Tag: Conservation

These were the 10 biggest greenhouse gas emitters in 2022

This story was originally published by Inside Climate News and is reproduced here as part of the Climate Desk collaboration.

Emissions from the largest greenhouse gas emitters in the U.S. were down slightly in 2022, but thousands of industrial facilities with substantial emissions remain, according to the Environmental Protection Agency’s recently released Greenhouse Gas Reporting Program data.

Emissions from large industrial sources decreased by approximately 1 percent to 2.7 billion metric tons of carbon dioxide equivalent in 2022, according to the annual update of emissions data released on October 5. The data represents emissions from 7,586 industrial facilities across nearly all sectors of the economy and represents about half of all U.S. emissions.

An Inside Climate News analysis of the data highlights the top 10 greenhouse gas emitters as well as the top emitter for each of six leading greenhouse gases: carbon dioxide, methane, nitrous oxide, hydrofluorocarbons, perfluorocarbons, and sulfur hexafluoride, the world’s most potent greenhouse gas. 

The assessment also identified top emitters of CO2 and methane, the two leading drivers of climate change, from each of several significant sectors of the economy for greenhouse gas emissions — refineries, steel mills, and liquified natural gas (LNG) export terminals and underground gas storage facilities. 

Some of the country’s largest climate polluters slashed their emissions in 2022 or said they are in the process of doing so, either voluntarily or by government mandate.

Moving off this year’s list was an underground natural gas storage facility, the Petal Gas Storage Compressor Station in Petal, Mississippi, a once-leading climate polluter that reduced its methane emissions by 91 percent from 2018 to 2022 and is no longer the highest emitter among gas storage sites. Other industrial facilities remained top polluters in 2022 but said they have reduced, or will reduce, their emissions by 99 percent or more by the end of this year. Still others reported their highest emissions yet in 2022.  

Here are the top 10 climate polluters in the nation, with their greenhouse gas emissions stated in metric tons (MT) as carbon dioxide equivalents (C02e):

1. Alabama Power’s James H. Miller Jr. coal power plant, Quinton, Alabama. Emissions: 21.8 million MT CO2e

2. Ameren’s Labadie coal power plant, Labadie, Missouri. Emissions: 15.9 million MT CO2e

3. DTE Energy’s Monroe fuel-oil power plant, Monroe, Michigan. Emissions: 14.9 million MT of CO2e

4. Vistra’s Martin Lake fuel-oil and coal power plant, Tantum, Texas. Emissions: 13.3 million MT of CO2e

5. Vistra’s Oak Grove coal and natural gas power plant, Franklin, Texas. Emissions: 12.7 million MT of CO2e

6. ExxonMobil’s Baytown Complex refinery and petrochemical plant, Baytown, Texas. Emissions: 12.6 million MT of CO2e

7. NRG Energy’s W A Parish natural gas and coal power plant, Thompsons, Texas. Emissions: 12.4 million MT of CO2e

8. FirstEnergy’s Harrison Power Station coal power plant, Haywood, West Virginia. Emissions: 11.7 million MT of CO2e

9. Wyoming Municipal Power Agency’s Laramie River fuel-oil and coal power plant, Wheatland, Wyoming. Emissions: 11.5 million MT of CO2e

10. Lightstone Generation’s General James M. Gavin coal and fuel-oil power plant, Cheshire, Ohio. Emissions: 11.3 million MT of CO2e.

A map of the top 10 greenhouse gas emitters in the US.
Inside Climate News

Here are the top emitters for each of the six leading greenhouse gases, listed from high to low in order of emissions: 

A. Carbon dioxide

For the eighth year in a row, the James H. Miller Jr. coal-fired power plant in Quinton, Alabama was the largest climate polluter in the nation with 21.6 million metric tons of carbon dioxide emissions in 2022. Alabama Power, the plant’s owner, was one of the lowest ranked utilities in a recent assessment by the Sierra Club of 77 utility companies.

Teisha Wallace, a spokesperson for Alabama Power, said nearly one-third of the electricity serving Alabama Power customers originates from clean fuel sources, primarily hydropower and nuclear energy. Wallace did not respond to questions about whether the company had any plans to retire the James H. Miller Jr. plant.

“Plant Miller is a key part of Alabama Power’s ability to dependably serve our customers,” Wallace said.

B. Methane

Consol Energy’s Bailey Mine in southwestern Pennsylvania was the largest point-source of methane pollution in the country for the second year in a row, with 101,000 metric tons of the potent greenhouse gas released in 2022. 

Methane is 81 times more effective than carbon dioxide at warming the planet over a 20-year period, making the Bailey Mine’s emissions equal to 8.2 million metric tons of carbon dioxide or the annual emissions of 1.8 million automobiles.

Consol captures and incinerates additional methane that would otherwise result in further emissions. The company earns carbon credits for its methane emission reductions from the Pennsylvania Mining Complex, a group of mines that includes the Bailey mine.

