Tag Archives: climate desk

Jeb Bush on Climate Change: "I’m a Skeptic"

by KatlynWutkgs Posted on December 16, 2014

Mother Jones

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Today, Jeb Bush, the former Republican Governor of Florida, announced that he would “actively explore” running for president in 2016. If elected, he’d have control over much of the US response to global warming. So how would Bush address the global climate crisis? With a mixture of skepticism, avoidance, and downright denial of the science—if his track record is anything to go by. Above is a quick sample of his views climate change.

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Jeb Bush on Climate Change: "I’m a Skeptic"

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If We Can’t Stop This Tiny Alaskan Town From Falling Into the Sea, What Hope Is There for the Rest of Us?

by coolmathgamesn Posted on December 15, 2014

Mother Jones

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This story originally appeared in the Huffington Post and is republished here as part of the Climate Desk collaboration.

It’s a Wednesday morning in late August, the first day of classes at the Shishmaref School. The doors of the pale blue building haven’t opened yet, and the new principal is hurriedly buttering toast in the kitchen for the students’ breakfasts. Teachers are scrambling to make last-minute adjustments to their classrooms, while anxious kids, ranging from pre-K students through high schoolers, wait on the porch, their jackets zipped against the chill of the early-morning air. It’s all so incredibly normal, you might not know that, just a few years ago, no one thought Shishmaref would be here anymore.

The remote village of 563 people is located 30 miles south of the Arctic Circle, flanked by the Chukchi Sea to the north and an inlet to the south, and it sits atop rapidly melting permafrost. In the last decades, the island’s shores have been eroding into the sea, falling off in giant chunks whenever a big storm hits.

The residents of Shishmaref, most of whom are Alaska Native Inupiaq people, have tried to counter these problems, moving houses away from the cliffs and constructing barriers along the northern shore to try to turn back the waves. But in July 2002, looking at the long-term reality facing the island, they voted to pack up and move the town elsewhere.

Relocation has proven much more difficult than that single vote, however. And 12 years later, Shishmaref is still here, ready to begin another school year.

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If We Can’t Stop This Tiny Alaskan Town From Falling Into the Sea, What Hope Is There for the Rest of Us?

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A Tiny Island. Millions of Crabs. Terrifyingly Awesome Photos.

by EulahWhitfeld Posted on December 12, 2014

Mother Jones

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An Australian wildlife official inspects migrating red crabs on Christmas Island, in 2013. Xu Yanyan/Xinhua/ZUMA

This month, an eerily precise annual migration began in earnest on a tiny Australian island about 500 miles off the coast of Indonesia.

Every year, millions of adult red crabs—first the males, then the females— scamper out from Christmas Island’s central forests, across the island, and finally to beaches that meet the Indian Ocean. Their goal is to stage one giant crab sex party: to mate and spawn.

The local government has constructed underground crab-ways to accommodate the migration. Parks Australia

According to Christmas Island National Park authorities, “the females will spend two weeks brooding their eggs before making their way to the cliffs and beaches to spawn. This should occur about the 18th-19th of December. Before sunrise on these mornings the females will release their eggs into the ocean—timed perfectly for the receding tide.”

Amazing.

Ian Usher/Wikimedia Commons

Watch them below making their slow, deliberate, hard-wired journey:

So. Many. Crabs. Max Orchard/Parks Australia

Parks Australia says that there are tens of millions of crabs—20 species in total—that live on the island. Their migration occurs between October and December and is triggered by rains characteristic of the island’s tropical wet season.

The local government closes roads for the invasion to prevent the little guys from getting squashed by cars. Xu Yanyan/Xinhua/ZUMA

Max Orchard/Parks Australia

Ruling the island! Crab Power! Xu Yanyan/Xinhua/ZUMA

Wildlife rangers have installed up to 7.5 miles of crab fences along the roads, according to Parks Australia—and every year they add up to three miles of additional temporary fencing—to help protect the crabs and their mating rituals. There are already 34 “crab crossings,” which are basically culverts under the roads so the crabs can avoid the cars. Here’s a video explaining just how elaborate the preparations have become:

Behind the scenes of the red crab migration – Christmas Island 2012 from Parks Australia on Vimeo.

But this spectacular beach invasion may be threatened by global warming. Research conducted by Princeton University found that increasingly unpredictable rainfall—potentially a symptom of climate change—could harm the red crustaceans’ chances of a successful journey, and therefore imperil their survival.

