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Climate Sensitivity, Sea Level and Atmospheric Carbon Dioxide
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Discussion of paper in Phil. Trans. Roy. Soc. available here or my web site.
~Jim
26 September 2013
Posted by Torin Peel in Politics on 26 September, 2013 8:34 pm / 36 comments
Even before Tony Abbott took over as prime minister he was already exercising autocratic power, says Torin Peel, but now he’s really starting to turn the screws.
(Caricature by John Graham / johngraham.alphalink.com.au)
Now in high office, Tony Abbott has full power to do whatever he chooses.
He has the power to control his members of parliament and the party in which he leads. Not only that, but he now has control of the country, giving him the room to do as he pleases.
In his first weeks, he has already exercised his right to do so.
Some of these things include shutting down numerous bodies, such as the Climate Commission. He has also merged AusAid into the Department of Foreign Affairs and Trade, giving him more power to control international aid. These two manoeuvres alone will most likely cost hundreds of jobs in the public service.
During the campaign, as leader of the opposition, Tony Abbott had the power to tell his party what to do and what not to do. He swiftly put a block on his candidates talking to the media without permission from him after the Jaymes Diaz incident. This meant that dozens of candidates from the Liberal party were unable to attend debates across the country.
Tony Abbott once described Kevin Rudd as a ‘hyper-control freak’. It has now emerged that Abbott himself is gagging his own cabinet from the right to talk to media without prior approval from his office. This might spell the end of members of the Liberal party appearing on television programs like Q&A and 7:30, which are fundamental to our democracy.
With so much control, you could almost say that Tony Abbott is now running our country as a dictatorship. His one-woman cabinet will no longer have a voice and will be unable to speak up about important issues in the public domain, which we weren’t expecting much of, anyway.
The media-ban decision was made after Christopher Pyne revealed in an interview the government’s agenda to take an axe to the university sector. Seems a bit like the Diaz slip-up, doesn’t it?
These aren’t the only media bans Tony Abbott has enforced. It was revealed recently that the government would attempt to cover-up boat arrival information, taking away our knowledge on how many boats are arriving. This decision has a huge impact on our democracy, taking away transparency.
The Greens have stated they will use their senate powers to try and reveal boat numbers, which will help us to hold the Abbott government accountable on their promise to stop the boats.
All of this hiding of information, blockade from media appearances and extreme use of government powers really makes you wonder whether we live in democracy anymore. Of course, the people of Australia did vote for the Coalition and Tony Abbott, but did we really expect everything to happen so quickly and so
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9:12 AM (11 minutes ago)
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Dear friends,
In 24 hours, the world’s leading climate experts will release the most important report about our planet’s future in decades — but big oil and energy are rallying their worst bully to undermine this global wake up call: Rupert Murdoch and his huge conservative media empire. Let’s beat back his attack by calling him out to tell the climate truth before it’s too late:  |
In 24 hours, the world’s top scientists will release the most important report in decades: proving once and for all that climate change is a massive threat, but that government action now can stop catastrophe. It’s a global wake up call to save our planet, but big oil and dirty energy have a powerful bully who’s rallying to stop the truth from coming out.
Rupert Murdoch owns hundreds of major media outlets including ultra conservative Fox News and the Wall Street Journal, and he’s using his media power to help his oil buddies stop governments acting to curb their profits. In the US alone, a shocking 80% of climate stories from Murdoch’s select papers mislead readers about global warming! Now he’s set his sights on this groundbreaking report, and his media empire will dominate the conversation unless people around the world stand together and drown him out.
Battles like this are won or lost in the court of public opinion. One giant global petition supporting climate truth plus letters to the editor, tweets, social media messages could be the blows we need to win this fight. Let’s call Murdoch out now and persuade him to back off his attack on science and report the truth. Join now and spread the word — when our call reaches 1 million we’ll send a group of the world’s best scientists to directly give him the facts:
http://www.avaaz.org/en/murdoch_tell_climate_truth_oz/?bhPqncb&v=29593
This report written by 2000(!) scientists will be the most comprehensive body of evidence on global warming in years. It states that global warming is “unequivocally” human made, and that urgent action is required by our governments to avert the impact it could have on our earth through droughts, storms, sea level rise, melting glaciers and ice sheets. Climate change will affect all of us, starting with our coral islands, our crops, our seas, and our coastal cities, everywhere!
