Tag: Conservation

Can electric woks produce great stir-fry?

The first thing you notice walking up to a dai pai dong, one of Hong Kong’s signature open-air street food stalls, is the smoke. Aromatic plumes billow out from aluminum-covered vent hoods as chefs with decades of experience produce steaming plates of crackled shrimp, juicy mussels, and crisped-up rice by tossing the ingredients in a giant, flame-cradled wok.

As a foodie and avid stir-fry consumer, I love everything involved in wok cooking — the artistry, the bursts of orange under the deep, round-bottomed pan, the incomparable taste. But as a climate reporter, I see just one problem: It typically relies on gas stoves, which release planet-warming methane even when turned off.

a person cooks over a hot stove in an open-air restaurant
Chefs cook at a dai pai dong in the Sham Shui Po district in Hong Kong in November 2018. Vivek Prakash / AFP via Getty Images

Climate experts say that we need to phase out fossil fuel use to address the climate crisis, especially in buildings, which account for 35 percent of U.S. greenhouse gas emissions. Gas stoves also produce harmful air pollutants like carbon monoxide, nitrogen dioxide, and benzene, a known carcinogen. 

So when I heard that an all-electric food hall on Microsoft’s campus in Redmond, Washington, featured a pair of custom-made induction woks, I was eager to try out a climate-friendly stir-fry. Unlike gas stoves, induction ranges use electromagnetic currents to heat food, eliminating both the carbon emissions and harmful air pollutants produced by gas. Yet minutes into my lunch with a friend who works at Microsoft, my excitement dissolved. My tofu noodles arrived limp and drowning in vegetable oil. 

As I poked at my soggy introduction to induction wok fare, I couldn’t help but think back to a plate of noodles I had eaten at a dai pai dong in Hong Kong just a few weeks before. The two noodle dishes could not have been more different. One was prepared with state-of-the-art climate tech — yet produced lukewarm results. The other was freshly tossed in a kerosene-fueled wok, yielding glossy, chewy noodles bursting with soy sauce, blackened slivers of onion, and, most importantly, that elusive, umami-filled char called wok hei

Wok hei, loosely translated from Cantonese as the “breath of the wok,” represents the pinnacle of the stir-fry cooking technique most commonly associated with southern China. (While many cuisines rely on the wok, not all strive for that signature aroma.) From street food stalls to high-end restaurants, diners from all over the world seek the intangible flavor that renowned chef and wok whisperer Grace Young described as “a special life force or essence from the wok.”

For all its coveted glory, wok hei — and the question of what exactly produces it — remains somewhat mysterious. The term itself is fairly abstract: while wok refers to the cooking vessel, hei can simultaneously mean “air,” “breath,” “energy,” and “spirit,” leaving room for a variety of interpretations. Many chefs say that fire, and therefore a gas stove, is essential for achieving the aroma, putting it at odds with climate-driven legal trends: Since 2019, more than a hundred local governments across the United States have introduced policies to ban the use of natural gas in buildings, including gas stoves. Others argue that with high enough temperatures and a few adjustments, chefs can switch to induction and still produce foods with wok hei.

In the face of this gastronomic debate, many chefs are asking what an all-electric future will mean for cherished culinary traditions like wok cooking.

When the city of Berkeley, California, enacted its local gas ban in 2019, the California Restaurant Association sued, arguing that gas is essential for certain specialty techniques, including “the use of intense heat from a flame under a wok.” It wasn’t the only attempt to derail gas bans. An investigation by the Sacramento Bee, for example, revealed that the gas utility SoCalGas actively recruited Chinese American restaurant owners to advocate against electrification policies in Southern California. 

It would be naive to say gas utility companies were driven by a love of great stir-fry when they turned their lobbying efforts toward wok-based cooking. But the culinary debate around whether wok hei can be achieved over an induction stove has certainly added fuel to the electrification debate.

a woman stands in front of a counter labeled Bartscher holding a metal wok on a metal stand induction stove
An employee of the commercial kitchen equipment company Bartscher shows an induction wok at a trade event in 2019. Ulrich Perrey / Picture alliance via Getty Images

For chefs, the most important consideration when it comes to switching off gas is whether induction can support their livelihoods. In cities like San Francisco and Los Angeles, some restaurant owners serving Chinese, Thai, and other Asian cuisines using woks have expressed concerns that local gas bans could jeopardize signature tastes and textures. 

Whether individual chefs think that induction can achieve wok hei depends largely on how they define it. Wok cooking expert and food writer J. Kenji López-Alt, for example, defines wok hei as a quintessential smoky flavor. He told Grist that it’s impossible to achieve wok hei without gas or fire — and the reason comes down to the food science. 

A number of different elements go into that signature smoky aroma, according to López-Alt. One is the flavor imparted from hot, well-seasoned carbon steel or cast iron, two of the most common materials used to make woks. Another component is the caramelization that happens when sauce hits a searing hot pan. If you “watch a Chinese chef cooking, when they add soy sauce to a stir-fry, they swirl it around the outside of the pan where it immediately sizzles and gets intense heat, and that changes the flavor and gives it a bit of smokiness,” he said.