The study, published in Global Change Biology, found that if fluctuations in rainfall become more extreme and frequent, the crabs might get scrambled and not even start their migration, which is what happened during an exceptionally dry 1997 season. “We found that the start date of the migration was really dependent on the rainfall they received in the weeks before the migration,” said Allison Shaw, an author of the study, and now an assistant professor at the University of Minnesota. “The issue for the crabs is that they have to migrate if they want to produce. If they can’t make it to the water, they won’t produce offspring.” Disturbances in the migration patterns were linked in particular to strong El Niño years, which tend to make Christmas Island dry, Shaw says.

There’s still a lot of science yet to be done to clear up the connection between El Niño and climate change, but trends are emerging. “The 20th century is significantly, statistically stronger in its El Niño Southern Oscillation activity than this long, baseline average,” Kim Cobb, Associate Professor of Climate Change at the Georgia Institute of Technology, told me last year. That is, El Niño events have gotten worse.

If that’s the case, Christmas Island, home to the crabs, will experience more intense, and therefore drier periods, says Shaw. A lack of rain can delay or entirely cancel the crimson tide of crabs, and the resulting swarms of crab offspring, seen below.

Finally, waves of baby crabs appear. Parks Australia

Parks Australia

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A Tiny Island. Millions of Crabs. Terrifyingly Awesome Photos.

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Here’s How Much the Storm Is Helping California’s Epic Drought

by ntgjujljb Posted on December 11, 2014

Mother Jones

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In the midst of the most intense drought in hundreds of years, Northern California is being bombarded with rain (here are some crazy photos). In a state that produces roughly half of the country’s fruits and veggies, the water is more than welcome. The storm is expected to dump 2-8 inches of water in the Bay Area, and 2-5 inches in Southern California. But California would need 18-21 more inches of rain over the next six months in order to make up for the drought, according to the National Oceanic and Atmospheric Administration. The state usually gets about 23 inches of rain per year.

Check out the similarity between a drought intensity chart from two weeks ago, when California was still pretty dry, and two days ago, after several days of rain.

Compared with the levels two weeks ago, there’s been a small but noticeable increase in the state’s reservoir water; California’s two largest reservoirs, Shasta Lake and Lake Oroville, have both seen a three percent rise. The image below, updated on December 10th, compares how much California’s reservoirs can hold (in yellow) with how much they’re currently holding (in blue).

California Department of Water Resources

Some experts are worried that the rain will make people forget about the fact that California’s still in a drought. “Thursday it’ll rain, and people will say, ‘Oh, I’m very excited,’ and Saturday it’ll rain, and ‘Oh, drought’s over.’ Not even close,” Jeffrey Mount, a senior fellow with Public Policy Institute of California focused on water, told KQED. “This has been three consecutive years of extreme dryness, and that extreme dryness translates to much lower groundwater levels, and very dry soils. It’s going to take a lot of rain to break this drought.”

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Here’s How Much the Storm Is Helping California’s Epic Drought

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New Study: California’s Epic Drought Probably Wasn’t Caused by Climate Change

by StefanieEhrhart Posted on December 8, 2014

Mother Jones

California is in the middle of a really bad three-year drought that stretches across nearly the entire state. The drought has already wreaked havoc with the state’s agricultural sector, is expected to take a $2.2 billion bite out of the state’s economy this year alone, and shows no sign of relenting anytime soon.

For a sobering, detailed look at the current state of affairs, take a look at the US Geological Survey’s just-released data visualization tool. The most shocking thing, to me, is the year-by-year playback of reservoir levels, many of which have now dipped to less than a quarter of their capacity (screenshot below):

USGS

Climate scientists have warned for years that rising greenhouse gas concentrations will lead to more frequent and severe droughts in many parts of the world. Although it’s generally very difficult to attribute any one weather event to the broader global warming trend, over the last couple of years a body of research has emerged to assess the link between man-made climate change and the current California drought. There are signs that rising temperatures (so far, 2014 is the hottest year on record both for California and globally) and long-term declines in soil moisture, both linked to greenhouse gas emissions, may have made the impact of the drought worse.

But according to new research by the National Oceanic and Atmospheric Administration, California’s drought was primarily produced by a lack of precipitation driven by natural atmospheric cycles that are unrelated to man-made climate change. In other words, climate change may have worsened the impacts of the drought, but it isn’t the underlying cause.

“The preponderance of evidence is that the events of the last three winters when California gets the majority of its precipitation were the product of natural variability,” said lead author Richard Seager, a Columbia University oceanographer.