But acting to reverse the damage to our planet will take courage and politicians have used the false “climate debate” fueled by right-wing climate deniers as excuses for inaction. That’s why big oil and energy spend so much time funding junk science to question the fact of climate change and the plan needed to reverse its devastation. Murdoch is such a powerful friend because he gives the junk tons of media play around the world. Others join in and they drag more balanced media down as editors feel compelled to mention this phony debate in the name of “objectivity”.
Government representatives are sitting down with the scientists right now to determine what this report means and what needs to be done. It could be the catalyst for global action that is vital to salvage our earth, but if our media outlets follow Murdoch’s lead, we’ll lose this key moment for visionary policy that is critical to stop the global crisis of our time.
Let’s get the media to report the truth, end the false climate debate and start the serious battle to end climate change. Sign the petition now to call out Murdoch’s spin:
http://www.avaaz.org/en/murdoch_tell_climate_truth_oz/?bhPqncb&v=29593
Scientists say if we don’t act now, it’s over. We will simply tip over the point where we can stop the impact of global warming. Our political leaders are beginning to recognize that they must act. The dirty polluters and media mafia will all do their best to keep their income coming in, but momentum and truth are on our side. If we come together, we know we can stop the wacko noise and save the future for our children and grandchildren, but we must win this battle now.
With hope,
Alice, Jamie, Iain, Luis, Emma, Bissan, Laura, Ricken, Jooyea and the rest of the Avaaz team
MORE INFORMATION:
What 95% certainty of warming means to scientists (Huffington Post)
http://www.huffingtonpost.com/huff-wires/20130924/us-sci-warming-certainty/
The 5 stages of climate denial are on display ahead of the IPCC report (The Guardian)
http://www.theguardian.com/environment/climate-consensus-97-per-cent/2013/sep/16/climate-change-contrarians-5-stages-denial?CMP=twt_gu
Is News Corp. Failing Science? (Union of Concerned Scientists)
http://www.ucsusa.org/assets/documents/global_warming/Is-News-Corp-Failing-Science.pdf
Dollars for Deniers: Big Oil Funds Climate Science Denialism (Daily Kos)
http://www.dailykos.com/story/2013/01/26/1182365/-Dollars-for-Deniers-Big-Oil-Funds-Climate-Science-Denialism/
Global Warming Is Very Real (Rolling Stone)
http://www.rollingstone.com/politics/news/global-warming-is-very-real-20130912
Climate Change Report From UN Introduces Purple Color To Depict Worsening Climate Risks (Associated Press)
http://www.huffingtonpost.com/2013/09/13/climate-change-report-un_n_3918823.html
Rupert Murdoch’s Newspapers Mislead Public On Climate Change and Environment (DeSmog Blog)
http://www.desmogblog.com/rupert-murdoch-s-newspapers-mislead-public-climate-change-and-environment
| Support the Avaaz Community! | ||
| We’re entirely funded by donations and receive no money from governments or corporations. Our dedicated team ensures even the smallest contributions go a long way. |  |
By Indonesia correspondent George Roberts, staff – September 26, 2013, 8:56 pm
Indonesia’s foreign minister has divulged the contents of his private discussions with his Australian counterpart Julie Bishop, warning the Government’s asylum seeker policies could damage relations.
Marty Natalegawa met the new Foreign Affairs Minister in New York this week and the two spoke at length about a range of issues.
In an unusual step, Dr Natalegawa’s department has issued a press release revealing details of the discussion, which included Australia’s plan to turn boats back to Indonesia.
