How bad is climate change now?
The science is clear: The world is warming dangerously, humans are the cause of it, and a failure to act today will deeply affect the future of the Earth. This is a seven-day New York Times crash course on climate change, in which reporters from the Timess Climate desk address the big questions: Amid the horror and uncertainty of it can be easy to forget that another worldwide disaster is unfolding, although much more slowly. Global warming is happening, and its effects are being felt around the world. The only real debates are over how fast and how far the climate will change, and what society should do the global-warming equivalents of lockdowns and social distancing to slow or stop it and limit the damage. As of now, the damage seems to be getting worse. impacts that scientists predicted years ago including severe storms, heat waves and the melting of glaciers and ice sheets are accelerating. The coronavirus pandemic can seem overwhelming because of its sheer scope; so can climate change. As a science writer at The Times for more than 20 years, Ive learned that, to avoid being overwhelmed, it helps to start by understanding one part of the larger problem. So lets take a closer look at one piece: whats happening at the top of the world, the Arctic. Its a good place to understand the science of climate change, and, it turns out, a critically important one to understand its effects. Since the mid-1990s, the Arctic has been warming faster than any other region of the planet: currently, at least two and a half times as fast. (Last year, average air temperatures were about 3.5 degrees Fahrenheit, or 1.9 degrees Celsius, higher than the average from 1981-2010.) In large part, the Arctic is warming the way the rest of the world warms, only up north the process has run amok. As the concentration of carbon dioxide and other greenhouse gases increase in the atmosphere, so does the amount of heat they trap. But the source of that heat is sunlight striking the Earth, and the amount of heat radiated differs depending on the surface the sunlight hits. Just as a black car gets much hotter than a white car on a sunny day, darker parts of the planet absorb more sunlight, and in turn radiate more heat, than lighter parts. The Central Arctic is all ocean dark water that is covered, to a varying extent, by light ice. The ice absorbs only about 30 to 40 percent of the sunlight hitting it; the rest is reflected. Ocean, on the other hand, absorbs more than 90 percent. As the Arctic warms more of the ice disappears, leaving more dark ocean to absorb more sunlight and radiate even more heat, causing even more loss of ice. Its a vicious cycle that contributes to rapid warming in the region. Is this happening at the South Pole as well? No, because while the Arctic is mostly water surrounded by land, Antarctica is the opposite, a huge land mass surrounded by ocean. Some of the ice that covers the continent is melting, but no dark ocean is being exposed. (Thats not to say that the continent isnt losing ice: it is, mostly through and melting of the undersides of ice shelves.) In the Arctic, currents and winds flow out of the region and affect weather elsewhere. Weakening of the high-altitude winds known as the polar jet stream can bring extra-frigid winter weather to North America and Europe. Cold snaps like these have occurred for a long time although, because of global warming, studies have found that they are not as cold as they used to be. But some scientists now say they think Arctic warming is causing the jet stream to wobble in ways that lead to more extreme weather year round, by creating zones of high-pressure air that can cause weather systems the ones that bring extreme heat, for example to stall. Arctic warming may also be affecting climate over the longer term. As Greenlands ice sheet melts, the fresh water it releases lowers the saltiness of the nearby ocean. These salinity changes may eventually have an effect on some of the large ocean currents that help determine long-term climate trends in parts of the world. As climate researchers are fond of saying, what happens in the Arctic doesnt stay in the Arctic. When it comes to climate, theres a lot that we know. , and it closed out the hottest recorded decade. , too, hitting a high in 2019 as well, and than previously estimated. The changes over just the last few decades are stark, making plain that the planets climate is warming and that its human activity behind the temperature rise. But scientists can also look back even further to figure out temperatures on Earth before any humans were alive. Understanding how scientists figure out whats going on with the climate is an interesting part of being a climate reporter. My favorite piece of equipment is arguably a bathythermograph, essentially an open water thermometer, simply because its a fun word to say. Instruments like it, together with the GPS-connected devices in the global Argo floats network, are how researchers monitor ocean temperatures. For annual temperature reports, scientists rely on a historical temperature record . This is how we know, for example, that 