Over the last three years, Seager said, unpredictable atmospheric circulation patterns, combined with La Niña, formed high-pressure systems in winter over the West Coast, blocking storms from the Pacific that would have brought rain to California. The result has been the second-lowest three-year winter precipitation total since record-keeping began in 1895. But that pattern doesn’t match what models predict as an outcome of climate change, said Seager. In fact, the study’s models indicate that as global warming proceeds, winter precipitation in California is actually predicted to increase, thanks to an increased likelihood of low-pressure systems that allow winter storms to pass from the ocean to the mainland.

Unusually high sea-surface temperatures in parts of the Pacific over the last two years also played a minor role in producing the observed high-pressure systems, the report found. But those anomalies were scattered, which is inconsistent with the uniform, general ocean surface warming expected as an impact of climate change.

As a result, the confluence of atmospheric and ocean conditions that have recently blocked rain in California look like an exception to, rather than representative of, the expected climate change trend, Seager said.

All this doesn’t mean you should dismiss the risk of future droughts: Seager stressed that additional research is needed to determine whether increased temperatures on land—leading to increased evaporation and demand on water supplies—could offset future gains in California’s winter rainfall.

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New Study: California’s Epic Drought Probably Wasn’t Caused by Climate Change

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Climate Negotiators Are Working on History’s Most Important Mad Lib

by KeithMercer Posted on December 1, 2014

Mother Jones

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The latest round of United Nations climate negotiations kicked off today in Lima, Peru. For the next two weeks, delegates from 195 countries will hash out the framework for what they hope will become a major international agreement to reduce greenhouse gas emissions when negotiators reconvene in Paris next year. The Lima meeting will also be a chance to hear how far some major carbon-polluters—Brazil, India, Mexico, and more—are willing to go to slow global warming.

The goal of the Lima talks is to set a standard for how countries will formally submit their proposed emissions pledges in preparation for next year’s big summit. You can think of it like a climate action Mad Lib, where the story outline is now being drafted in Lima, and each country will fill in its blanks (but with emissions goals instead of nouns and verbs) before Paris. One of the big debates prior to Paris will be whether developed and developing countries will be required to meet the same criteria for setting those goals, and whether the goals will be legally binding.

This month’s talks will also be the first key test of President Obama’s climate pact with China, which was announced last month. The deal was important for a few key reasons. It set new carbon reductions goals: The US will reduce carbon emissions 26-28 percent below 2005 levels by 2025, while China promised to peak its emissions by 2030. It includes a plan to jump-start clean energy trade between the two countries. But perhaps most importantly, it could be a powerful incentive for other countries to create their own ambitious targets.

“The mood music will change,” said Michael Jacobs, a former environmental advisor to British Prime Minister Gordon Brown. Jacobs, who is in Lima this week with a climate economics think tank run by former Mexican President Felipe Calderon, added, “I think we will see…that if the US and China are both committed, then other countries will not want to look like they aren’t coming to the table.”

That’s a big deal, because widespread political participation is a prerequisite for the kind of global accord UN officials are hoping for in Paris. And it’s a big shift from past climate summits, like the 2009 one in Copenhagen, which have fallen apart thanks to a lack of cooperation from the US and China. Those two countries, the world’s top carbon emitters, have traditionally dragged their feet when it comes to global warming. Neither one of them ratified the last international climate treaty, the Kyoto Protocol of 1997.

But climate hawks are optimistic that the US-China accord has already advanced the future Paris negotiations into uncharted waters. As the Harvard economist Robert Stavins pointed out, the Kyoto Protocol covered only about 14 percent of global carbon emissions. But the Paris agreement will be structured differently. Instead of a single unified treaty that every country is expected to sign on to (an approach seen as a political dead end), the Paris agreement will be built around a patchwork of “nationally-determined contributions.” The US-China pact essentially serves as both countries’ commitment, and combined with the European Union commitment announced in October, already more than 50 percent of global carbon emissions are covered.

Negotiators in Lima are also designing a system for the international community to review countries’ proposed contributions to ensure that their proposed carbon cuts are sufficiently aggressive and that their calculations make sense. This would be the first time a peer review process is used in international climate talks, said Jennifer Morgan, a senior analyst at the World Resources Institute. Pushing for a strong review framework is a top priority of the US delegation, she said, speaking this morning from Lima.

Countries have until the spring to announce their emissions reduction pledges, so it’s not yet clear if there will be more announcements from Lima. Many eyes are on India, the world’s third-biggest carbon polluter, whose emissions are projected by WRI to climb 70 percent above 2000 levels by 2025. Without cooperation from India, a global accord would be much weaker; Narendra Modi, the country’s new prime minister, has so far been lukewarm on climate action.