Indonesia has repeatedly warned against the policy, which is part of Operation Sovereign Borders, the Coalition’s regional action plan against people smuggling.
The statement says unilateral measures taken by Australia would potentially risk the close cooperation and trust between the countries.
It says Dr Natalegawa reminded Ms Bishop that the issue of asylum seekers should be dealt with through existing regional cooperation arrangements.
It also also says Australia wants to work “behind the scenes” and “quietly” on the issue to prevent too much publicity.
The ABC’s Indonesia correspondent George Roberts has told PM the statement was “written in Bahasa Indonesia, the language of Indonesia”.
He says the statement is a rare move from a nation that is usually much more circumspect in diplomacy.
“Even in recent history, the foreign minister has been very reluctant to speak openly and has been very diplomatic about it,” he said.
“So this kind of language is quite strong and quite interesting indeed.
“The foreign minister actually states in this press release that Australia and Indonesia need to take stock in order to identify common interests and that both countries need to basically take a joint approach to this, so it’s almost like going back to square one and starting again.”
Prime Minister Tony Abbott is due to visit Jakarta next week.
Indonesia should stop pious rhetoric: Downer
Former foreign minister Alexander Downer says Dr Natalegawa should not be “taking shots” at Australia as soon as a new government is elected.
“Let me make this point for Mr Natalegawa’s benefit: Indonesian-flagged boats with Indonesian crews are breaking our laws bringing people into our our territorial waters,” he told ABC’s The Drum.
“This is a breach of our sovereignty and the Indonesians need to understand that instead of a lot of pious rhetoric about the Australian Government breaching their sovereignty.
“Their people, their boats, their crews are breaching our sovereignty and this is something that needs to be worked out in a mature and constructive way as it was during the Howard years.
“Indonesia has a heavy responsibility to bear in helping Australia solve this problem, not take the view that they can liberally attack the Australian Government and continue to allow their boats with their crews bringing people to our country … breaking our laws in doing so.”
Effective border policy needs Indonesian cooperation: UN
Ms Bishop has previously said regardless of how Indonesia viewed them.
However, the United Nations’ refugee agency says the Government will struggle to turn back boats without Indonesian cooperation.
“We don’t think you can resolve the issues by unilaterally turning back boats,” the UNHCR’s regional representative Richard Towle told PM.
“Those sorts of things raise enormously challenging problems for people involved in rescue at sea and interceptions … and without the strong agreement of a receiving country it’s very difficult for those things to be done effectively.
“And what worries us in this situation is that it doesn’t address the acute protection needs of people who are taking these difficult and dangerous journeys.
“It’s very important to address both the legitimate border and security concerns of states but also make sure that people are fairly and humanely treated. And that’s the kind of balance we think can be best achieved through genuine long-term strategic engagement with countries in the region.”
Morrison to inspect Manus Island centre
Meanwhile, Immigration Minister Scott Morrison has arrived in Papua New Guinea’s capital Port Moresby ahead of a visit to the processing centre for asylum seekers on Manus Island.
Mr Morrison has visited Papua New Guinea several times, but this is his first trip as Immigration Minister.
His first meeting was with attorney-general Kerenga Kua.
Mr Morrison told Mr Kua that Mr Abbott is grateful for PNG’s help in tackling people smuggling.
But Mr Morrison said the agreement with the Rudd government to send asylum seekers to Manus Island needed to be developed further.
“The previous government had put some measures in place. I think we have many challenges ahead to ensure we can get those arrangements on a stable footing,” he said.
Mr Morrison will head to Manus Island tomorrow to inspect the processing centre and efforts to increase its capacity.
Doctor: 5 Warning Signs You’re About to Get Alzheimer’s Disease
26 September 2013
Jon Turney is dispirited by the rhetoric of collapse in a sober analysis of two global crises
You pretty much know what this book is going to say before you begin reading. While Jörg Friedrichs doesn’t say so, that is part of the evidence for his conclusion. Two worldwide crises loom, he reminds us. Peak oil – the point at which we arrive at the maximum rate of petroleum extraction and decline follows – threatens the energy supply on which we have built everything else. Yet while oil and other fossil fuels last, there will be enough of them to shift climate into a regime that poses new dangers to billions of people. In short, “industrial society as such is the least sustainable form of civilization in history”. And we are not going to do anything about it.