2019 was hotter than 1942. But the temperature record only stretches back to the 1800s for much of the world, and has some gaps. To cover them, and to look back even further, researchers rely on proxy, or indirect, measures. In much the same way that data on the daily consumption of chicken wings can help us , things like ice core samples, tree rings, corals, pollen and cave deposits can help us understand how the climate behaved in the past, said Jacquelyn Gill, a paleoecologist and associate professor at the University of Maine. I like to think of it as environmental forensics, Dr. Gill said. Rather than directly observe the past, we use some of the same tools that forensic scientists use to reconstruct the environment through time. For example, some tree species can live for thousands of years. When cut into, their rings, which resemble a bulls-eye on a tree stump, can clue researchers into not only past temperatures but also moisture levels from year to year. Were not just guessing about how trees record climate in their rings because we have a century or more of actual measurements that we can then compare to tree rings, Dr. Gill said. In northern regions like the Arctic, researchers rely on another life form: tiny non-biting midges that spend years living in lakes as larvae before turning into winged insects. As they grow they shed parts of their exoskeletons, which are well preserved in lake sediments. If sediment samples transition from layers that contain species that prefer cooler temperatures into layers with species that prefer warmer ones, its a signal that temperatures increased. Using multiple records means scientists can validate their findings, Dr. Gill said. With tree rings, lake sediments and ice cores from the same region, you can look across those different proxies and see where you have good agreement and where you dont. But to measure the levels of human caused climate emissions, researchers have other tools. Since 1958, an observatory near the top of the Mauna Loa volcano in Hawaii has been recording the amount of carbon dioxide in the air and, more recently, observatories in Alaska, Samoa and the South Pole have also been recording measurements. Data is also collected from eight tall towers located across the United States, small aircraft, and volunteers at some 50 locations worldwide. Because carbon dioxide that comes from burning oil and coal is slightly different than the carbon that comes from living animals and plants, researchers know burning fossil fuels is behind the increase. If youre noticing a lot of redundancy in how researchers make sense of the climate, thats the point. They arent using a single piece of data, but lots of pieces to stitch together a comprehensive picture that points in a single direction: the climate is warming and humans are causing it. When an administration, Republican or Democratic, proposes a change to a federal rule, it can look like a cut-and-dried affair. But behind the scenes, rule-making involves extensive lobbying. My job as a journalist looking at the intersection of climate and industry has been to follow the money trail to figure out whos asking for what, and whos getting what they want. That often involves scrutinizing the powerful fossil fuels industry, which for years has lobbied against policies to tackle global warming, and funded efforts to obscure the well-established science that global warming is caused primarily by greenhouse gases generated by burning fossil fuels and other human activities. These efforts are often obscured from public view, but their influence becomes clear in regulatory and lobbying records and by piecing together information from insiders and other sources willing to talk to us. The industry has gotten results. Since taking office, President Trump has begun , signed five years ago by almost 200 countries to help reduce global emissions. At the urging of coal companies like Peabody Energy, the president , designed to rein in emissions from coal-fired power plants. (That hasnt halted the decline of the coal industry, now on even more precarious footing as the Covid-19 outbreak .) A powerful oil and gas group also backed weaker oversight for emissions of methane, an invisible, particularly potent greenhouse gas; my video colleague Jonah Kessel and I . Led by Marathon Petroleum, the countrys largest refiner, a separate group representing fuel and petrochemical manufacturers , the biggest climate initiative ever adopted by the United States. The rollback has gone so far that it has alarmed even some of the carmakers the measure was supposed to help. According to the nonpartisan , the oil and gas industry spent more than $125 million in lobbying at the federal level in 2019 alone. The coal mining industry spent close to an additional $7 million on lobbying. And together, fossil fuel companies have already made at least $50 million in political contributions this year, the vast majority to Republican politicians. In recent years, , oil and gas companies have made commitments to help combat climate change. As world leaders gathered at the United Nations climate summit last fall to discuss the