But the main flavor component flavor of wok hei, López-Alt says, comes from the igniting of aerosolized oil with fire. As chefs toss food up into the flames of a gas stove, tiny droplets of fat suspended in the air catch on fire, dripping back down into the wok to impart a subtle smokiness. “You can’t get that without an actual fire,” he said.

Martin Yan, restaurateur and longtime host of the PBS cooking show Yan Can Cook, has a different take on wok hei, which he defines as an ephemeral, fragrant aroma that lasts a mere 15 to 20 seconds after a dish is prepared. He told Grist that achieving that aroma depends not on fire, but on applying intense, high heat. When fresh ingredients hit the wok’s surface, they undergo a Maillard reaction, in which proteins and sugars break down and develop new, complex flavors. “The wok hei is not created by the gas,” he said. “It’s created by the frying pan and that chemical reaction.” 

In theory, Yan said, the heat could come from any source: electricity, gas, even wood or charcoal. “You could use nuclear fusion, as long as you can create that intense heat.”

Two men cook over hot stoves. The man on the right wears a white chef uniform and holds a wok with flame
Celebrity cook Martin Yan demonstrates his wok cooking skills over a gas-powered stove at an event at the Conrad Hotel in 2006. K. Y. Cheng / South China Morning Post via Getty Images

Induction stoves, which can instantly heat to temperatures of up to 643 degrees Fahrenheit, are capable of the intensity Yan describes as necessary for wok hei. Yet some chefs like López-Alt say that the shape of the wok presents another obstacle to using induction. Woks feature a deep, high-walled bowl, which allows flames to curl around the vessel and create varied temperature zones — ideal for moving sauces and ingredients around to optimize flavors and control heat. But induction stoves are typically flat and only activate when directly in contact with the pan’s surface. Lifting the wok to toss ingredients, therefore, would result in an instant loss of heating.

Jon Kung, a Detroit-based chef and TikTok personality who advocates for induction cooking, says that induction stoves designed specifically for woks can help with this issue. Like Yan, he defines wok hei as a “mix of char and caramelization” as a result of the Maillard reaction, requiring high heat rather than flames.

Kung owns two portable induction wok burners that feature a curved heating bowl in which the wok sits, allowing for better temperature control up the sides of the pan. While this setup may not totally replicate the temperature gradient present in a traditional fire-heated wok, Kung said the conditions are sufficient for producing high-quality stir-fry, a task he points out is difficult even for those with gas stoves at home.

“It’s incorrect to assume that the only things you need to achieve wok hei are a wok and a gas burner,” he said in a 2023 video. “The ones in Chinese restaurants have a power output of 150,000 BTUs. That’s way more than the 30,000 that comes out of your Viking range. The fact of the matter is, these induction wok burners do a better job at mimicking the focus of energy into the bottom of a wok that you get from a genuine Chinese wok burner.”

While Kung’s induction models plug into a typical outlet and are designed for home use, similarly shaped and far more powerful commercial induction wok ranges exist on the market — including at Microsoft’s all-electric food court. But the stove itself wasn’t the reason for the company’s substandard stir-fry. The noodles I ate there appeared to have been batch-cooked, an efficient way to feed hungry tech workers but a less-than-optimal method for achieving wok hei, which depends on the freshness of the ingredients. And since I wasn’t present at the time of cooking, I also can’t evaluate the temperature used for cooking.

As of now, I can safely say that my induction-versus-flame-fueled wok hei taste test remains inconclusive. And sadly, I don’t have many nearby options to gather more data. Although Yan reported that some hotels in China like the Hilton and Marriott already exclusively use induction woks, commercial induction kitchens are rare in the United States.

According to a 2022 survey by the National Restaurant Association, 76 percent of restaurants in the U.S. still use gas. That proportion goes up to 87 percent for full-service restaurants, or sit-down eateries that provide table service. Meanwhile, less than five percent of U.S. households currently use an induction stove — though wok expert Grace Young has said she’s often asked which wok to buy for induction and glass-topped ranges.

A woman and a man sit at a booth in a restaurant eating stir fry
Chef and wok expert Grace Young has a razor clam dish at a restaurant in New York’s Chinatown in December 2021. Jeenah Moon / The Washington Post via Getty Images

A big reason for the lack of commercial induction uptake is the cost. Yan noted that induction wok burners for restaurants remain prohibitively expensive in the U.S., especially since the technology is still maturing. Upgrading a gas kitchen to accommodate all-electric appliances to begin with can require up to tens of thousands of dollars, an exorbitant price for businesses operating on thin profit margins. Commercial induction ranges also typically cost three to four times as much as gas-powered ones. 

Kung told Grist that he is not aware of any restaurants in the U.S. achieving wok hei with induction — although he believes that with a few tweaks in technique, it’s “absolutely” possible. The problem, beyond the cost of induction ranges, is that chefs might also simply prefer the tactile experience of cooking with fire, or generally feel resistance to adopting new techniques. But Kung maintains that if governments want to take the climate crisis seriously, they need to pass policies to incentivize and help businesses switch to electric. 

