack hundreds of climate scientists and return to Year Zero.

Eastern Australia basks in unusually warm autumn temperatures
Sydney experiences highs of 28C when average temperature for May is 19.5C, with warmer weather set to continue for at least a week in many parts of country


That hot one in the Tasman Sea that no one's talking about is still well-and-truly there


18 May, 2016


Your memory is not playing tricks on you – it has been unusually warm across much of eastern Australia this May.

The Bureau of Meteorology said temperatures had been “definitely well above average” across most of the eastern states so far this month.

The high for Sydney was 28C on Tuesday when the average temperature for May is 19.5C.

Duty forecaster Philip Landvogt said it was a similar story for “pretty much all of the eastern states”.

All the way from Brisbane down to even Hobart is warmer than average for this part of year.”

In Brisbane the average high temperature for May is 23.2C – and so far this month not a day has fell below 24C. The city can expect temperatures in the mid-to-high 20s “well into next week”.

Canberra has also been warmer than the average May, with an average high of 18.9C so far this month compared with the usual 15.6C.

And the effect has been felt as far south as Melbourne, where this month it has been 20.3C while the average May day peaks at 16. 7C.

The cause was warm ocean temperatures off the east coast and over northern Australia and prevailing winds bringing warm air from over the central part of the country to the eastern states.

The combination of those two factors has been the reason we’ve had these warm temperatures,” said Landvogt.

Landvogt said the warmer weather was set to continue for at least a week in many parts of Australia.

A high of 25C for Sydney on Wednesday was forecast to be followed by at least seven days of temperatures in the region of early to mid-20s – all well above the May average of 19.5C.

Tasmania and Melbourne would start to cool down early next week, with the arrival of a cold front in the coming days.

The warm water temperatures off the east coast of Australia and dry conditions over much of the country that were associated with El Niño were continuing but Landvogt said that system would start to break down soon.

Sea surface temperatures across the tropical Pacific Ocean have cooled in the past fortnight as El Niño draws closer to an end.

Landvogt said there was a “50-50 chance” of a La Niña weather pattern forming with the onset of winter. That could lead to more rainfall over the winter through northern, central and eastern Australia.

The unseasonal weather follows confirmation of the hottest April on record globally – and the seventh consecutive month to have broken global temperature records.

The latest figures, released by Nasa over the weekend, smashed the previous record for April by the largest margin ever recorded, setting 2016 up to be the hottest year ever.


The Sydney Morning Herald is also starting to talk about climate change about 30 years too late. The horse has bolted and it is pointless to to have discussions about closing the gate.

When should we worry about climate change?


18 May, 2016


News that Tasmania's Cape Grim weather site had recorded its first baseline reading of 400 parts per million of carbon dioxide sparked some debate over the meaning of the milestone.
As we noted ahead of the declaration of the first recording of 400ppm in the southern hemisphere, the primary greenhouse gas increase carried not much more global warming significance than, say, 399 or 401 ppm.
But as with other markers - such as Australia's foreign debt passing a $1 trillion - the 400 ppm tally helps focus our attention.
Smoke rises from Canadian wildfires burning near Fort McMurray, Alberta as the fire season started a month early this year.
Smoke rises from Canadian wildfires burning near Fort McMurray, Alberta as the fire season started a month early this year. Photo: Darryl Dyck, Bloombeg
"People react to these things when they see thresholds crossed," David Etheridge, a CSIRO principal research scientist, told us. Even more upbeat was Paul Fraser, the CSIRO scientist who had helped set up Cape Grim 40 years ago. He told 9news.com.au that passing the landmark would be a "psychological tipping point".
Other warning signs - such as the 1 degree warming point reached last year - did at least spur nations to agree at the Paris Climate Summit that temperature increases should be limited to 1.5-2 degrees, even if national policies made 3 degrees more likely. 
And so, with CO2 concentrations marching past 400 ppm, when should we start worrying about global warming?
No sign of a cooling off in global temperatures.
No sign of a cooling off in global temperatures. Photo: Peter Rae
"About 30 years ago," is the blunt answer from David Karoly, a climate scientist with Melbourne University. That's when CSIRO and other scientists declared we had a problem.
"But we shouldn't give up, either," he told me this week. "The worry - and the [climate] action - should now be increased."
During the three decades since, we have poured trillions of dollars into fossil fuel extraction, refining and consumption and a much smaller sum into renewable energy that will have to replace coal, oil and gas - and soon.
As much 60 per cent of the corals at the northern end of the Great Barrier Reef may have died in the current bleaching event.
As much 60 per cent of the corals at the northern end of the Great Barrier Reef may have died in the current bleaching event. Photo: Eddie Jim
Yet clean energy technologies continue to make rapid advances, including the latest breakthrough at the University of NSW lifting solar efficiency levels to above 34 per cent.