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Climate Negotiators Are Working on History’s Most Important Mad Lib

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Will Obama Pull the Plug on Wind Energy?

by FrederiFad Posted on November 26, 2014

Mother Jones

Yesterday President Obama threatened to veto a $440 billion package of tax breaks negotiated by a bipartisan group of legislators led by Senate Majority Leader Harry Reid (D-Nev.). The bill, a White House spokesperson said, disproportionately benefits businesses over families. The bill excludes a child tax credit for the working poor that had been a top goal for Obama, but makes permanent a group of tax incentives for big businesses that had been provisional.

But if Obama does kill the deal, he’ll also create a casualty that seems odd for a president who in recent weeks has made climate change a central issue: The tax credit for wind energy, which Reid’s bill would resuscitate for a few years before phasing out in 2017.

The Production Tax Credit (PTC) provides wind energy developers a tax break of 2.3 cents per kilowatt hour of energy their turbines produce for the first ten years of operation, which industry supporters say is a important lifeline to help wind compete against heavily-subsidized fossil fuel power sources. For over a decade, wind power has been locked in a boom-and-bust cycle as the PTC expires and then is re-upped by Congress: Every time the credit stalls or looks like it might disappear, contracts dry up, manufacturers shut down production, and jobs get cut. The same could happen again soon: The PTC expired again last year, and so the fate of Reid’s tax bill will be the fate of a cornerstone of America’s clean energy economy.

Any project that broke ground before the PTC expiration last year still got to keep the credit, so the wind industry is still on an up cycle. So far this year, wind accounts for 22 percent of new energy capacity, second only to natural gas, according to federal data. And with or without subsidies, wind is now one of the cheapest electricity sources out there. Those are critical pieces of the puzzle if the US is to meet President Obama’s new goal to reduce the nation’s carbon footprint 26-28 percent by 2025.

But wind’s halcyon days won’t last unless the PTC is extended soon, said Daniel Shury, a market analyst with Bloomberg New Energy Finance.

“The momentum will peak next year, and then we’ll start to feel the effects,” Shury said. “Without the PTC extension, the main US manufacturers are going to start running out of orders by 2016.”

The Reid bill throws a bone to conservative lawmakers and advocacy groups who have called the PTC a handout for an industry that should be able to support itself by now: gradually phasing out the credit by 2017. The American Wind Energy Association, a trade group, has supported such a plan, saying it would give manufacturers, developers, and other wind investors a degree of certainty about future market conditions that they don’t currently have. Shurey agrees: The actual amount of the credit is far less important, he said, than a clear, consistent signal to frame contracts and investments around.

Whatever tax deal Congress ultimately passes will probably include the PTC, says Jim Marston, vice president of US energy policy at the Environmental Defense Fund. Some of the credit’s biggest proponents are powerful Republicans from windy states, such as Senator Chuck Grassley of Iowa, who said on the Senate floor last week that gutting the PTC “would cost jobs, harm our economy, the environment and our national security.” But a veto could mean a long delay—and more of the uncertainty that the wind industry fears.

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Will Obama Pull the Plug on Wind Energy?

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We Fact Checked Aaron Sorkin’s Climate Science on “The Newsroom”

by DesmondPLZO Posted on November 26, 2014

Mother Jones

I watch too much TV drama, so I can say this with a degree of certainty: It’s rare that climate change comes up. (Television news programs also contain “tepid” coverage, in general, according to watchdog group Media Matters). That’s why it was so weird/exciting for this climate reporter when global warming received its very own subplot on Aaron Sorkin’s HBO drama The Newsroom over the last two episodes.

First, a little context: Maggie Jordan (Alison Pill) is the show’s once daffy news producer whose role this season seems exclusively designed to reverse earlier charges of sexism against Sorkin. She’s now good at her job! During a convoluted scene on a train from Boston to New York, Maggie overhears and records a top EPA official talking shit on the phone about President Obama to another journalist, off-the-record. Even though that agreement of confidentiality doesn’t extend to the other Amtrak passengers, she eventually tells the official she won’t use his juicy Obama-dissing quotes. So impressed by her ethics, the official, Richard Westbrook (Paul Lieberstein), rewards her with a scoop: an embargoed EPA report. WHOA! WHAT A SCOOOOOP! (For the uninitiated, while a heads-up about a study is great to get a jump on your competition, reports are circulated and embargoed all the time). Anyway… Maggie also gets an exclusive interview with the official, the deputy assistant administrator of the EPA (WHAT A GET!) and in the most recent episode, she produces a segment for host Will McAvoy (Jeff Daniels) about the report’s dire warnings.