“Chefs are problem-solvers by nature,” Kung said, and will likely innovate and relearn how to achieve wok hei on induction at a commercial level.

Although López-Alt says achieving wok hei is not possible without a flame, he isn’t against induction stoves in general. He initially felt wary of switching when he first came across the debate over gas stoves a few years ago. Yet he eventually concluded that, for most Western cooking and home cooking, the technology can be just as good as gas if not better — not just for climate and health reasons, but also in terms of efficiency of cooking. 

“It’s a topic that gets a lot of knee-jerk, immediate reactions,” he said. But “for most things it actually makes sense to get rid of gas.”

This story was originally published by Grist with the headline Can electric woks produce great stir-fry? on May 14, 2024.

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Can the harsh conditions of space breed more resistant crops for Earth?

In early April of last year, a white capsule the size of a small school bus detached from the International Space Station and splashed down off the coast of Tampa, Florida. On board were 4,300 pounds of supplies and scientific experiments, including samples of dwarf tomatoes grown in space; crystals that could be used to make semiconductors; and medical data on the astronauts working in the space station. Tucked away among these contents was a much smaller and lighter cargo: more than a million tiny orange seeds. 

Half a world away in Seibersdorf, Austria, a town about 22 miles outside the capital of Vienna, Pooja Mathur waited eagerly for the seeds — from a plant called arabidopsis, a member of the mustard family — to arrive. Mathur, a plant geneticist, leads the Plant Breeding & Genetics Laboratory for the Joint FAO/IAEA Centre of Nuclear Techniques in Food and Agriculture, a collaboration between two United Nations agencies: the Food and Agriculture Organization and the International Atomic Energy Agency. 

For over 60 years, the laboratory has studied whether nuclear technologies can be used to breed new and more resilient varieties of crops, and the seeds from the space capsule were its newest venture. They had spent nearly five months in low Earth orbit, exposed to cosmic radiation, extreme temperatures, and low gravity, which altered their DNA in unpredictable but potentially beneficial ways. Scientists like Mathur hope that a few of these seeds might sprout into plants that can survive changing conditions here on Earth, such varieties more resistant to drought or heat. 

bags of sorghum seeds that spent 5 months in space
An expert at the Plant Breeding and Genetics Laboratory holds the sorghum seeds that spent five months at the International Space Station.
Katy Laffan / IAEA

“It was a great opportunity to receive them,” Mathur told Grist over a video call from her office in Austria. “But there was also a nervousness — there are always these questions when you embark on something unknown.” 

The “cosmic crops” project is the United Nations’ first foray into space breeding, part of a global effort to address rising risks of food insecurity stemming from shifting land use patterns, population growth, and climate change-driven extreme weather. Heat waves, droughts, floods, erratic rainfall, and worsening pest and disease outbreaks all threaten agricultural production around the world, and the effects are already being felt in many countries. Massive flooding destroyed at least 4 million acres of farmland in Pakistan in 2022, triggering a food crisis for more than 8 million people; in East Africa, extreme drought has pushed millions of people to the brink of famine in the past three years. In the United States, natural disasters, many made worse by climate change, caused $21.5 billion in agricultural losses in 2022 alone. 

While space breeding seeds was first attempted in the 1960s, the scientific endeavor is currently experiencing a golden age as space travel and research becomes more accessible for nations outside the U.S., Russia, and Europe. Chinese researchers have been at the forefront of this experimentation, developing more than 200 varieties of space-mutated plants since 1987. Other countries that have developed space programs in recent years, like India and the United Arab Emirates, are also among the most vulnerable to climate change, and have expressed interest in the technology. 

But the joint FAO/IAEA center’s project, known officially as Seeds in Space, is the first such effort on an international level, which will help make the results of these experiments available even to nations that can’t afford to build rockets or extensive plant genetics laboratories. And it will help answer essential questions about what makes space mutations different from those done here on Earth, and where scientists should direct their efforts in order to adapt to climate change.

“[If] we can understand how plants mitigate stress [in a space environment], we can use that knowledge in our approach to global warming on Earth,” said Tapan Mohanta, a former agricultural researcher at the University of Nizwa in Oman who has studied the potential of space breeding for developing new crop varieties and was not involved in the FAO/IAEA mission. 

The joint FAO/IAEA center was founded in 1964 amidst a post-war push to use atomic energy for peaceful means. Researchers at the time found that exposing plant material to radiation encourages mutations at a much faster rate than conventional breeding, a painstaking procedure that requires multiple generations to show changes in the plants’ phenotype, or outward characteristics. Mutations occur naturally as cells multiply by making copies of their genetic code; what starts as a random error in one strand of DNA can be replicated over and over again until the organism either repairs the damage or allows it to spread to all of its cells. 