One challenge coal mines face with methane capture is that much of the gas escapes through the mines’ ventilation systems in concentrations below 2 percent, far too low to be flared. Consol recently partnered with the U.S. Department of Energy to test a new, low cost method to destroy this low concentration methane gas. Company executives did not respond to a request for comment

C. Nitrous oxide

Emissions of nitrous oxide, a greenhouse gas 273 times more potent than carbon dioxide on a pound-for-pound basis, were down 67 percent from 2021 at Ascend Performance Materials’ nylon plant near Pensacola, Florida following the installation of additional pollution controls at the facility. However, N2O emissions from the plant were still nearly twice that of any other facility in the country in 2022 and were equal to the annual greenhouse gas emissions of approximately half a million automobiles.

EPA says that the greenhouse gas emissions from the facility remain unverified for both 2021 and 2022 after the agency identified an error in the company’s report for each of the two years.  

“All data reported to the EPA was and remains accurate,” Osama Khalifa, a spokesperson for Ascend said.

Shayla Powell, a spokesperson for EPA, said the company was notified of the error for the 2021 report in 2022 but “has not responded to EPA’s notification nor resubmitted” its 2021 data since November 1, 2022.” 

Companies typically have 45 days to submit a revised greenhouse gas report to EPA, provide additional information about their reported emissions or request additional time to submit a revised report.   

Powell said that violations of reporting requirements may result in civil penalties but added that “EPA cannot comment on potential or future enforcement actions related to this facility.”

Khalifa maintained the accuracy of Ascend’s reported data saying “we look forward to the EPA re-reviewing our submissions and correcting the status of our facility at their earliest convenience.”

A paper published in the journal Nature Climate Change in July flagged nitrous oxide emissions from adipic acid plants like Ascend’s as having “untapped” and “low-cost” emissions reduction potential and called for “urgent abatement” at such facilities. Nitrous oxide is an unwanted byproduct in the production of adipic acid, a key ingredient in nylon 6,6, a highly durable plastic used in airbags and car tires. Nitrous oxide emissions are also the leading, ongoing source of atmosphere ozone depletion after more harmful chemicals were banned in recent decades under the Montreal Protocol, an international environmental agreement. 

Khalifa said Ascend continues to invest in reducing greenhouse gas emissions from all of its facilities with a goal of reducing 90 percent of companywide direct emissions by 2030.

A map of states with the largest emitters of six types of greenhouse gases.
Inside Climate News

D. Hydrofluorocarbons

Chemours’ Louisville Works was the highest emitter of hydrofluorocarbons in terms of carbon dioxide equivalents in 2022 with its release of 147 tons of HFC-23, a man-made, highly potent greenhouse gas that is an unwanted byproduct in the manufacturing of fluorinated chemicals. HFC-23 emissions from the Louisville Works were equal to the annual greenhouse gas emissions of approximately 480,000 automobiles.

EPA required U.S. chemical manufacturers including Chemours to use or destroy 99.9 percent of the HFC-23 it produces by October 2022.

Chemours subsequently sought and was granted a six-month extension of the October 2022 deadline. EPA spokesperson Shayla Powell said Chemours now appears to be meeting the emission reduction requirements.

“EPA expects that Chemours has been meeting the 0.1 percent  emission standard for HFC-23 since April 1, 2023, if not sooner,” Powell said in a written statement. “Chemours has reported required information concerning these HFC-23 regulations under [federal regulation] 40 CFR part 84 and EPA will assess compliance with the emission standard after the annual reports for calendar year 2023 are due.”

Cassie Olszewski, a spokesperson for Chemours, said the company aims to reduce its “fluorinated organic chemical” emissions by at least 99 percent by 2030. “The project at Louisville Works is an example of another action Chemours has taken as we work toward achieving our company-wide goals,”  she said.

E. Perfluorocarbons (PFCs)

A chemical plant owned by Daikin America in Decatur, Alabama emitted perfluorocarbons (PFCs) with a greenhouse gas equivalent equal to 714,265 tons of carbon dioxide in 2022, making the facility the largest PFC emitter in the country in terms of climate impact. 

The Decatur plant’s releases of perfluorocarbons in 2022, equal to the annual greenhouse gas emissions of nearly 160,000 automobiles, was the highest reported for the facility since Daikin began mandatory greenhouse gas reporting to the EPA in 2011.

The primary climate pollutant from the plant was perfluorocyclobutane (c-C4F8), a greenhouse gas 9,540 times more effective at warming the planet than carbon dioxide on a pound-for-pound basis. The 67 tons of perfluorocyclobutane released from the plant in 2022 will remain in the atmosphere for 3,200 years.

Emissions of the gas “essentially permanently alter Earth’s radiative budget and should be reduced,” according to a study published in the journal Atmospheric Chemistry and Physics in 2019. Perfluorocyclobutane is a byproduct of hydrochlorofluorocarbon HCFC-22 manufacturing, which is used to make polytetrafluoroethylene (PTFE), or “Teflon,” according to the study.

“We are currently embarking on our next phase of PFC containment at the Decatur plant by capturing perfluorocyclobutane and other greenhouse gas (GHG) emissions from process equipment and incinerating them,” Daikin America said in a written statement. “This work will start in 2024 and will be completed in 2025; targeting a 90 percent reduction of our largest GHG emission source (perfluorocyclobutane) by 2026.”