urgency of slashing carbon emissions, for example, 13 of the worlds biggest fossil fuel companies , from supporting a carbon tax, promising to cut down on methane leaks and investing in technology to scrub carbon dioxide from the air. But there are concerns those efforts could fall by the wayside, as the oil and gas industry, reeling from the global pandemic, reins in spending. As the coronavirus has spread, industry groups have lobbied, successfully, for drastic rollbacks of environmental rules governing power plants and other industrial facilities. for violations of certain air, water and hazardous waste reporting requirements. As the historians and Erik Conway argue in their seminal book, Merchants of Doubt, the methods used by industry to deny the harms of fossil fuel use were in many cases the same as those used by the tobacco industry to deny the harms of cigarettes. At least in the United States, the tobacco industry is in a long decline. It remains to be seen whether the fossil fuel industry will tread a similar path. To stop global warming, well need to zero out greenhouse gas emissions from billions of different sources worldwide: every coal plant in China, every steel mill in Europe, every car and truck on American highways. Its such an enormous task that it can be tough to figure out where to begin. As a reporter covering climate policy, Ive spoken to hundreds of experts and read through about how countries can slash their emissions. Theres often fierce debate over the best path forward. But Ive found it helpful to think about all the different proposals out there as essentially boiling down to four broad steps. Consider this a rough game plan for how the world might solve climate change. Today, of humanitys emissions come from power plants that generate the electricity we use for our lights, air-conditioners and factories. Most power plants still burn coal, natural gas or oil, producing carbon dioxide that heats the planet. The good news is there are lots of available technologies that can produce electricity without emissions. France cleaned up its grid with nuclear power. California is aiming for zero-emissions electricity by 2045 by installing solar panels and wind turbines. Some companies plan to capture carbon dioxide from existing coal plants and . Experts often disagree on which technologies are best, and technical hurdles remain ; better batteries to juggle wind and solar power would help. But theres broad agreement that we could greatly reduce power-plant emissions with the tools we have today. As our power plants get greener, the next step is to rejigger big chunks of our economy to run on clean electricity instead of burning fossil fuels. For example, we can replace cars that run on gasoline with electric vehicles charged by low-carbon grids. We can replace gas-burning furnaces with . Instead of steel mills that burn coal, shift to electric furnaces that melt scrap. Roughly another one-quarter of global emissions could conceivably be electrified in this fashion. This daunting task of becomes easier if were also curbing our energy use at the same time. That could entail making cities less dependent on cars, upgrading home insulation and boosting energy-efficiency in factories. Parts of the modern economy, alas, cant easily be electrified. Batteries are still too heavy for most airplanes or long-haul trucks. Many key industries, like cement or glass, require and currently burn coal or gas. One that about one-quarter of emissions fall into this difficult to decarbonize category. Governments and businesses will need to invest in new technologies. Some possibilities: power airplanes with sustainable biofuels from crop waste; use green hydrogen, created from renewable energy, to produce industrial heat; or to offset the emissions we cant eliminate. Well have to get creative. A final one-fourth of global emissions comes from agriculture and deforestation; think cows belching up methane or farmers clearing swaths of the Amazon for cropland. Figuring out how to feed billions while using less land and producing fewer emissions , from improving ranching practices to reducing food waste, but its crucial. This list is simplified, of course, and figuring out how to actually achieve these four steps is the hard part. A could give businesses incentive to find fixes. Governments could ramp up spending on clean technologies. International cooperation and policies to help dislocated workers are vital. And powerful industry interests who prefer the status quo will fight major changes. But its a basic road map if we want to zero out emissions, which, scientists agree, is what is ultimately needed to keep the world from heating up endlessly. As a reporter in Washington for more than 20 years, Ive had a front-row seat to the gridlock that has gripped Congress on climate change. By 2009, partisanship over the issue was already deeply entrenched. The House, then controlled by Democrats, passed a landmark bill that year that would have created a market-based system to cap greenhouse gas emissions. It died in the Senate. In 2010, amid a Tea Party wave that swept the G.O.P. back into power