Scientists receives a box of seeds that spent time at the International Space Station
Scientist Shoba Sivasankar, right, receives a package of seeds that journeyed from the International Space Station to the FAO/IAEA Plant Breeding and Genetics Laboratory in Seibersdorf, Austria, in 2023.
Katy Laffan / IAEA

Hitting seeds with gamma rays, the most powerful form of radiation, speeds up this process, known as “mutagenesis,” by as much as 1 million times. Irradiated seeds which survive the high doses of radiation can grow into plants that show much clearer phenotype variations than their conventionally-bred counterparts; scientists can then test these new specimens to see whether they can withstand difficult conditions or produce a higher crop yield than currently existing varieties. This process does not make the seeds themselves radioactive, and the resulting crops are safe to eat, Mathur said. 

By selecting and then further breeding the most promising candidates, researchers have produced over 3,400 new varieties of more than 210 plant species, according to the IAEA’s Mutant Variety Database. Farmers in more than 70 countries are already growing the resulting plants; the seeds are often crossbred with widely used “elite” varieties to better suit local conditions. Other mutations can be induced using chemicals, bypassing nuclear technology altogether. 

Cosmic rays, which are emitted by distant space objects like the sun, other stars, and even black holes, offer a different way to trigger mutagenesis, Mathur said. One of the goals of the “cosmic crops” project is to determine whether radiation from space, which is lower intensity but applied over a longer period of time than in the lab, can create different results than experiments with gamma rays on Earth. Previous experiments by Chinese researchers have found that space radiation induces “useful” mutations more often than gamma radiation applied in a lab, according to the BBC.

“Mutagenesis is a very slow process on a day-to-day basis,” Mathur said. Space breeding “can accelerate the process to harness the power of natural changes at a much faster scale, considering that there is a dire need to have solutions in food and agriculture.” 

Two types of seeds were picked for the experiment: arabidopsis, a weed that, while usually not edible, is a “model species” with a well-studied genome that researchers can quickly examine for the most obvious genetic changes and useful traits, and sorghum, a dryland crop that’s consumed by 500 million people around the world and is therefore useful from a food security standpoint, Mathur said. Half were kept outside the International Space Station, where they were exposed to the full range of cosmic radiation along with the extreme cold and zero-gravity environment of outer space; the other half stayed inside the station, under microgravity conditions but shielded from most radiation, to provide a point of comparison. 

Because the mutations that occurred in space were random, scientists are taking two approaches to figure out what they look like: Since receiving the seeds in June of last year, Mathur’s lab has planted them and will now begin using DNA sequencing technology to study the arabidopsis seedlings and determine what changes took place at the genetic level. They plan to have results by summer or early fall. After that, researchers will screen the ones that seem to display positive genetic changes to determine whether they can actually better withstand harsh conditions like drought, salinity, and pest infestations. They’ll follow up by testing the sorghum, which takes longer to sprout and grow to maturity. 

Plants growing in a beaker at a lab in Austria.
Crops take root in a beaker at the IAEA Plant Breeding Unit in Seibersdorf, Austria.
Adriana Vargas Terrones / IAEA

Mathur’s lab is sharing its results with countries that want to learn which techniques — encompassing everything from the length of time the seeds are in space to the way they’re grown once they return — produce the most resilient crop varieties. One such “coordinated research project,” which would compare mutations induced by cosmic rays with those applied in the lab, has attracted researchers from Australia, Burkina Faso, China, France, Ghana, India, Kenya, Niger, South Korea, the United Kingdom, and the U.S.

“The molecular variations in plants induced by space mutagenesis are largely unknown,” said Hongchun Xiong, an associate professor at the Chinese Academy of Agricultural Sciences who is working on the coordinated research project. Although Xiong’s previous research using space-exposed seeds has identified mutant varieties of wheat that are more tolerant to saline soil, which can prove useful as saltwater encroaches on agricultural fields thanks to rising sea levels, she hopes to identify others that are resistant to dry conditions or use nitrogen more efficiently.

“We believe this is important for [the] development of new wheat varieties for food security and climate change adaptation,” Xiong said. 

Previous experiments with space breeding have already yielded results. China registered a new variety of wheat called Yannong 5158, which was developed using space mutagenesis, in 2007. Smaller than conventional wheat, with dark green leaves, this version proved more resistant to bacterial diseases and stem rust, a type of fungal infection, while also producing a higher yield. This variety has since been planted in several villages in the Fuyang prefecture in eastern China. The country also harvested its first batch of rice that had traveled to deep space — nicknamed “rice from heaven” by state media — in 2021, though it has not yet announced whether the resulting plants were more resilient in any way than their Earth-bred counterparts.

Experiments like these carry risks, Mohanta pointed out. Mutant DNA could potentially escape and contaminate wild species or other crops through cross-pollination, which could pose a threat to biodiversity or human health if the mutations are harmful in any way — a small possibility, but one that plant breeders developing genetically modified organisms, or GMOs, also face. One genetically modified variety of corn, for example, was suspected of unintentionally introducing allergens into the U.S. food supply in the early 2000s and later had to be recalled, although officials could not prove that the GMO corn actually caused allergic reactions. And although contamination incidents are common, with nearly 400 recorded by Greenpeace between 1997 and 2014, researchers have found no definitive links between GMO foods and negative health effects.

While space-bred varieties are not GMOs, because the mutations that occur are random and not controlled by humans, the joint FAO/IAEA center still follows protocols to keep cross-contamination from occurring. But it can’t control what member states do once they have access to the technology and mutated seeds. 