The scene is odd for a number of reasons. The Newsroom packages its drama based on last year’s events, and at that time, the news that the world was approaching 400 parts per million of carbon dioxide in the atmosphere had been publicly anticipated for weeks. So, not a scoop in any way, or anything that anyone following the science didn’t already know.

But putting that aside, let’s take a look at Sorkin’s “facts”, as presented in the episode. How do they measure up? Let’s go line-by-line through the scene above.

In the weird parallel universe of The Newsroom, I’m not sure when these “latest measurements” were meant to have been taken. But he’s right. We covered this at the time: The world passed that 400 ppm threshold for the first meaningful way in May 2013, when the daily mean concentration of carbon dioxide was higher than at any time in human history, according to the National Oceanic and Atmospheric Administration (NOAA). The measurements are indeed taken at the Mauna Loa Observatory in Hawaii; you can follow what’s known as the “Keeling Curve”—a measurement of atmospheric concentration of CO2—on Twitter, naturally, thanks to the Scripps Institution of Oceanography.

Depends what you’re defining as catastrophic failure, I suppose. Say you were born last year, when I assume this episode was meant to be set. If we follow along current emissions trends, the planet will be 3.96°F-8.64°F (2.2°C–4.8°C) hotter than preindustrial times by your retirement. (You can type your birth year into this cool interactive, driven by data from the Intergovernmental Panel on Climate Change, to check how hot it will be when you’re old). That’s above temperatures recommended to be in the supposedly “safe” zone by the IPCC, and could definitely result in a variety of “catastrophes” and “failures”. As deaths increase due to things like extreme weather, droughts and wildfires, this statement seems true enough when applied to individual episodes of calamity, which will surely increase. (The number of annual deaths in the UK due to heat, for example, is predicted to rise by 257 per cent by 2050.) The EPA official is right, in one sense. But it’s also arguable that deaths are already and will continue to be linked to climate change events. The line in the script infers the failure of the planet as a whole, which I think is artful flourish to illustrate just how glum this fellow is feeling.

Yup. That’s what the science says. The last time the atmosphere clocked 400 ppm it was 3 million years ago—the “Mid-Pliocene”—when sea levels were as much as 80 feet higher than today (see this 2007 research paper authored by a group led by NASA Goddard Institute for Space Studies and Columbia University.) I’d probably add an “around” or “about” before the “80 feet higher” in the above statement; the studies leave a margin of error. But this statement checks out.

His point is sound, but I’d like to see the writers’ sourcing—these numbers seem to date to around the late 1990s. According to a more recent 2011 NOAA report, 55 percent of the world’s population lives within 50 miles of the coast. The UN has a slightly different number: Over 40 percent of the world’s population, or 3.1 billion, lives within 60 miles of the “ocean or sea in about 150 coastal and island nations.” In the US, 39 percent of the nation’s population lived in counties directly on the shoreline in 2010.

That seems right.

There’s consensus amongst 97 percent of climate scientists that global warming is happening and that’s it’s a manmade disaster. And I’ve heard climate scientists use this analogy before. (For what it’s worth, there are other things that can influence the boiling point of water, including altitude.)

He’s talking about the “carbon budget”, and again this is sound, despite Newsman Will’s growing anguish at a pretty devastating interview. The 565 gigaton number was popularized by Bill McKibben in a 2012 Rolling Stone article that Newsroom writers seem to have read. The number is “derived from one of the most sophisticated computer-simulation models that have been built by climate scientists around the world over the past few decades” (done by financial analysis firm Carbon Tracker) and is what we can add into the atmosphere by mid-century and still have a reasonable chance of success of staying below that safe two degrees warming threshold. Our grumpy scientist is so despondent because, yes, 2,795 is the number of gigatons of carbon already contained in the proven coal and oil and gas reserves in the hands of fossil-fuel companies and petrostates. In short, it’s the fossil fuel we’re currently planning to burn, writes McKibben. Carbon Tracker says 80 percent of these assets need to remain unburned.

All of these things are predicted by the IPCC—I mean, not the permanent darkness thing, I don’t think that’s meant to be scientific. But yes, as we reported in May this year, Europe faces freshwater shortages; Asia can expect more severe flooding from extreme storms; North America will see increased heat waves and wildfires, which can cause death and damage to ecosystems and property. Especially in poor countries, diminished crop yields will likely lead to increased malnutrition, which already affects nearly 900 million people worldwide.