Worries mount

When it comes to extreme weather, there's certainly been a lot to be concerned about in 2016.
Each of the last 12 months is now the hottest on record for that month, with April adding the recent string of beating-by-biggest-margin months.
(See NASA's chart showing temperatures were 1.11 degrees warmer than the 1951-80 average, with large areas in the north particularly warm, while Australia had its second-warmest April.)
Among the climate-related threats, Canada's forest fire season started about a month early. One huge blaze near Alberta's tar sands forced the evacuation of about 88,000 people from the city of Fort McMurray.
The monster El Nino, riding on top of about one degree of background warming, has triggered widespread bleaching of the corals around the world, including our cherished - but apparently expendable - Great Barrier Reef. 
More than half the corals in the largely pristine northern end are now dying or dead the reef's Marine Park Authority chief Russell Reichelt told the Senate earlier this month.

On the plus side

However, a dose of of warming can be welcomed where it take off the chill - as in parts of the US - or in Sydney, where summer feels like never lost of its grip even with winter just weeks away. 
And all that extra CO2 is leading to a "greening" of the planet with about one-quarter of humans' carbon emissions being taken up by plants, a recent Nature paper found.
But many other changes are far from benign - at least according to the preservation of many existing eco-systems.
Less glamorous than corals, the kelp forests off eastern Tasmania are being destroyed by warm water species swept south by the strengthening and warming East Australian Current. Similarly, the massive dieback of mangrove forest in the Gulf of Carpentaria apparently linked to extreme weather got scant national media coverage.
And, as for the high Arctic where the remarkably prolonged above-average temperatures have led to record-low levels of sea ice, changes are likely to be further from our daily minds.
But less sea ice means less light reflected back to space and more heat absorbed by the oceans - and so the cycle builds and so should our concern.

Spiral warning

In case you missed it, Ed Hawkins, a climate scientist at the UK's University of Reading, came up with the illustration below to help us appreciate the spiralling warming trend since the middle of the 19th century.
By that gauge, when the temperature increase breaks past the 1.5 degrees warming - perhaps in coming months before the El Nino in the Pacific fully stops giving back heat to the atmosphere -  will be sufficiently concerned then to act?
Climate scientists, such as Professor Karoly, know globally warming limits agreed at international summits to prevent dangerous climate change - such as 1.5-2 degrees range agreed in Paris - are arbitrary in a similar way to 400 ppm.
"You'd be hard-pressed to find scientists agreeing that 1.5 degrees would be manageable for our reef," he said. "Look at what's happening to the reef this year - and that's with 1 degree warming."
Recent work by his team has identified that on current temperature and carbon emissions trends, the Great Barrier Reef will be hit by bleaching events every second year by 2035.
Other eco-systems, such as alpine ones, are also being affected as species shielded from predators by cool temperatures have literally nowhere to hide.

