21/09/2018

At This Rate, Earth Risks Sea Level Rise Of 20 To 30 Feet, Historical Analysis Shows

Washington PostChris Mooney

New research finds that a vast area of Antarctica retreated when Earth’s temperatures weren’t much warmer than they are now.
A flotilla of tabular icebergs adrift in the Southern Ocean, near the outlet of the Wilkes Subglacial Basin, East Antarctica. (Christina Riesselman)
Temperatures not much warmer than the planet is experiencing now were sufficient to melt a major part of the East Antarctic ice sheet in Earth’s past, scientists reported Wednesday, including during one era about 125,000 years ago when sea levels were as much as 20 to 30 feet higher than they are now.
“It doesn’t need to be a very big warming, as long as it stays 2 degrees warmer for a sufficient time, this is the end game,” said David Wilson, a geologist at Imperial College London and one of the authors of the new research, which was published in Nature. Scientists at institutions in Australia, New Zealand, Japan and Spain also contributed to the work.
The research concerns a little-studied region called the Wilkes Subglacial Basin, which is roughly the size of California and Texas combined and contains more than 10 feet of potential sea-level rise. Fronted by three enormous glaciers named Cook, Mertz and Ninnis, the Wilkes is known to be vulnerable to fast retreat because the ice here is not standing on land and instead is rising up from a deep depression in the ocean floor.
Moreover, that depression grows deeper as you move from the current icy coastline of the Wilkes farther inland toward the South Pole, a downhill slope that could facilitate rapid ice loss.
What the new science adds is that during past warm periods in Earth’s history, some or all of the ice in the Wilkes Subglacial Basin seems to have gone away. That’s an inference researchers made by studying the record of sediments in the seafloor just off the coast of the current ice front.
Here, they found several layers of sediments that appeared to come from beneath where the ice currently lies, providing a hint that when these layers of the seafloor were laid down, Wilkes contained either less ice or no ice at all.
Those sediments corresponded in time to several well-known past warm periods, when seas rose considerably. But what’s worrying is that these eras were in many cases not much warmer than the planet already is right now.
The shape of the bedrock beneath Antarctica, showing the very deep Wilkes Subglacial Basin, using data from the Bedmap2 project. (Stewart Jamieson/Durham University).
Humans have caused about 1 degree Celsius (1.8 degrees Fahrenheit) of warming above the preindustrial planetary temperatures experienced before the year 1880 or so. The world has pledged to avoid a warming above 2 degrees Celsius, and even hopes to hold the warming to 1.5 degrees, but current promises made by countries are not nearly enough to prevent these outcomes.
In other words, we are already on a course that could heat the planet enough to melt some or all of the Wilkes Basin.
“We say 2 degrees beyond preindustrial, and we’re already beyond preindustrial,” Wilson said. “So this is potentially the kinds of temperatures we could see this century.”
The study cannot reveal, however, just how quickly ice emptied out of the Wilkes Basin. The past warm periods in question are thought to have been driven by slight variations in Earth’s orbit as it rotates around the sun, leading to stronger summer heat. That warmth was maintained for thousands of years.
“What we definitely can say is that during the [geological] stages where temperatures were warm for a couple of degrees for a couple of millennia, this is where we see a distinct signature in our records,” Wilson said. “We can’t necessarily say things didn’t happen quick, but we can’t resolve that in our data.”
The new research “contributes to the mounting pile of evidence that East Antarctica is not as stable as we thought,” Isabella Velicogna, a glaciologist at the University of California at Irvine, said by email. Velicogna was not directly involved in the paper.
“What I found particularly interesting is that the authors came to their conclusions using a data record off shore, not directly beneath the ice (which would be ideal), but this is clearly putting more incentive into studying this part of East Antarctica in more detail,” she wrote.
“The only way to obtain unequivocal evidence of the ice sheet retreat they describe is to drill through the ice sheet itself into the basin,” added Reed Scherer, an Antarctic expert at Northern Illinois University. “Until that gets done, this study from just offshore provides the clearest evidence yet that marine terminating glaciers of both East and West Antarctica are at risk for the future as global temperatures rise.”
The new research comes just as the U.S. and British governments prepare to launch a multiyear research project to study Antarctica’s huge and remote Thwaites glacier, which is in West Antarctica and is viewed as the largest risk to coastlines in this century.
The situations of Thwaites and Wilkes are eerily similar — both feature enormous amounts of ice resting on the seafloor, rather than on land, and downward slopes that create what scientists call a “marine ice sheet instability.” And both contain enough ice to unlock 10 feet or more of sea-level rise.
Thwaites is “sitting in a very unfortunate spot … resting over some of the deepest bedrock in West Antarctica,” Ted Scambos, a senior research scientist at the National Snow and Ice Data Center in Boulder, Colo., said at a planning event at Columbia University on Wednesday.
The new study suggests that Thwaites is the beginning, not the end, of our worries. One key difference, though, is that Thwaites is already losing 50 billion tons of ice per year, whereas the Wilkes region appears to be relatively unchanged for now, according to Wilson.
But it may simply be that while the world is already warm enough to awaken West Antarctica, just a bit more warmth will cause the same to happen to parts of the much larger East Antarctic ice sheet. That would not only explain a lot about the link between past sea levels and past temperatures in Earth’s history — it would further illuminate the future we’re heading toward.