So, in all, well done Newsroom. Informative, accurate, if a little heavy-handed on the doom and gloom.

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We Fact Checked Aaron Sorkin’s Climate Science on “The Newsroom”

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These Simple Charts Show Why the US-China Climate Pact Is Such a Big Deal

by Wolfgan1866 Posted on November 20, 2014

Mother Jones

This story originally appeared in Slate and is republished here as part of the Climate Desk collaboration.

The big climate news of last week, indeed maybe of the past several years, was the surprise announcement of a bilateral US-China agreement setting targets for CO2 emissions out to the year 2030. Is this really such a big deal, or are climate protection advocates just grasping for any good news to offset the grim implications of a Republican takeover of the US Senate? The answer is: Yes, it is a very big deal, at least if both parties fulfill their commitments. Today, I will be an optimist and assume that somehow they pull it off.

There are no obvious technical barriers but considerable political ones. Some parties are already rumbling that the United States is giving away the store for nothing much in return. We’ll see, however, that if anything it is China that is getting the short end of the stick—and a good thing, too, because the climate cares about CO2, not fairness, and if we are to have any hope of keeping warming from much exceeding 2 degrees Celsius, China will need to do more than its fair share.

Is it really such a big deal?
The United States, European Union, and China together produce more than half of the world’s annual CO2 emissions, and with the new agreement, all three have made a public undertaking limiting future emissions. (Europe has been doing its part for decades, having made its first binding commitments at the time of the Kyoto Protocol.) That by itself makes the deal a big deal, but we need to look at the nature of the commitment to see whether it is big enough to significantly improve our chances of keeping global warming below 2 C, which has been adopted as a general guideline for avoiding extremely dangerous climate change. This guideline does not mean that climate change is harmless below 2 C, or that it suddenly becomes so catastrophic above 2 C that further efforts at limiting warming are pointless, but like a highway speed limit, it serves as a useful benchmark for where you start to worry about things being really bad. By what yardstick should the “bigness” of the deal be measured? This brings us to the concept of carbon budgets.

The excess CO2 we put into the atmosphere by burning fossil fuels such as coal, oil, or natural gas is removed very slowly by ocean uptake and other geological processes. As a result, a significant portion of the CO2 we emit each year will still be in the atmosphere 10,000 years from now. As long as human activities are transferring long-buried carbon into the atmosphere in the form of CO2, the atmospheric CO2 levels will continue to rise, and they will drive ever-greater warming. CO2 accumulates in the atmosphere like mercury accumulates in the fat of a fish swimming in polluted waters. The impact of fossil-fuel burning (and deforestation) on climate depends not just on the current year’s emission but on the cumulative emissions of CO2 over all past times. The cumulative CO2 emissions are typically quoted in terms of the amount of carbon in the CO2 (which contains 27 percent carbon by weight), measured in gigatons, or billions of metric tons. (A metric ton is 1,000 kilograms, or just a bit more than an English ton.) In thinking about the human imprint on future climate, the cumulative carbon is the only number you really need to pay attention to.

It turns out that 1,000 gigatons of carbon—1 trillion tons—is roughly what it takes to warm the globe by 2 C. If we release that much carbon into the atmosphere in the form of CO2, the warming will stick around for at least 1,000 years before the globe begins to recover, even if we go cold-turkey on fossil fuels when we release our first trillion. Since the beginning of the industrial revolution, we have gotten about halfway there. It took several hundred years to emit our first half-trillion tons, but worldwide CO2 emissions are growing exponentially at a compound rate of about 2.8 percent per year (since 1950) and so it will only take another 25 years at the current rate of growth to hit a trillion tons, at which point it’s game over for the 2-degree target (though of course not too late to try to keep warming under 3 degrees). We need to eventually get CO2 emissions down to zero, but in the meantime it’s the exponential growth that’s our main enemy, since that boxes us in and leaves little time for decarbonizing the economy. The first order of business is to get off the exponential curve, otherwise we are doomed to be on the Impossible Hamster track.

It is against this goal that the US-China agreement should be measured. US emissions have not grown since 2005, and indeed have declined moderately despite aggregate gross domestic product growth of more than 14 percent since that time. Part of that decline has been due to substitution of natural gas for coal, and we can continue to play that game for a while longer, but to sustain the decline over a longer time will ultimately require additional measures. Obama’s agreement with China commits the United States to reducing its CO2 emissions to between 26 percent and 28 percent below the 2005 levels by 2025. The EU has committed to a 40 percent reduction below 1990 levels by 2030 and has already gotten halfway there. Accelerating the reduction of both EU and US emissions helps to offset exponential growth elsewhere in the world, and we’ll soon see how that adds up. But what about China?