Big one to worry about

Natural fluctuations mean temperature spikes such as we have seen over the past year can recede - at least partly.
As this year's El Nino in the Pacific lurches towards becoming a La Nina - when equatorial winds turn back to be mostly west-ward blowing and strengthen - we can expect the run of record temperature reading to be broken.
However with greenhouse gas concentrations still rising, the heat we are trapping in the Earth's biosphere - the land, air and sea - will keep on increasing.
And for those climate sceptics who thought the first decade of the 21st century marked a slowdown in temperature increases - the so-called "warming hiatus" - their case for holding off carbon emission cuts is about to get harder to make.
As Fairfax Media noted back in late 2014, a long-lived climate phenomenon named the Pacific Decadal Oscillation, has begun to switch to its positive phase. In fact, climate experts have in the past few days detected it hitting a new high.
"You're playing catch up - now the natural factors want to make the planet warmer," David Jones, head of climate analysis with the Bureau of Meteorology, said.
"Historically when you've had a positive PDO, global temperatures are higher and the rate of warming tends to be quicker."
Some scientists view PDOs as a slower version on the El Nino pattern that forms in the Pacific every three to seven years. Others see it as a separate phenomenon.
"In reality, it's probably a bit of both," Dr Jones said.
Such a PDO switch - it is an 11-year rolling average - would indicate oceans will become less of a sink for the planet's surplus heat - and may even give more of it back to the atmosphere.
That means global conditions will favour more El Nino events but also when La Ninas come, they will tend to be more extreme.
In other words, we could soon have a lot more to worry about.

Back to Year Zero.


The response of my friend Kristy Lewis who is involved in climate research is:

"What southern hemisphere research? Doesn’t exist in cliamte change unless you can put a case forward that involves making money. Most climate reseachers in Australia have gone overseas. Those that are left are sunsisting in teaching positions."


Australian climate job cuts leave hole in Southern Hemisphere research

Details of redundancies at CSIRO alarm global climate community.
Dani Lewis



18 May, 2016



Staff at the Commonwealth Scientific and Industrial Research Organisation (CSIRO), which employs thousands of scientists across Australia, were told over the past week where long-awaited job cuts in climate science are likely to fail. 
Many CSIRO researchers who spoke toNature about the lay-offs requested anonymity so as not to breach the organization's communications policy, which tells researchers not to discuss funding or management decisions. But the information that is trickling out means that scientists are already evaluating the likely impact on research – although a consultation process means that it may be months before an expected 140 lay-offs in climate research are complete.

It’s significant beyond the numbers because of our overall uniqueness,” says oceanographer Peter Craig, who worked for CSIRO for 30 years but retired from the agency at the end of March. “The rest of the world does rely on us for both measurements and interpretation of what’s going on on this side of the world.”

Ice lab threatened


CSIRO scientists in Melbourne who analyse ice cores from an ice cap called Law Dome in Antarctica – a group colloquially known as the ‘Ice Lab’ – fear their programme is one that might be curtailed.

Because the Law Dome accumulates ice very rapidly and traps low levels of impurities as it grows, its cores constitute the most reliable record of greenhouse-gas emissions over the past 2,000 years, says Malte Meinshausen, a climate modeller at the University of Melbourne and the Potsdam Institute for Climate Impact Research in Germany. Climate models that predict how many degrees of warming will occur under different greenhouse-gas emissions scenarios rely heavily on its record, Meinshausen says.

David Etheridge, head of ice core research, says that he has not been told he will lose his job, but that other scientists who do ice core analysis are facing redundancy. CSIRO has said that the Ice Lab will remain open, but Etheridge believes that cuts will have negative consequences for palaeo-climate research and the climate models that rely on it.

Aerosol fear


CSIRO researchers also fear that Australia’s contributions to the world’s largest ground-based network of aerosol sensors, called AERONET — a NASA-led project to verify the sometimes ambiguous aerosol measurements made by satellite — are in jeopardy. On 1 May, Brent Holben, who leads the AERONET project in Greenbelt, Maryland, wrote to CSIRO to urge that it reconsider its cuts. 

He said that they would cause the loss of aerosol measurements over a large region of the Southern Hemisphere.

Asked for a statement, the agency said: “CSIRO is working with partners to identify the most efficient way of delivering this work.”

Sea-level expertise


Notable among individual staff set to lose their jobs is John Church, an expert on sea-level rise who has worked for CSIRO for 38 years and who coordinated a chapter on sea-level change for the most recent assessment report of the Intergovernmental Panel on Climate Change (IPCC), released in 2014.