and many of the House Republicans who voted for the legislation either retired or were voted out of office. In the words of one ousted Republican, it felt like That ushered in the era of climate policy by executive order. Over the next several years, President Barack Obamas administration enacted a series of regulations cutting emissions from , and . He in parts of the Atlantic and the Arctic oceans, established across 1.7 million acres of federal land and linked policy. In 2015, after covering more than seven years of negotiations toward a global agreement many thought would never come, I pushed my way into a crowded tent on the outskirts of Paris to watch world leaders ink that was fundamentally shaped by the Obama administration. If Congress wont act, I will, Mr. Obama had . Unlike laws, however, regulations are highly vulnerable to political winds. And back in Washington, the House and Senate, then Republican-controlled, were fighting many of the Obama administrations plans. A few years later, voters elected President Trump. As a candidate Mr. Trump mocked climate change, and as president he quickly made good on promises to eliminate his predecessors , increase fossil fuel production and withdraw from the Paris Agreement. So far, the Trump administration has moved to eliminate . Its too soon to tell what the impact of the rollbacks will be on the climate. In 2017 the World Resources Institute that if all Mr. Trumps policies were enacted, emissions in the United States by 2025 would range from the equivalent of 5.6 to 6.8 gigatons compared with a range of about 5.0 to 6.6 gigatons if Mr. Obamas regulations had remained in place. A single gigaton is about the annual emissions of Italy, France and the United Kingdom combined. Former Vice President Joseph R. Biden, the presumptive Democratic presidential nominee, has pledged to use the full authority of the executive branch to cut emissions and move the United States to clean energy by 2050. His $1.7 trillion plan includes several major executive actions including aggressive methane pollution limits; cutting transportation emissions; enacting new efficiency standards for buildings and appliances; and halting new oil and gas permits on public lands and waters. Mr. Biden has not embraced a nationwide ban on fracking, for which he has been heavily . Congress, though, remains stuck. Republicans have embraced some plans like and technology to capture carbon dioxide emissions, but agreements on broad solutions remain elusive. Even Republicans who have opposed efforts to contain climate change acknowledge that Congress ultimately holds the key. In a recent House hearing, Interior Secretary David Bernhardt noted that, among more than 600 laws mandating the agency shall do things, none orders it to respond to climate change. You know what, theres not a shall for I shall manage the land to stop climate change, or something similar to that, Mr. Bernhardt told lawmakers. You guys come up with the shalls. So you just achieved your dream of becoming a homeowner. Congratulations! But climate change has added a new caveat to homeownership: Whether its near the water or the woods, in a city or farther out, your home may be increasingly vulnerable to hurricanes, flooding or wildfire. At least you can always buy insurance, right? About that: Theres good news and . But mostly its . While most of the climate debate is focused on how to curb greenhouse gas emissions, theres another fight going on over a seemingly simple question: As climate change increases the risk to American homeowners, should governments allow the cost of insurance to keep pace with that risk? This is where regulators, lawmakers and budget officials start to cringe. During my years of reporting on global warming, Ive watched the question of insurance become one of the most intractable policy dilemmas facing governments and homeowners and one with no obvious solution. The obvious approach might be to let insurance work the way its meant to, with premiums that reflect the odds of getting hit by a disaster. That would let insurance companies or, in the case of flood insurance, the federal government collect enough money to pay out claims. Higher premiums are also a warning to homeowners to avoid living in risky areas. But homeowners vote. Last year, the Trump administration proposed changing the deeply indebted federal flood insurance program in a way that would make premiums . Members of Congress from both parties expressed alarm and the administration , delaying the change until after this years election if it . In California, which was hit by huge wildfires in recent years, regulators and lawmakers have made it for insurers to pass costs onto consumers and barred insurance companies from canceling coverage for homeowners in or alongside ZIP codes hit by fires. The instinct to keep rates low reflects more than just political self-preservation. If costs go up too much, whole neighborhoods could ruining home values, collapsing the local economy and shattering the tax base. That leaves a second option: As risks increase, governments can keep subsidizing insurance either directly, through