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Why Australia Is Heading For Epic Failure On Carbon Emissions

New Daily

Under current policies Australia will miss its Paris commitments by 21 percentage points. Photo: Getty
Since replacing Malcolm Turnbull a month ago, Prime Minister Scott Morrison has seemingly taken climate change mitigation off the policy table altogether.
His new energy minister, Angus Taylor, says carbon emissions don’t matter because we’re already on track to meet our Paris Agreement targets “without interventions” – a claim that The New Daily debunked here.
Given the Morrison government’s dropping of any pretence of a climate policy, The New Daily thought it worth taking a thorough look at exactly how Australia is doing on the greenhouse gas emissions front.
We asked three simple questions: What are Australia’s greenhouse gas emissions? Who or what is responsible for them? And how are we planning to reduce them?
The answers were surprisingly easy to find. They were all contained in this 40-page document from Mr Taylor’s own department, the Department of Environment and Energy. It made for grim reading.
In summary: Australia released 554 million tonnes of carbon dioxide and other greenhouse gases last year, and that’s set to go up, not down, by 2030; the single biggest contributor to this is coal-fired electricity generation, with car exhaust fumes and cow belches not far behind; and as things stand we are doing very little at a national level to deal with this dire problem.

The four main culprits
The government highlights eight main sources of greenhouse gas emission, all listed in the chart below. For simplicity’s sake we’ll concentrate on the four biggest ones: electricity generation, direct combustion, transport and agriculture.


Electricity generation
Electricity generation is by far the biggest contributor to Australia’s greenhouse gas emissions, and as the graphic below shows, coal is by far the biggest resource used to generate electricity.
In 2017 electricity generation accounted for 190 Mt CO2-e. That’s 34 per cent of total greenhouse gas emissions.
(Side note: Mt CO2-e means million tonnes of carbon dioxide or equivalent measure of greenhouse gases. Other greenhouse gases include methane, nitrous oxide, chlorofluorocarbons (CFCs) and hydrofluorocarbons (HFCs).
Given solar, wind and hydro are emissions free, the vast bulk of that 190 million tonnes comes from gas, liquid fuel and, above all, coal.

The Rudd-Gillard Labor government introduced two key policies that significantly reduced emissions from the electricity sector: the Renewable Energy Target (RET) and the carbon tax.
The closure of the Hazelwood coal-fired power station and the planned closure of the Liddell coal-fired power station in 2022 will also push emissions down.
However, the Coalition scrapped the carbon tax, and will not renew the RET when it expires in 2020. So after Liddell closes, there are no policies or events that will further reduce emissions in the sector.
Malcolm Turnbull’s National Energy Guarantee would have forced electricity generators to reduce their emissions, but Mr Morrison has already dropped that policy.
As a result, the COAG Energy Council predicts the sector is now on track to miss its 2030 target of a 26 to 28 per cent emissions reduction on 2005 levels.

A strange aspect of all this …
This brings up an important point. Under the Paris Agreement, the Coalition government agreed to reduce greenhouse gas emissions by 26 to 28 per cent on 2005 levels by 2030 – across the entire economy.
The electricity sector is by far the biggest emitter in the economy, and one in which emissions can be quite easily reduced. However, the government has only ever aimed to reduce emissions in this sector by that same figure, 26 to 28 per cent.
Given the success of previous measures, a more aggressive renewables policy, for example, combined with a NEG-style policy or even an emissions trading scheme or carbon tax, could theoretically push emissions down by much more than the 26 to 28 per cent target.
The electricity sector, in other words, could quite easily do more of the heavy lifting on emissions reduction for the entire economy, if the government decided to make that a priority.