Church was at sea on the research vessel RV Investigator when he learnt last week that, as he had expected, he would be made redundant.

John has probably done more to lay a really firm scientific foundation under the issue of sea-level rise than anyone else in the world,” says Steve Rintoul, a fellow oceanographer at the CSIRO. “The signal that this sends to both staff within and outside of CSIRO is really horrible.”

The RV Investigator’s voyage from the Southern Ocean to the Equator is currently mapping deep-ocean temperature and chemistry under the international GO-SHIP program, and is also deploying Argo and biogeochemistry floats that gather data at the ocean surface. CSIRO says that neither the frequency of the ship’s expeditions nor the associated data analysis will be adversely affected. But researchers who did not want to be named said that, with the cuts, they doubted that such extensive surveys would be possible in the future, or that other Australian agencies could fill the gaps in expertise if oceanography groups were disbanded.

CSIRO. CC-BY-3.0    Layoffs in CSIRO's oceanography groups may dampen the productivity of the Australian research vessel RV Investigator.

CSIRO had first announced in February that it planned to shed hundreds of jobs as part of a strategic shift away from basic climate science; in April, it confirmed that this included almost 140 lay-offs in its ‘Oceans and Atmosphere’ and ‘Land and Water’ divisions.

The CSIRO cuts are “inexplicable”, says Thomas Stocker at the University of Berne, who co-chaired the IPCC’s Working Group I (which examines the physical science of climate change) between 2008 and 2015. He is particularly concerned about the cuts to the sea-level research group. “It’s simply not understandable for me that the stewards of a country that is so fundamentally exposed to sea-level rise is able to basically terminate research activity in their own country,” he says.

Negotiations since February have staved off cuts in some programmes, says one senior scientist at CSIRO’s Aspendale site in Melbourne. For example, CSIRO ratcheted back cuts for a team that analyses air pollution from data drawn from the remote Cape Grim Observatory in Tasmania, so that Australia could continue to meet obligations to international agreements such as the Montreal Protocol, which governments signed in 1987 to protect the stratospheric ozone layer from damage by chlorofluorocarbons.

But it seems that the bulk of the cuts will not be reversed. Although more than 3,000 scientists have urged Australian politicians and CSIRO management in an open letter to reconsider the proposed lay-offs, the government has distanced itself, saying that they are an agency-level decision. With national elections set for 2 July, the opposing Labor party has said that if it were elected, it would direct the CSIRO's board to stop the lay-offs. However, it would not reappoint scientists who accept redundancies before then

Mangrove Ecosystems In Queensland Are Dying Just Like The Great Barrier Reef



17 May, 2016

Australia is still recovering from the massive coral bleaching in the Great Barrier Reef, however, its ecosystem gets another blow — the Mangrove population in Queensland is dying.

Scientists are yet to establish an explanation of what could have caused it, but they are certain that the damage covers a large area.

The hot climate coinciding with the dry period of Northern Australia could have triggered the widespread deaths, because there is no other major event, such as cyclone, tsunami or oil spill in the area that could have resulted in such destruction of the mangrove ecosystem, said Norm Duke, a professor from James Cook University and a spokesman for the Australian Mangrove and Saltmarsh Network (AMSN).

Ecosystem At Risk

Mangroves are crucial because they minimize the erosion of shorelines and prevent sediment from going offshore, thus, filtering the inland water before it enters the sea. Without the mangroves, coastal ecosystem like seagrass and corals could vanish as well.

These mangroves also serve as fish sanctuaries. Fishermen have already reported about meager catches along with the diminishing mangrove ecosystem.

Because of their extensive root network, mangroves can store and trap carbon five times more than the normal forest. When they are lost, Duke explained, the carbon would be released into the atmosphere and might intensify global warming.

Close Monitoring Needed

AMSN officials cannot closely monitor such an expansive damaged area because they do not have the funding to do so. They only rely on information from the locals and imaging from Google Earth.