publicly funded programs like flood insurance, or indirectly, by forcing private insurers to spread the burden of high-risk coverage by raising prices elsewhere. Both approaches seek to . That, dear homeowner, is the good news: At this point in the climate debate, officials have generally erred on the side of protecting at-risk homeowners, financially . A beach house or mountain home may put you in harms way, but at least you should be able to afford your insurance premiums for a few more years. But by keeping premiums low, governments encourage more homes to , which means more homeowners exposed to storms or fires. Call it the sympathy paradox: Actions intended to help people today by making it easier for them to stay in their homes risk hurting more people tomorrow. This dilemma will only become harder to navigate. Growing risks will make governments even more reluctant to expose voters to the true cost of insurance. But voters far from flood zones will increasingly resent . What does this mean for you? For now, maybe nothing: Congress continues to have little appetite for large increases to flood insurance costs, and most state regulators will resist insurers demands for big rate hikes. And if they change their minds, armies of homeowners, home builders, real estate agents and local officials are likely to push back. But the cost of the current approach with . If you want to follow a truly searing debate about climate change in the United States, watch this space. This is one of the most common and most vexing questions in the age of climate change: Can I address a problem so big, or can the world solve this only when powerful leaders in business and government make big structural changes? Its impossible to separate the two. Personal actions and international cooperation are inextricably linked. First, the answer depends on whose actions were talking about. Those of a middle-class American matter a lot more than the actions of say, a farmer in Bangladesh. Why? Because we consume much more, and so our choices matter much more to global emissions: Per capita emissions in the United States are 30 times bigger than per capita emissions in Bangladesh. Many of my consumption choices have large implications. What car I buy, or whether I buy one at all, matters hugely, because transportation is the single in most American cities. Same with how much I fly. Most lipsticks I impulse-buy contain palm oil, the production of which is linked to deforestation in Southeast Asia. And what I eat has an . The average person in North America eats more than six times the recommended amount of red meat, found, while the average person in South Asia eats half of whats recommended. Perhaps most important is what I dont eat and toss into the garbage. From farm to plate, food waste accounts for nearly 10 percent of global greenhouse gas emissions. Is there one fix we can make to avert a climate catastrophe? No. It is inevitable we will have to change much about how we live, for our own survival and the survival of others we dont know. Its a bit like what were doing to stop the , except forever. Second, individual behavior . One house with solar panels can lead to others in the neighborhood . Likewise, we tend to conserve our electricity consumption when our utility bills tell us how our usage compares with our neighbors. Third, individual action is a prerequisite for collective action. Without young individual activists, there would be no Sunrise Movement to camp out in the halls of Congress, nor would of major world capitals, demanding that the adults in charge take swift climate action. On the whole, though, humans tend to be really bad at changing their behavior today to address risks tomorrow. This present bias, as cognitive scientists call it, makes it hard for us, as individuals, to make lifestyle changes now to prevent a catastrophe down the road. So we need government policies to protect us from future risks. Because the world has deferred climate action for so long, scientists estimate global emissions must be cut by half in the next 10 years in order to avoid the most catastrophic effects of global warming. Its hard to imagine how such sharp emissions cuts can be made without ambitious government policies, including carbon prices that make it sufficiently costly to burn coal or oil, investments in public transportation, and enforceable energy efficiency standards. And this is where the Paris Agreement comes in. Every country is supposed to set their own climate targets and figure out how to meet them. What one country does is supposed to inspire other countries. Peer pressure is built in. Five years after that hard-won diplomatic pact, the world as a whole is not yet close to reining in global temperatures. And so that raises the fourth and final dilemma: Is it too late to make a difference? No. Its true that we have already warmed the planet by burning fossil fuels for a century and a half, setting in motion , and . But the future isnt set in stone. There are many futures possible, ranging from quite bad to really catastrophic. Which one plays out is up to us to decide. Each and every one of us.