“Although developing plant varieties that thrive in microgravity and resist cosmic radiation may be an important goal for the scientific community, an undesirable mutation in the genome could have deleterious effects on other crop varieties,” Mohanta wrote in a 2021 paper in the journal Frontiers in Plant Science. “Therefore, the conduct of such research should be subject to strict international regulations to avoid the possibility of unexpected results.” 

Mathur emphasized, though, that despite the unknowns, space breeding has enormous potential, which scientists are only just beginning to unpack. She pointed to previous studies that found peppers exposed to cosmic radiation had a higher nutritional content, a promising feature given widespread deficiencies of iron, zinc, vitamin A, and other nutrients around the world. And although space experiments are still a very small component of plant breeding, the results of the “cosmic crops” project will help researchers decide whether to invest more into this technology in the future. 

Mutation breeding “has been the cornerstone of agriculture for a long, long time,” Mathur said. “Agriculture is all about harnessing mutations … and mutation is very much a part of our evolutionary process.” 

This story was originally published by Grist with the headline Can the harsh conditions of space breed more resistant crops for Earth? on May 14, 2024.

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U.S. Plans to Impose Tariffs of Up to 100% on EV Imports From China

The Biden administration plans to set new tariffs on electric vehicle (EV) imports from China of up to 100 percent, along with import taxes on other products.

The tariffs follow a review of former President Donald Trump’s more than $300 billion in import taxes imposed on China in 2018, reported The New York Times. It is anticipated that most of Trump’s levies will continue, with increases in sectors subsidized by Biden’s Inflation Reduction Act.

In addition to EVs, solar equipment, semiconductors and medical supplies could be subjected to new levies, The Associated Press reported. EVs could see a jump from 25 to 100 percent.

The tariffs could be announced as soon as tomorrow, Reuters said.

Democrats like Ohio Senator Sherrod Brown have encouraged Biden to protect the automobile industry in the United States with more heavy-handed action like completely stopping the import of EVs from China, reported The New York Times. Brown said the “existential threat” posed to carmakers in the U.S. meant import taxes were not enough.

Last month, Biden said he was requesting that tariffs be raised on imports of Chinese products made from aluminum and steel after his aides said China was selling the metals at prices that were falsely low to deplete the market share.

“My U.S. trade representative is investigating trade practices by the Chinese government regarding steel and aluminum,” Biden said in an address to Pittsburgh steelworkers, as The New York Times reported. “If that investigation confirms these anticompetitive trade practices, then I’m calling on [Katherine Tai] to consider tripling the tariff rates for both steel imports and aluminum imports from China.”

Biden said he’s after “fair competition.”

The president wants to show he’s ready to safeguard manufacturing in the U.S. before going up against Trump in the presidential election in November.

China has been inundating the global marketplace with inexpensive products like solar panels, EVs and batteries. The flood of cheap Chinese solar panels and parts has caused prices to be cut roughly in half in the past year.

“We are hopeful the tariff review is done with an eye toward aligning tariffs with strategic priorities including the continued build out of domestic solar manufacturing,” said Michael Carr, Solar Energy Manufacturers for America’s executive director, as reported by The New York Times.

Beijing criticized the prospective new levies, saying they violated rules of the World Trade Organization.

Greta Peisch, a former U.S. trade representative’s office general counsel, noted that, without higher import taxes, the automobile sector in the U.S. would not be competitive against highly-subsidized EVs from China.

“When you look at the impact of China’s longstanding policies on E.V.s, they are producing much more and have a lot more capacity than they can absorb. You really want to go high enough to make sure that you’re counteracting the trend that we’re seeing,” Peisch said, as The New York Times reported.

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Big Banks Have Given Nearly $7 Trillion to Fossil Fuel Companies Since Paris Agreement, Report Says

According to the new Banking on Climate Chaos Fossil Fuel Finance Report 2024, the largest banks in the world have given $6.9 trillion in fossil fuel funding to the industry since the 2016 Paris Agreement.

The goal of the Paris Agreement — signed by 196 countries — is to limit human-caused global heating to 1.5 degrees Celsius above pre-industrial levels by lowering carbon dioxide emissions. However, contrary to their pledges, private interests in many countries have kept funding the operations of fossil fuel companies, which have continued to expand, reported The Guardian.

The impacts of climate change most often affect vulnerable communities who are the least responsible for it.

“Climate change hits the frontlines first and worst. People living on the frontlines of climate chaos and the fossil fuel industry are predominantly Indigenous Peoples, Black and Brown communities, low-wage workers, women, fishers or smallholder farmers, often living in poverty,” Banking on Climate Chaos said.

For the 15th edition of the report, the researchers looked at the underwriting and lending of the biggest 60 banks globally to more than 4,200 oil, gas and coal firms that were causing environmental destruction in the Arctic and Amazon, The Guardian reported.

They discovered that, of the nearly $7 trillion given to the companies, almost half supported the expansion of fossil fuel development.