Australia has 7 percent of the world's mangrove population, and Duke fears that if the numbers continue to decline, the ecosystem will be significantly disrupted.

"Once the trees have died, they can only grow back from seedling which may take 20 to 30 years before you get a functioning forest again," said Duke.

Initial observations of the mangrove dieback were presented during the AMSN Conference. Duke said that monitoring efforts should be carried out to establish a baseline condition of the shorelines.

The mangroves in the Indo-Pacific are also being threatened to become extinct by 2070 because of rising sea levels.

While scientists are still figuring out the exact cause of the mangrove deaths, it seems that climate change could be the one to blame.


Just in case you have been way on Mars and weren't already aware of this....


A Death of Beauty — Climate Change is Bleaching the Great Barrier Reef Out of Existence


21 April, 2016
Extinction.
It’s a hard, tough thing to consider. One of those possibilities people justifiably do not want to talk about. This notion that a creature we’re fond of and familiar with — a glorious living being along with all its near and distant relatives — could be entirely removed from the web of existence here on Earth.
Our aversion to the topic likely stems from our own fear of death. Or worse — the notion that the entire human race might eventually be faced with such an end. But extinction is a threat that we’ll see arising more and more as we force the world to rapidly warm. For species of the world now face existential crisis with increasing frequency as atmospheric and ocean temperatures have risen so fast that a growing number of them have simply become unable to cope with the heat.
The Great Barrier Reef of Australia — the world’s largest single structure made up of living organisms — is no exception. For this 1,440 mile long expanse of corals composed of more than 2,900 individual reefs that has existed in one form or another for 600,000 years has suffered a severe blow — one from which it may never be able to recover. One that appears likely to kill up to 90 percent of its corals along previously pristine regions in its northern half.


(Governments failed to listen to the warnings of scientists like Terry Hughes. Now, it appears that the Great Barrier Reef has been hit by a blow from coral bleaching from which it may never be able to recover. Video source: Australian Broadcasting on the Great Barrier Reef’s Worst Coral Bleaching Event on Record.)

The damage comes in the form of extreme ocean heat. Heat resulting from global temperatures that are now well in excess of 1 degree C above preindustrial times. Heat that has forced ocean temperature variability into a range that is now lethal for certain forms of sea life. Particularly for the world’s corals which are now suffering and dying through the worst global bleaching event ever experienced.
The Worst Global Coral Bleaching Event Ever Experienced

During 2014 the oceans began to heat up into never-before seen temperature ranges. This warming initiated a global coral bleaching event that worsened throughout 2015. By early 2016 global surface temperatures rocketed to about 1.5 C above 1880s averages for the months of February and March. These new record high temperatures came on the back of annual carbon emissions now in the range of 13 billion tons each year and at the hotter end of the global natural variability cycle called El Nino. Both the atmosphere near the land surface and the upper levels of the ocean experienced this extreme warming.
In the ocean, corals rely on symbiotic microbes to aid in the production of energy for their cellular bodies. These microbes are what give the corals their wild arrays of varied and brilliant colors. But if water temperatures rise high enough, the symbiotic microbes that the corals rely on begin to produce substances that are toxic to the corals. At this point, the corals expel the microbes and lose their brilliant coloration — reverting to a stark white.
Worst coral bleaching event on record
(A vast region of the world’s ocean system continues to experience coral bleaching. In area, extent, height of extreme temperature, and duration, the current global coral bleaching event is the worst ever experienced by a good margin. As global temperatures continue to warm due to ongoing fossil fuel burning and related carbon emissions, widespread coral bleaching is likely to become an annual occurrence. Temperatures have risen far enough and will continue to rise for long enough to set about ocean conditions that will result in mass coral die-offs around the world. Image source: NOAA.)