The other three
It would make sense to do this, because as things stand reducing emissions in the transport and agriculture sectors is going to be extremely difficult.
Emissions from both sectors, in fact, are on track to rise significantly. Transport in particular: thanks to the rapidly increasing population, emissions are expected to go from 96 million tonnes of carbon in 2017 to 112 million in 2030.
The federal government formed the ‘Ministerial Forum on Vehicle Emissions’ in 2015, but as yet little solid policy has emerged from it.
Emissions from agriculture come primarily from the methane produced during cows’ and sheep’ digestion processes (we’re talking burps, not farts). Reducing emissions would mean reducing the number of livestock, which would likely be seen as an outright assault on the beef, lamb and dairy industries – not a fight many politicians will want to start.
Emissions from direct combustion – that is, the burning of fossil fuels to heat homes and power industry – is set to decline by 2 per cent between now and 2030. However there does not appear to be any clear national policy to reduce it by any more than this – though there is a lot states can do and are doing in this area.
All of which leaves us where exactly? If we’re to meet even the most modest emissions reduction target of 26 per cent below 2005 levels by 2030, our greenhouse gas emissions should be no more than 437 Mt CO2-e. On current trends they will be 570 Mt CO2-e – just 5 per cent below 2005 levels.
Which means we’re on track to miss our 2030 Paris Agreement targets by a massive 21 percentage points.

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Australian Businesses Must Do More To Disclose Climate Change Risks To Investors, ASIC Says

The Guardian

Financial analysts say regulator’s report makes it clear ‘many Australian companies are not meeting their legal requirements’
A vehicle passes through a flooded street. An Asic review found few listed companies outside of the ASX 200 were disclosing climate change risks to their investors. Photograph: STR/AAP 
Australian companies should be doing more to disclose risks to their business from climate change, according to a report by the corporate regulator Asic.
The review, published on Thursday, examined climate risk disclosures by 60 companies in the ASX 300, in 25 recent initial public offering (IPO) prospectuses, and across 15,000 annual reports.
Of the 60 companies, Asic found 17% identified climate change as a material risk to their business.
The regulator said that while most ASX 100 companies had considered the potential risks posed to them by climate change at least to some extent, the practice of disclosing these risks to investors was “considerably fragmented, with information provided to the market in differing forms across a wide range of means of disclosure”.
“In some cases, the review found climate risk disclosures to be far too general, and of limited use to investors,” Asic said in a statement.
The review found few listed companies outside of the ASX 200 were disclosing climate risks to their investors.
Discussion of climate change in annual reports had also gone backwards, particularly for companies outside the ASX 100.
It found the percentage of annual reports of all listed companies that contained climate change-related content had fallen from 22% in 2011 to 14% in 2017.
“Climate change is a foreseeable risk facing many listed companies in the Australian market in a range of different industries,” the Asic commissioner John Price said.
“Directors and officers of listed companies need to understand and continually reassess existing and emerging risks (including climate risk) that may affect the company’s business – for better or for worse.”
He said climate change disclosure practices were still evolving and Asic would “monitor market practice as it continues to evolve and develop in this area”.
But financial analysts said the report highlights problems with Australia’s generic risk disclosure laws for companies and the understanding of how they apply to climate change.
“It shows there’s a difference between what Asic says the laws say and what companies are doing,” said Will van de Pol, a campaigner at Market Forces.
“It’s clear from this report and our financial research that many Australian companies are not meeting their legal requirements.
“It means that investors are being left in the dark about the risk to the companies that they own from climate change.”
He said it was up to investors to demand detailed risk disclosure from companies and for the regulator to take action against companies that failed to meet disclosure requirements.
Dan Gocher, director of climate and environment at the Australasian Centre for Corporate Responsibility, said the results in the review suggested mandatory reporting of climate risks might need to be considered.
“In the absence of that, this is the result,” he said. “It points to a systemic issue. Without mandatory reporting from Asic it will require a cultural change.”
He said investors should be taking action against companies that weren’t making progress.
“We’re suggesting they used the tools that they’ve got and the only ones are voting against directors and voting against remuneration,” he said.

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