Banks in the United States were the biggest culprits, giving 30 percent of last year’s $705 billion total. JPMorgan Chase’s support of fossil fuels was $40.8 billion in 2023 — the largest financier. The second largest contributor was Japan’s Mizuho with $37.1 billion, while Bank of America was third.

Europe’s biggest donor was Barclays with $24.2 billion. A little more than a quarter of the financing last year came from European banks, the report said.

“Financiers and investors of fossil fuels continue to light the flame of the climate crisis. Paired with generations of colonialism, the fossil fuel industry and banking institutions’ investment in false solutions create unlivable conditions for all living relatives and humanity on Mother Earth,” said Tom BK Goldtooth, Indigenous Environmental Network’s executive director, as reported by The Guardian. “As Indigenous peoples, we remain on the frontlines of the climate catastrophe, and the fossil fuel industry targets our lands and territories as sacrifice zones to continue their extraction.”

Representatives of some of the banks — Bank of America, JPMorgan Chase, Barclays, Santander and Deutsche Bank — said their companies were supporting the transition of their clients in the energy sector toward more eco-friendly business models.

“Capitalism and its extraction-based economy will only perpetuate more harm and destruction against our Mother Earth and it must come to an end,” Goldtooth said.

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New Global Wildlife Crime Report Finds 4,000 Species Being Targeted in 162 Countries

A new report from the United Nations’ Office on Drugs and Crime (UNODC) has found that more than 4,000 wildlife species are targeted worldwide for illegal trade, and about 162 countries have active illegal wildlife trading.

According to the latest edition of the UNODC’s World Wildlife Crime Report, the third of its kind, more than 4,000 plant and animal species are illegally traded, often for medicinal, food, pet or ornamental purposes.

For example, shark fins, eels and pangolins are often sought out in bulk for consumption as food, the report noted, while rare reptiles and amphibians are in demand as pets. Further, some parts of species are in demand as ornamental goods, such as ivory from elephant tusks or horns of rhinoceroses.

The report found 1,652 mammal, bird, reptile and amphibian species that were seized by authorities from 2015 to 2021. Of those seized species, 40% were considered threatened or near threatened by the International Union for Conservation of Nature (IUCN) Red List. The analysis revealed that seizures from illegal wildlife crimes totalled around 13 million items from 2015 to 2021 and weighed over 16,000 tons.

As part of the UN Sustainable Development Goals, Goal 15 is aimed at protecting and restoring land-based ecosystems, and it includes targets to end wildlife trafficking of protected species. But the new UNODC report compared data to progress of Goal 15 and found that the world is not on track to meet this goal. According to the report, intercepted illegal wildlife trading as a proportion of all wildlife trade (including legal trade) increased from 2017 to 2021, even reaching its highest levels in 2020 and 2021.

“These estimates give no reason for confidence that SDG target 15.7 is on track to be met by 2030,” the report stated.

The report also outlined some of the major threats of the illegal wildlife trade, not just to the targeted species but to their entire ecosystems and humans as well.

“Wildlife crime inflicts untold harm upon nature, and it also jeopardizes livelihoods, public health, good governance and our planet’s ability to fight climate change,” Ghada Waly, executive director of the UNODC, told The Guardian.

The report noted that population declines linked to wildlife trafficking create a ripple effect within ecosystems, and with climate change, the problems become worse, leading to resource conflicts that put more species in jeopardy. The authors wrote that wildlife crimes limit the socioeconomic benefits humans get from nature and that wildlife crimes can be linked to corruption and loss of revenues in governments.

As reported by the NGO Traffic, the illegal wildlife trade has an estimated value of up to $23 billion per year.

The World Wildlife Crime Report included several suggestions to crack down on wildlife crime and get on track to meeting Goal 15 of the Sustainable Development Goals. Some of the suggested interventions included strengthening international treaties and national laws, improving management of protected areas, supporting alternative livelihoods, identifying and resolving corruption, promoting substitutes to curb demand for illegal wildlife products and improving general education and awareness. 

Ultimately, the report authors wrote that a multifaceted approach that addresses every stage, from the root of crimes to the end market, will be needed to reduce wildlife crimes.

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Earth911 Podcast: Consumer Reports’ Chris Harto On The Lifetime Cost Of Climate Change

Consumer Reports and Breakthrough Energy recently put numbers on the social cost of carbon, calculating…

The post Earth911 Podcast: Consumer Reports’ Chris Harto On The Lifetime Cost Of Climate Change appeared first on Earth911.

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Michigan wants fossil fuel companies to pay for climate change damages

This coverage is made possible through a partnership with Grist and Interlochen Public Radio in Northern Michigan.

Michigan Attorney General Dana Nessel announced Thursday that she plans to sue fossil fuel companies for knowingly contributing to climate change, harming the state’s economy and ways of life. 

“It’s long past time that we step up and hold the fossil fuel companies that are responsible for all these damages accountable,” she said.

With this litigation, Michigan would join dozens of local, tribal, and state governments that have taken similar steps to try to make the industry pay for climate damage.

Nessel said the case is an effort to recover some of what Michigan has lost due to climate change, pointing to severe weather events, risks to agriculture, and last winter’s short ski season and canceled sled dog races. 