His starting point is that industrial society is transient because it relies on the impossibility of endless growth: Malthus was always right, in principle, and the neo-Malthusians are right now. We face an imminent decline in a currently irreplaceable resource, oil, and a breaching of planetary limits, by releasing greenhouse gases. The likely result is societal collapse some time around the middle of this century.
As he concedes, this is more or less what was projected in the Club of Rome’s 1972 report The Limits to Growth, so his book’s title is a little misleading. For some, this is pretty much the future as it has looked for the past 40 years.
Friedrichs goes on to consider how we might respond to energy scarcity. Using an approach that is new, to me at any rate, he analyses what happened when there were disruptive shortages of energy in modern societies. In a sober, and sobering, chapter, he relates what ensued: “predatory militarism” in Japan in the 1920s and 1930s, and totalitarian lockdown to preserve elite privileges while millions starved in North Korea in the 1990s. The only hopeful case is Cuba in the 1990s, when an unusually cohesive society managed to reconfigure production to feed everyone. None of these is a particularly good model for a global system facing declining oil production, however. It would most likely lead, Friedrichs suggests, not to immediate collapse or any smooth transition, but to painful adaptation that could last a century or more.
There follows a chapter discussing the state of knowledge and argument about our two crises. This, to my mind, is less convincing. Friedrichs sees both climate science and predictions of future oil production as examples of “post-normal science”, in the sense defined by Jerry Ravetz and Silvio Funtowicz. This appears to fit, in that both involve “high stakes” issues, but I believe it is a mistake to conflate the two in terms of the kinds of uncertainty they raise. Predictions of future climate change owing to greenhouse gas effects – on the largest scales at least – seem to me much more solidly grounded than those regarding future oil production.
While peak oil will certainly happen at some point, we don’t know when. That is not good news, of course, because the more oil, shale gas and – worst of all – coal we burn, the graver the climate problem will become.
That being so, Friedrichs moves on to why our response has been so ineffective. The reasons include various kinds of inappropriate discounting and a good deal of denial – in the psychological sense, which is more salient than calling those who contest the facts of climate change “denialists”.
The pessimistic conclusion follows. We know our society and economy must soon change. We will not do anything seriously to prepare for that change. So it will be even more damaging when it comes. A brief concluding chapter does sketch a few more positive possibilities, but Friedrichs says flatly that it is unrealistic to believe they will happen.
And the point of writing a book to tell us this? Well, says Friedrichs dispiritedly, and dispiritingly, intellectual honesty is all he has: “The best thing a moral individual can do is to try to live ‘in the truth’. Life is tragic and sometimes there are no solutions.”
Not good enough, I say. The rhetoric of collapse, which recurs throughout this otherwise serious appraisal of a poor situation, is too all-or-nothing. There is still enough uncertainty to keep proposing solutions. Is there enough time to decarbonise the economy and build a new energy system before climate change has seriously bad consequences? Probably not. Is it still worth trying in hope of averting the worst? In my version of the “truth”, yes. I’ll live in that one, thanks. But I’ll keep thinking about Friedrichs’ version while I do.
The Future is Not What it Used to Be: Climate Change and Energy Scarcity
By Jörg Friedrichs
MIT Press, 224pp, £18.95
ISBN 9780262019248
Nature | News Feature
A mammoth undersea US project will soon start streaming data to researchers. But some wonder whether the system is worth its high price.
The remotely operated vehicle ROPOS is lowered into the sea by the crane aboard the R/V Thomas G. Thompson.