Bleaching isn’t necessarily lethal to corals. However, once the microbes are gone, the corals have lost a key energy source and will eventually die without them. If ocean temperatures return to normal soon enough, the corals can begin to accept the symbiotic microbes back, return to a healthy cellular energy production, and survive — albeit in a weakened and more vulnerable state for some time to come. But if ocean temperatures remain too warm for an extended period, then the corals will be deprived of energy and nutrients for too long and they will inevitably perish.
The kind of coral bleaching event that we’re experiencing now is a mass killer of corals. Not simply due to the heat itself, but due to the long duration of the extreme temperature spike. By late February, many ocean scientists were very concerned about the already severe damage reports that were starting to come in. At that time, NOAA issued this warning:
We are currently experiencing the longest global coral bleaching event ever observed. We may be looking at a 2- to 2½-year-long event. Some areas have already seen bleaching two years in a row.”

93 Percent of Great Barrier Reef Affected by Bleaching

By late February, the level of concern for the Great Barrier Reef was palpable. Stark reports were starting to come in from places like Fiji — which had experienced two years of severe bleaching — and Christmas Atoll about 1,300 miles south of Hawaii — whose reported losses were best described as staggering. So far, the worst of the hot water had stayed away from Australia’s great reef.

But by early March a plume of very extreme ocean heat began to appear over The Great Barrier Reef’s northern sections. Sea surface temperatures spiked to well above, a dangerous to corals, 30 degrees Celsius for days and weeks. This 30 C or greater heat extended deep — hitting as far as 50 meters below the ocean surface over the reef. And it rippled southward — hitting section after section until few parts of the reef were spared.
Terry Hughes, one of the world’s foremost experts on the Great Barrier Reef, on March 18th tweeted his fear and anguish over the situation:

Terry Hughes tweet

At this point, there was no stopping the tragedy. Fossil fuel emissions had already warmed the airs and waters to levels deadly to the living reef. It was all researchers could do to work frantically to assess the damage. Teams of the world’s top reef scientists swept out — performing an extensive survey of the losses. More than 911 reef systems were assessed and, in total, the teams found that fully 93 percent of the Great Barrier Reef system had experienced some level of bleaching.

Final Death Toll for Some Sections Likely to Exceed 90 Percent

In extent, this was the worst bleaching event for the Great Barrier Reef by a long shot. Back during the previous most severe bleaching events of 1998 and 2002, 42 percent and 54 percent of the reef was affected. By any measure, the greatly expanded 2016 damage was catastrophic. “We’ve never seen anything like this scale of bleaching before. In the northern Great Barrier Reef, it’s like 10 cyclones have come ashore all at once,”said Professor Terry Hughes in the ARC coral bleaching report.

Out of all the reefs surveyed in the report, just 7% escaped bleaching. Most of these reefs occupied the southern section — a region that was spared the worst of the current bleaching event due to cooler water upwelling provided by the powerful winds of Hurricane Winston. But impacts to the Northern section of the reef could best be described as stark. There, a section composing almost the entire northern half of the reef saw between 60 and 100% of corals experiencing severe bleaching. In the reports, Hughes notes that many of these corals are not likely to survive. In the hardest hit reefs — which were in the most remote sections least affected by Australia’s industrial run-off — algae has been observed growing over 50 percent of the corals affected — an indication that these corals are already dead:
Tragically, this is the most remote part of the Reef, and its remoteness has protected it from most human pressures: but not climate change. North of Port Douglas, we’re already measuring an average of close to 50% mortality of bleached corals. At some reefs, the final death toll is likely to exceed 90%. When bleaching is this severe it affects almost all coral species, including old, slow-growing corals that once lost will take decades or longer to return (Emphasis added).”

But with the oceans still warming, and with more and still worse coral bleaching events almost certainly on the way, the question has to be asked — will these corals ever be afforded the opportunity to recover?
A Context of Catastrophe with Worse Still to Come

As ocean surface temperatures are now entering a range of 1 C or more above 1880s levels, corals are expected to experience bleaching with greater and greater frequency. The Intergovernmental Panel on Climate Change in 2007 identified the time-frame of 2012 to 2040 as a period of rising and extreme risk to corals due to bleaching. IPCC also identified bleaching as the greatest threat to corals and related reef-dependent sea life.