The department is asking outside lawyers to submit proposals to help with the case, which Nessel said could potentially bring billions to the state to address damages from climate change. Attorneys and law firms can submit proposals through June 5.

“A case like this is exhaustive in nature,” she told Interlochen Public Radio. “You’re going after Big Oil, so you need to have some support in terms of additional attorneys and support staff.”

Investigations in 2015 from Inside Climate News and the Los Angeles Times showed that companies like Exxon knew about the dangers of greenhouse gas emissions for decades, but minimized those threats.

Last month, the House Committee on Oversight and Accountability referenced that reporting, saying that its own nearly three-year-long investigation gave a “rare glimpse into the extensive efforts undertaken by fossil fuel companies to deceive the public and investors about their knowledge of the effects of their products on climate change and to undermine efforts to curb greenhouse gas emissions.”

For instance, ahead of a recent congressional hearing, newly revealed documents showed that BP executives knew natural gas was contributing significantly to climate change but promoted it as a “bridge” fuel to replace coal.

Asked about Michigan’s plans to sue, Ryan Meyers, the American Petroleum Institute’s senior vice president and general counsel, said in an emailed statement that it is part of an “ongoing, coordinated campaign to wage meritless, politicized lawsuits against a foundational American industry and its workers.” Meyers added that climate policy should be handled in Congress, not the courts.

The attorney general’s department is working with state agencies to assess the impacts of climate change in Michigan.

Nessel said the state has successfully pursued similar legal efforts in the past, including against the opioid industry and chemical manufacturers that produce PFAS.

This story was originally published by Grist with the headline Michigan wants fossil fuel companies to pay for climate change damages on May 13, 2024.

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As sea levels rise, the Quinalt Nation moves to higher ground

This story was originally published by ICT and is reproduced here as part of the Global Indigenous Affairs Desk, an Indigenous-led collaboration between Grist, High Country News, ICT, Mongabay, Native News Online, and APTN.

A little more than a century ago the village of Taholah was built where the ocean meets the Quinault River. Today when there’s too much rain, or a storm surge, water will rush past Quinault Street, down 2nd, 3rd all the way across town, filling yards and homes with salt water.

Ryan Hendricks points to the sea wall and remembers one such flood. “It’s almost like a geyser shooting through the rocks,” said Hendricks, a member of the Quinault Indian Nation’s Tribal Council. “The water was coming in from the river and just coming directly into the village. And then over here … the water wasn’t coming really over the wall. It was just coming through the rocks like a geyser. So it was just pushing almost with the speed of like a natural river current.”

The Quinault Nation faces dangerous long-term currents. Taholah is barely inches above the ocean and the sea level is rising. On top of that there are a growing number of storm surges, where flood waters are propelled by high winds.

What makes the Quinault story so powerful is that it’s a window into our future: It’s the idea that a changing climate will determine where and how we will live, what we will eat, and how much it’s going to cost.

The Quinault Nation has been deliberate in its response, debating for the past couple of decades about how to protect its lands, its fish, people, and property. After many community meetings the conclusion was reached in a 2017 tribal master plan, a move to higher ground.

That plan included a new village, about a half-mile uphill, that will protect residents from storm surges or even a potential catastrophic tsunami. Relocation will “incorporate smart growth techniques including low-impact development and green infrastructure to better prepare the community for the future climate.”

A man in a black sweater with black and gray hair and a beard stands on a street with a forest in the background.
Ryan Hendricks, a member of the Quinault Indian Nation’s Tribal Council, points to the village’s sea wall.
Stewart Huntington/ICT

The easy part of relocation is already done. The nation has constructed what’s needed for a new community. The streets are paved. The sewers are in. And only a couple of things are missing: houses and residents.

The new village “must be designed to be as resilient as possible,” the master plan said. “Even small events, such as windstorms, close roads and down power lines, isolating the village. Thus, planning for safe havens in case of disaster and alternative energy sources is a must when determining facility siting, sizing, orientation, and programming.”

In a reflection of Indigenous values, the first building opened by the nation was the Generations House, a 30,000-square-foot building serving elders, Head Start, day care, and adult education.

“This was our most modern effort to relocate our most vital citizens with all of our next generations,” Hendricks says. “This is a shared building with all of our most valuable resources, our children. And then, all of our most valuable information holders are our elders on the other side [of the building].”

The Generations House is also the gathering point should there be an emergency.

There are a lot of questions that still must be answered before any houses are built.

“We have penciled out what a house would cost. And right now we are sitting at somewhere between $350 and $400,000 per house,” Hendricks says. That is a number unaffordable for most tribal members.

And what about the people now living in Taholah who have paid off their mortgages — especially elders?

“Why would they come up with a new mortgage? Well, they already have a house for themselves. And then there’s someone who said, ‘Well, we don’t have the means to pay for a new home. Is the tribe going to buy my home?’” asks Hendricks.

That means the nation still must work through these scenarios and come up with individual solutions.

And that starts with a community-based plan.