Alexandra Witze
On a sunny day in July, it takes 90 minutes for the R/V Thomas G. Thompson to traverse the locks connecting Seattle’s inland waters to Puget Sound. On deck, John Delaney looks impatiently out to sea. As an oceanographer at the University of Washington in Seattle, he has made this trip many times to explore beneath the Pacific’s waves. But Delaney hopes that this seven-week expedition will be the beginning of the end for these time-consuming journeys. “We don’t want to be ship-bound,” he sighs. Instead, he is spending money — a lot of money — to open a permanent window onto the sea floor.
Delaney is the architect behind a 925-kilometre network of fibre-optic cable and instruments being installed on the seabed off the coast of Washington and Oregon. If all goes according to plan, these will stream real-time data back to shore by 2015, delivering some of the first live video footage of an underwater volcano erupting, hydrothermal vents growing and clouds of microbes billowing from the sea floor. The cabled network is a key part of the massive US Ocean Observatories Initiative (OOI), which aims to create a flood of continuous information from select sites.
Oceanographers have long relied on brief glimpses of data from single research cruises or isolated buoys or moorings. The OOI, and Delaney, aim to exchange those flashes of insight for a constant spotlight. “The goal is to launch an era of scientific discovery,” Delaney says, thumping his fist on the ship’s deck rail. “This is a game-changer.”
Many US oceanographers have not yet considered just how the OOI’s broad scope and potential might affect their research. But some who have been watching its development closely warn that the project is an expensive gamble. Construction costs will run to US$386 million, and the programme will then consume about $55 million per year for operations and maintenance. By the end of its planned 25-year lifetime, the OOI will have cost nearly $1.8 billion — an unprecedented price tag in oceanography.
The running costs will eat up about one-sixth of the annual budget for ocean sciences at the US National Science Foundation (NSF), and that proportion could increase. “That money is being pulled right out of what could otherwise be allocated for peer-reviewed science,” says Charles Eriksen, an oceanographer at the University of Washington who is not involved with the project. Critics also complain that the OOI sites cover only a fraction of a per cent of the world’s oceans.
Such objections hold little water with Delaney. “People say cables are expensive,” he says. “Well, ships are expensive too.” The hour and a half it takes to traverse Seattle’s locks costs the University of Washington roughly $4,000.
The OOI sprouted from a germ of an idea planted by Delaney and Alan Chave, an ocean scientist now at the Woods Hole Oceanographic Institution (WHOI) in Massachusetts. It was the early 1990s, and Delaney was frustrated with getting only enough ship time to visit the sea floor for a day or two every couple of years. Chave had been working for the US telecommunications giant AT&T, and he suggested hooking a piece of old telephone cable up to instruments on the seabed. The fibre-optic cable would provide electricity and stream data back to shore. “This is transformational,” Delaney thought.
The idea of a permanent oceanographic observatory slowly gathered steam at the NSF, and by 2007 the agency had decided to invest some $330 million in the concept. The problem was working out exactly what to build. To qualify as a national facility and justify the cost, the observatory needed to expand beyond sea-floor cables to include instruments that could plumb the full depth of the water column. OOI proponents initially dreamed up an observatory on steroids: multiple cabled arrays along with more than a dozen coastal and deep-water sites. Not surprisingly, the final project design cut back on most areas. “You have to build what you can afford,” says Deborah Kelley, a marine geologist at the University of Washington and an OOI project scientist.
After input from hundreds of researchers, the project team settled on three main components (see ‘A mega-ocean observatory’). The first, and most ambitious, is the fibre-optic network southwest of Seattle, most of which has now been laid. This will connect dozens of sea-floor instruments across the Juan de Fuca tectonic plate, which slides under North America and drives seismic activity along the west coast from northern California to Vancouver Island in Canada. The instruments will focus on an active underwater volcano called Axial Seamount, and a formation called Hydrate Ridge, where methane vented from the sea floor feeds a unique ecosystem.
“The goal is to launch an era of scientific discovery. This is a game-changer.”