China is currently the black swan on the horizon when it comes to fighting exponential growth. Based on data since 1940, China’s emissions have been growing at a compounded annual rate of more than 7 percent, and at that rate it will not be many more decades before Chinese exponential growth would dominate world emissions, at a time when we need to be reducing the world exponential growth rate below its currently alarming 2.8 percent value. Under the US-China bilateral agreement, the Chinese emission target is phrased very differently from the US target, but with regard to slaying the exponential dragon, it is probably the most important part of the deal. The Chinese commitment is not a commitment to any specific value of emissions but rather a commitment that the country’s emissions will peak by 2030, and thereafter will not increase. The deal does not specify whether and by how much emissions will decrease after 2030, but the significance is that China is committed to get off its exponential emissions track by 2030.

Translating this commitment into quantitative implications for cumulative carbon involves a lot of guesswork as to how China will go about fulfilling its commitment, because the agreement does not spell out the value at which emissions will peak. A cynic would say that China could just increase its growth rate to, say, 10 percent and peak at an enormous value in 2030, giving itself plenty of wiggle room to hold emissions constant or decrease them thereafter. If this is really China’s intent, then the new agreement is largely meaningless. But let us suppose instead that China’s commitment was taken in good faith. A minimum good-faith fulfillment would be to continue growing at 7 percent up to 2030 and then hold emissions constant thereafter. This scenario is shown in the middle (black) curve of Figure 1. In terms of cumulative carbon, that would mean that China emits another roughly 70 gigatons out to 2030, and holding emissions constant thereafter, emits a further 86 gigatons between 2030 and 2060. Without the agreement, China’s emissions scenario would look like the upper (red) curve, and China would emit a further 790 gigatons in the latter period, which would be more than enough to bring the world over the trillion-ton limit regardless of what anybody else did. So yes, getting China off the exponential curve is a very, very big deal indeed.

Raymond T. Pierrehumbert

But the scenario where Chinese emissions growth continues unabated until 2030 may be pessimistic. If China is serious about peaking in 2030, it is unlikely that it would do nothing to reduce its growth rate and then put in a crash program in 2030 to bring growth to a halt all at once. More likely, the measures would be phased in gradually over the next 15 years, bringing the growth smoothly to zero by 2030. If the growth rate is brought to zero linearly over the next 15 years, the Chinese emission rate curve looks like the lower (blue) curve and would have lower cumulative emissions than the abrupt scenario even if there are no reductions in emission rate beyond 2030.

Now let’s add in the contribution of the United States and European Union to cumulative emissions under the stated commitments. The aggregate cumulative emissions for the US, EU, and China are shown in Figure 2, subject to the further (pessimistic) assumption that there are no further reductions in US and EU emissions past 2030. The projection from China is taken from Scenario 2 (a linear decrease in growth rate with emissions leveling off in 2030). From this graph we can see that if the commitments are all fulfilled, then cumulative carbon for the countries involved would be just about held to 250 gigatons even without further reductions in emission rates past 2030, leaving 250 gigatons of cumulative carbon that the rest of the world can emit. In this sense, the new US-China agreement brings the 2 C target within reach, though it will not by itself prevent the trillion-ton threshold from being breached.

Raymond T. Pierrehumbert

The figure also makes clear, however, that barring an unforeseen reversion of the US or EU to exponential emissions growth, the future fate of the climate is largely determined by what China does.

But is it fair?
Although Chinese cumulative emissions will dominate US and EU emissions going forward, this is not because China has used an unfair share of the Earth’s ability to act as a waste dump for CO2. Unless one thinks that a person in China has intrinsically less right to the net allowable carbon emissions than a person in the United States or European Union , the appropriate measure of fairness would have to be based on some kind of cumulative carbon emission per person. I have argued a number of fairness principles based on this idea in this article in the Chicago Journal of International Law. If one takes historical emissions into account, one could argue that an EU or US individual exceeded a fair allocation of carbon emissions long ago, whereas Chinese individuals have not yet come close to using up their fair share (because their high emissions rates began relatively recently and because China is supporting a larger population). However, even if one were to write off the carbon debt from the past and only allocate carbon from 2015 onward, under Obama’s bilateral agreement, China is committing to do something pretty close to its fair share. The future cumulative Chinese emissions of 200 gigatons work out to 146 metric tons per person (based on current population). The US allocation in Figure 2 works out to 125 tons per person, which is only slightly below the Chinese allocation. Making any significant allowance for past emissions would result in a judgment that China is doing far more than its fair share of the job of keeping cumulative emissions below a trillion tons.