“I had the chance to visit Quinault a year ago, and they are doing just amazing work on climate relocation and climate resilience,” said Bryan Newland, the Interior Department’s assistant secretary for Indian affairs. “It’s one of three communities that are going to serve as kind of pilot projects, if you will, on community driven relocation. And they’re just doing amazing work. I was really impressed by their foresight in their planning and how they are really thinking through a lot of issues that aren’t intuitive and working to address them. And so I’ve been really impressed. And, you know, we shouldn’t be surprised that when tribes have resources, they’re able to do very impressive things. And so I look forward to seeing where they’re going to take that.”

For now the bottom line is that the Quinault Nation is not sure where more than $450 million will come from to pay for this relocation.

But here’s the thing. The Quinault Nation is further along in this sort of planning than nearly every community on the planet. When we drove up the coast to get here, we passed through low-elevation towns and even cities that reflect the scale of the problem. And it’s clear that neither the region nor the country are penciling out what has to be done and what it will cost.

This story was originally published by Grist with the headline As sea levels rise, the Quinalt Nation moves to higher ground on May 12, 2024.

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A year in, New York’s pioneering public power law makes uneven progress

This story was originally published by Canary Media.

One year ago, New York state passed one of the country’s most ambitious clean energy and climate justice laws. The Build Public Renewables Act authorized the New York Power Authority, or NYPA — a state-owned public power utility — to build and own clean energy projects for the first time. If the state falls short of its ambitious climate goals, the law mandates that NYPA step up to build renewables that will keep the state on track. 

Heralded as a major win for environmental justice and climate advocacy groups, the law also introduced a program for low- and moderate-income residents to receive credits for clean energy produced by the public utility and allocated $25 million each year to renewable energy job training, among other measures.

But in the year since, progress on implementing the law has been spotty. Though NYPA says it has made carrying out the law a priority by laying the groundwork for future renewable power projects, activists and some policymakers say the utility has not been transparent in its planning thus far, making it hard to tell whether NYPA is on track to transform the state’s energy sector at the pace required by its 2019 climate law.

“The real problem is there is not sufficient transparency into what they are planning, so it’s hard for us to say how effective it is,” Michael Paulson, co-chair of the coalition Public Power NY, told Canary Media. 

Paulson’s group, along with the New York chapter of the Democratic Socialists of America, labor unions, and climate justice organizations across the state, campaigned for four years to pass the Build Public Renewables Act. An amended form of the law eventually made it into the state’s annual budget early last May. Activists hoped that strengthening the role of publicly owned power would enable a swifter expansion of cleaner, cheaper electricity — and create a structure that’s more accountable to consumers than the dominant investor-owned utility model.

Over the past 12 months, the authority has taken some initial steps toward working with private renewable energy developers. In January 2024, NYPA issued a request for information from developers and contractors to learn about opportunities for wind, solar, and battery energy storage projects. In March, the authority followed up with a request for qualifications to evaluate and prequalify renewable developers to work with on future projects, to which it received more than 85 responses. 

In January 2025, the power authority is required to publish a highly anticipated strategic plan, which will outline how and where the utility will develop renewable energy projects in a way that benefits disadvantaged communities and meets the state’s climate goals. ​“Our goal is to maximize the renewable generation we can bring online for New Yorkers,” Paul DeMichele, manager of media relations for NYPA, said in a statement to Canary Media.

But so far, advocacy groups and lawmakers heavily involved in the writing and passing of the legislation have criticized how NYPA has chosen to roll out the program. At a March 26 meeting of the authority’s board of trustees, NYPA President and CEO Justin Driscoll revealed that the organization has hired the consulting firm McKinsey to help implement the plan and ​“ensure our operating model internally and our internal governance around the buildout of renewables for the state.” DeMichele told the publication Hell Gate that ​“McKinsey was engaged, through an open bidding process, to help us better understand where private developers have been challenged while developing renewable projects.” 

Sarahana Shrestha, a Democratic member of the New York State Assembly and longtime advocate of the Build Public Renewables Act, told Hell Gate that ​“McKinsey’s way of doing business is the complete opposite of what we designed the bill for.” The consultancy has come under fire for its role in a corruption scandal with South Africa’s electric utility, among other high-profile issues. Shrestha and New York State Senator Michael Gianaris recently introduced a bill to require more frequent public reports and hearings on the authority’s implementation of the Build Public Renewables Act.

Meanwhile, the power authority will need to navigate the challenges facing the offshore wind industry — a pillar of the state’s mandate to meet 70 percent of its electricity needs with clean power by 2030. In recent months, at least five offshore wind projects in New York have been canceled due to rising costs and supply chain issues, casting doubt on the state’s ability to meet its decarbonization target. New York is currently on track to meet less than 57 percent of forecasted 2030 demand with renewable energy. 

To Public Power NY’s Paulson, the sector’s struggles are another reason to rely less on private developers and to strengthen the public power sector. ​“It’s becoming increasingly clear that the New York Power Authority and public power simply have to step up and play a significantly bigger role if we’re going to have any chance of reaching these legally mandated climate goals,” Paulson said.

This story was originally published by Grist with the headline A year in, New York’s pioneering public power law makes uneven progress on May 11, 2024.

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