The second component involves laying an array of moorings to support instrumentation off the east and west coasts of the United States. In each array, automated profilers will shuttle up and down cables measuring chlorophyll, oxygen and other factors from the sea floor to the surface. Six gliders will rove between moorings to make similar measurements. The third part of the project will use moorings and gliders to monitor four deep-water sites in the far north and south. These six sites will be run by WHOI, the Scripps Institution of Oceanography in La Jolla, California, and Oregon State University in Corvallis.
Together, these stations will marshal the forces of about 760 sensors, of 47 different designs, to collect data on variables ranging from water temperature, salinity and density to acidity, carbon dioxide and oxygen levels. “One of the most transformational things is how interdisciplinary it will be,” says Kelley.
Elsewhere, similarly ambitious oceanographic observatories are already in use. Japan has two dense sea-floor observatories — DONET and DONET2 — with a focus on earthquake and tsunami studies. And many nations operate networks of buoys: the international Argo project has an array of more than 3,000 floats. The OOI will collect a broader selection of data than those efforts. In Canada, a cousin to the OOI has been up and running since late 2009. That project, called NEPTUNE Canada, involves 800 kilometres of fibre-optic cable laid on the northern part of the Juan de Fuca plate. The Canadian government has spent Can$200 million (US$194 million) on sea-floor observatories. The OOI’s cabled observatory will be very similar, but because it is getting a later start, it will have newer designs of sensors and moorings, says Kate Moran, president of Ocean Networks Canada, which oversees NEPTUNE Canada.
It is these sensors that Delaney is dreaming of as the R/V Thompson reaches the Axial volcano in July. When the captain pulls the ship to a halt above the underwater mountain, engineers manoeuvre a boxy yellow submersible called ROPOS down into the water. From 1,500 metres below the ocean surface, it sends back a murky video feed of an eight-metre-high mineral chimney, its sides festooned with microbial growth, its top spouting shimmering hot water.
Visiting Axial like this costs almost $70,000 a day and provides only a snapshot of the volcano’s behaviour. Oceanographers have, in the past, dropped off seismometers and hydrophones at Axial and retrieved them later, allowing them to study an eruption after the fact. And, in 2011, an expedition led by the US National Oceanic and Atmospheric Administration happened to arrive just months after the volcano erupted, providing scientists with a fortuitous opportunity to study fresh lava flows. But sightings of underwater eruptions are rare, even though this is the most common type of volcanism on Earth.
Axial is expected to erupt again within a decade and OOI researchers plan to catch it in the act. A bottom-pressure tiltmeter will measure gradual changes that could indicate that the volcano is inflating, and a cutting-edge mass spectrometer will sniff the water for hints of magma rising from below. When an eruption seems imminent, a fleet of gliders could be deployed to study chemicals in the water column. A high-definition video camera, installed this summer, will watch a hydrothermal vent on Axial’s flanks. All this should yield details about how magma reaches the volcano’s summit, how that relates to seismic activity, and how organisms living in this extreme environment deal with an eruption. “There are so many questions we don’t have answers to,” says Kelley.
Delaney says that the $126-million cabled observatory is the only way to spy on Axial properly. The OOI’s investment in other parts of the ocean will also gather data that cannot be obtained using existing equipment, says Tim Cowles, programme director at the Consortium for Ocean Leadership, the organization in Washington DC that is overseeing the OOI.
The four high-latitude deep-sea moorings, for example, will help to study the exchange between air and water where powerful winds whip the sea surface into a froth. Weather forecasters and climate modellers need better information on how energy and gas move between the deep ocean, the sea surface and the atmosphere. But because oceanographic equipment tends to take a beating in fierce weather, measurements are few and far between at high latitudes. A team led by Uwe Send at Scripps deployed 57 instruments at a site in the Gulf of Alaska in July, making it the first deep-sea OOI site to be completed.
“By the end of its 25-year lifetime, this observatory will have cost nearly $1.8 Billion.”