Who’s Next?
While the European Union, United States, and China account for just over half of the world’s CO2emissions, there is still the other half of the world to worry about. The next three big emitters are India, Russia, and Japan, with a total of 14 percent of world emissions among them. Of these three, the only one exhibiting clear exponential growth is India, which is growing at about 5 percent per year and is also the highest current emitter of the three. In the next round of negotiations, it would be highly desirable for India to sign on to an agreement similar to China’s commitment under the US-China bilateral agreement, perhaps with Russia and Japan committing to emission reduction targets somewhere between the EU and US targets. One can hope that something like that might happen at the Conference of the Parties negotiations to be held in Paris in 2015. If the US-China deal is perceived to be real, it could well be just what is needed to break the logjam that stymied negotiations in Copenhagen last time around.

Original article:

These Simple Charts Show Why the US-China Climate Pact Is Such a Big Deal

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The US Will See 50 Percent More Lightning Strikes, Thanks to Global Warming

by heloltiki554 Posted on November 13, 2014

Mother Jones

By now we’re familiar with some of the scarier potential impacts of climate change: Floods, fires, stronger hurricanes, violent conflicts. Well, here’s a new one to add to your nightmares. Lightning strikes in the continental United States will increase roughly 12 percent for every degree Celsius of global warming, a study published today in Science finds. If warming continues unchecked, that could translate into a 50 percent increase in lightning by the end of the century—three strikes then for every two strikes now. (On average, there are currently about 25 million strikes per year.)

Does this mean an increase your odds of getting struck by lightning? Technically yes, I guess, but I wouldn’t worry about that. Instead, the increase matters because lightning strikes are the principle cause of wildfires, which are already predicted to become more severe due to global warming. In one 24-hour period in August, lightning in Northern California started 34 wildfires. The study doesn’t make any specific predictions about wildfire activity, but knowing about future lightning conditions is an important part of that equation.

Lightning is notoriously hard to account for in climate models, because the models can only represent large-scale atmospheric forces like wind speed, moisture, and temperature; they can’t show relatively small electric pulses, said Anthony Del Genio, an atmospheric scientist for NASA who was not involved with the study. So to get a sense of how lighting patterns will change in future climates, scientists have to rely on “proxies”—third-party forces they can model that have a known relationship to lightning. Early lightning studies in the 1990s, for example, made inferences based on how the heights of clouds—thought to be one contributor to lightning patterns—are expected to change with global warming, Del Genio said.

But lightning is a complex phenomenon that still isn’t fully understood by atmospheric scientists, so proxies have mostly proven to be imperfect for one reason or another. As a result, the Science study explains, previous estimates for how lightning will change with global warming range from an increase of 5 percent to and increase of more than 100 percent for each degree of temperature rise. Not very informative.

This study presents a new proxy for lightning—a proxy that author David Romps of the University of California-Berkeley thinks is much stronger than any of the previous ones. It’s actually a combination of two proxies: precipitation and “CAPE,” a standard measure of the kinetic energy clouds hold as they rise in the atmosphere. Lightning is the product of electrical charges caused by ice particles of different densities colliding in clouds, so Romps chose factors that would be necessary for lightning to occur: Enough precipitation to form ice, and enough upward energy to keep the ice suspended.

Taken together, those proxies accurately predicted 77 percent of actual lightning strikes observed in the US in 2011 by a national web of electromagnetic sensors. That result, Romps said, is a sign that these proxies are “doing a remarkably good job” of representing lightning patterns.

The video below shows the data Romps used to compare his hypothesis to observed lightning strikes, here represented as red dots. The original was over five minutes long—with one second for every day of the year—so we sped it up a bit.

The next step was to use data from 11 existing climate models to find out how precipitation and CAPE are predicted to change with global warming. Although Romps said the correlation between warming and CAPE is still being studied, all 11 models predicted it would increase by the end of the century. In other words, global warming will probably produce clouds that have stronger upward momentum. Combine that with predicted precipitation and, according to Romps, you get a sense of how much more lightning we can expect to see.

In this study, Romps’ dataset paints its predictions with a broad brush; the data isn’t detailed enough to know how lightning will change in specific parts of the country, or how the frequency will change in different seasons. But Del Genio says that the study advances our understanding of which weather forces contribute most to lightning. What’s more, he says, Romps’ work give us a strong indication of what lies ahead.

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The US Will See 50 Percent More Lightning Strikes, Thanks to Global Warming

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