When ocean surface temperatures warm into a range of 2 C above 1880s levels — the kind of severe global heating that could arise under worst-case fossil fuel emissions and related warming scenarios by the mid 2030s — corals in the Great Barrier Reef are expected to experience bleaching on an annual basis. Every year, in other words, would be a mass coral bleaching and die-off year.
image
(Sea surface temperatures and temperatures withing the top 50 meters of water over the Great Barrier Reef of Australia rose to 3-4 C above average during the austral Summer and Fall of 2016. These record temperatures lasted for weeks in some regions setting off the worst coral bleaching event the Great Barrier Reef has ever seen. By mid-Century, coral bleaching and mass die-offs are likely to occur on an annual basis as global temperatures surpass the 1.5 C and 2 C thresholds. Image source: Earth Nullschool.)

Globally, bleaching events under even moderate fossil fuel emissions scenarios would tend to take up much of the Equatorial region on an annual basis by mid-Century. Events that can, during single years, wipe out between 90 and 95 percent of corals at any given location. A handful of corals will likely survive these events — representing a remote and far-flung remnant who were simply a bit hardier, or lucky, or who had developed an ability to accept microbes that are tolerant to warmer temperatures. But these hardy or fortunate few would take hundreds to thousands of years to re-establish previous coral reef vitality even if other harmful ocean conditions did not arrive to provide still more damage.
As coral bleaching expands at the Equator due to increasing rates of ocean warming, increasing levels of carbon dioxide in the atmosphere causes oceans to become more acidic. Cooler waters at the poles are better able to transfer gasses into the ocean’s waters. And higher levels of carbon dioxide in the world ocean results in a growing acidity that is harmful to corals. Increasing levels of ocean acidity thus creep down from the poles at the same time that bleaching events move up from the Equator.
If fossil fuel emissions continue, by mid-Century atmospheric carbon dioxide levels in the range of 450 to 500 parts per million will have provided a never-before seen spike to ocean acidity. Such high ocean acidity would then provide a second severe blow to corals already devastated by bleaching events. It’s a 1-2 punch that represents a mass extinction threat for corals this Century. And we’re starting to see the severe impacts ramp up now.
ocean-acification-through-2050
(Coral bleaching is a severe threat to tropical coral reefs now. But CO2 potentially hitting above 500 parts per million, according to a 2014 study, risks a complete loss of equatorial coral reefs by 2050 to 2100. Between bleaching and acidification, there’s no way out for corals so long as fossil fuel burning continues. Image source: Threat to Coral Reefs From Ocean Acidification.)

The only hope for stopping this ever-expanding harm is a rapid cessation of fossil fuel emissions. And we owe it to the corals of the world, the millions of species that depend on them, and the hundreds of millions of people whose food sources and economic well being come from the corals.
And Then We Wept”

When researchers told students of the extent of harm to corals upon the Great Barrier Reef,the students were reported to have wept. And with good reason. For our Earth had just experienced a profound death of beauty. A death of a vital and wondrous living treasure of our world. A priceless liquid gem of our Earth. A wonder that gives life to millions of species and one that grants both food and vitality to Australia herself. For if the reef goes, so does a huge portion of the living wealth of that Nation and our world.

Sadly, the tears will just keep coming and coming as these kinds of events are bound to worsen without the most dramatic and urgent global actions. The current and most recent catastrophe is thus yet one more in a litany of wake up calls to the world. But will we hear it loud and clear enough to act in ways that are necessary to ensure the corals survival? And what of the billions of creatures and of the millions of humans too that depend on the corals? Do we care about them enough to act?
Links:
Hat tip to Caroline
Hat tip to Spike
Hat tip to Colorado Bob
Hat tip to Ryan in New England
Hat tip to Griffon
(Please support public, non-special interest based science like the essential work that has been provided by Terry Hughes over so many years and decades. Scientists like Terry provide a vital public service. For years, they have given us a clear warning of a very real and ever more present danger. A warning that gives us a fleeting opportunity to respond to events before we lose the richest living treasures of our world. Before we are bereft of our ability to continue to make livelihoods as environmental abundance and the related regional and global life support systems are irreparably damaged.)



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