The coastal arrays, meanwhile, should be useful for studies of algal blooms. Gradual changes in near-surface temperatures can drastically affect how phytoplankton blooms form in the spring, but catching such changes in the act is tricky, says Kendra Daly, a biological oceanographer and OOI project scientist at the University of South Florida in St Petersburg. “We have no ability to predict exactly when that will happen, so it’s hard to get ship time to be out there right when the bloom starts and ends,” she says. Measuring nutrient concentrations and primary productivity on the spot will allow researchers to better quantify how much carbon dioxide is absorbed by blooms, which has implications for understanding how biological systems interact with climate, Daly says.
To even start to tackle these science questions, the OOI team will need to get its instruments into the water before a tight deadline of February 2015. After that, the money available to complete the job will dry up. “All those things that have to happen in the last six months of the project do make all of us nervous,” says Cowles. The project’s schedule has been frantic since 2009, when the OOI received an initial input of almost $106 million from the government stimulus bill enacted in the wake of the economic recession. That infusion of funds was welcome, but it left the team scrambling to get everything in place. “It kicked us out of the gate ahead of schedule, and we’ve been trying to catch up ever since,” says Cowles.
At least one hurdle stands in the way of a timely completion. For now, the team led by the University of Washington can’t connect the instruments it has deployed to the backbone power-and-data cables leading to the shore. The NSF requires that the company that made the cables, L-3 MariPro of Goleta, California, ensure that they are in proper working order before handing them over, and L-3 MariPro is running behind. Delaney’s team had to shorten this summer’s field season and bank some of its ship days for 2014, intending to connect the instruments then.
And there are other, bigger worries. One is the daunting cost of maintenance. OOI sites are slated to be serviced every one, three or five years — depending on the equipment — which will run up a hefty ship-time bill. And unforeseen glitches are bound to strike. NEPTUNE Canada has run into major technical issues, including the failure of kilometres-long segments of cable and instruments that stopped working after just a year on the sea floor.
Ensuring data quality is also a concern. “That’s the big worry in my mind,” says Douglas Luther, an oceanographer at the University of Hawaii at Manoa and an OOI project scientist. The OOI’s cyberinfrastructure team is developing automated algorithms to flag up any obvious problems — such as sensors that record temperatures hundreds of degrees above those of neighbouring devices — but there is currently no money to fund a big quality-control team.
Another question is how much demand there will be for the data. Not everyone will be able to abandon field trips in favour of using the OOI’s instruments. Microbial oceanographer Julie Huber of the Marine Biological Laboratory in Woods Hole studies microbes living on and in Axial volcano. The OOI’s cabled network isn’t much use to her — so far there is no instrument she could plug in for her microbial monitoring. “It doesn’t replace me having to go out there,” she says.
The OOI’s leaders could follow the example of their northern colleagues. Canada’s undersea cabled networks, which cost Can$16 million annually to run, have nearly 8,000 active data users per year, which is right around the level their funders wanted to see. In large part, that is because Ocean Networks Canada employs six staff scientists to reach out to researchers and educators with suggested ways to use the data. “Users just don’t come — you have to work at it,” says Moran. So far, the OOI has no formal outreach plan.
There are also fears that NSF programme managers will feel under pressure to fund projects that use OOI data, in order to validate its cost. “Mostly, we’ll be paying a lot of money trying to make this hardware a success,” says Russ Davis, an oceanographer retired from Scripps who helped to develop key floats for the Argo array. “If it isn’t awfully wonderful, it’s going to look bad for the NSF and be bad for science.”
For Delaney, the OOI’s potential outweighs such concerns. As the Thompson makes its way across the Pacific, leaving the underwater volcano behind, he muses about the interconnectedness of the oceans. “A single ship can only be in one place at one time,” he says. “We need to be present in multiple places in multiple times.”
That omnipresent capability is what the OOI is all about. And if it costs a lot of money, Delaney wants the research community to keep the sums involved in perspective: NASA, for comparison, spends billions each year. “Our investment in the ocean is way below our investment in outer space,” he says. “But the return is