F. Sulfur hexafluoride

Metal recycler Advanced Magnesium Alloys Corporation (AMACOR), in Anderson, Indiana emitted more sulfur hexafluoride (SF6) than any other industrial facility in 2022. On a pound-for-pound basis, SF6 is 25,200 times more effective at warming the planet than carbon dioxide, making it the world’s most potent greenhouse gas. And unlike CO2, which remains in the atmosphere for roughly 300-1,000 years, SF6 sticks around, warming the planet, for 3,200 years.

AMACOR uses SF6 as a “cover gas” to create a protective barrier between the surrounding air and molten magnesium, which is highly reactive with oxygen and can burn if exposed to air. When the liquid metal cools, the sulfur hexafluoride is no longer needed. In 2022 the company released 11 tons of sulfur hexafluoride, climate pollution equal to the annual greenhouse gas emissions of 62,000 automobiles.

AMACOR is aware of the issue and has been working to transition to a different cover gas that is safe and effective for more than a decade. In 2008, the company hosted an EPA study that assessed potential alternatives. Now company officials say they are in the process of voluntarily transitioning to a new, climate friendly cover gas that they expect will reduce their carbon footprint by more than 99 percent by the end of the year.

“No one wants to use SF6,” Jan Guy, the owner and chief executive of AMACOR said. “One of the challenges for the industry has been finding a good alternative.”  

Here are the top emitters from important sectors of the economy for climate pollution — refineries, steel mills, liquified natural gas (LNG) export terminals and underground gas storage facilities:

A map of top CO2 and methane emitters
Inside Climate News

Carbon dioxide from refineries

Refineries that convert crude oil to gasoline and other fuels are, like vehicles on the road, a leading source of climate pollution related to transportation. ExxonMobil’s Baytown Complex in Baytown, Texas had the highest greenhouse gas emissions of any refinery in the U.S. with 12.5 million metric tons of carbon dioxide emissions in 2022.

The pollution was the highest annual volume of carbon dioxide emissions from the refinery since ExxonMobil began mandatory emissions reporting in 2010.  The 3,400-acre facility along the Houston Ship Channel released more than two times the greenhouse gas emissions of any other U.S. refinery. The climate pollution was equal to the annual emissions of 2.8 million automobiles, according to the EPA’s greenhouse gas equivalency calculator

Lauren Kight, a spokesperson for ExxonMobil, said the Baytown Complex emissions reported to the agency also include emissions from the company’s chemical plant and “olefins” plant co-located at the facility. Olefins are compounds used to make chemical products including plastics, synthetic fibers and rubber.

Kight did not respond to a request for an individual breakdown of greenhouse gas emissions from each sector of the Baytown complex. However, Kight said the company is working to reduce emissions at the facility.

“At Baytown, our emission-reduction plans include fuel switching to hydrogen, carbon capture and storage projects, renewable power purchase agreements and energy efficiency projects,” Kight said.

ExxonMobil’s proposed hydrogen project, in development with a consortium of companies, recently received up to $1.2 billion in federal funding.

Carbon dioxide from steel production

Steel manufacturing helps underpin the U.S. economy but is also a leading source of greenhouse gas pollution and toxic emissions that disproportionately impact environmental justice communities. U.S. Steel’s Gary Works, in Gary, Indiana was the largest greenhouse gas emitting iron and steel plant in the U.S. in 2022 with 10.3 million metric tons of carbon dioxide emissions, equal to the annual greenhouse gas emissions of 2.3 million automobiles.  

Amanda Malkowski, a spokesperson for U.S. Steel, said their Gary mill is the largest integrated iron and steel mill in the country and greenhouse gas emissions are proportional to the amount of iron and steel produced.

U.S. Steel announced an agreement with CarbonFree in March to capture and store 50,000 metric tons of carbon dioxide per year, about 0.5 percent of the facility’s total greenhouse gas emissions, beginning in 2025.

Carbon dioxide from LNG export terminals

Liquified Natural Gas (LNG) is often promoted as a clean-burning “bridge fuel” that can help developing countries wean themselves of dirty coal power while transitioning to renewables. Emissions of methane — the primary component of natural gas and a potent climate pollutant — throughout the fuel’s supply chain have largely debunked such “bridge fuel” claims. However, in addition to methane emissions associated with the fuel, LNG also has significant carbon dioxide emissions that go beyond the burning of the fuel by end users. To liquify natural gas, large amounts of energy are used to cool the gas to -260 degrees F, the point at which it becomes a liquid and takes up far less space. That energy typically comes from burning large amounts of natural gas, a process that results in significant carbon dioxide emissions. 

Cheniere Energy’s Sabine Pass facility was the largest greenhouse gas emitting LNG terminal in the U.S. in 2022 with 6.3 million metric tons of carbon dioxide emissions

Emissions from the facility, which Cheniere describes as “a marvel of modern infrastructure,” have climbed significantly nearly every year since the terminal came online in 2016 and are twice that of any other U.S. LNG terminal.  Carbon dioxide emissions from the Sabine Pass terminal in 2022 equaled the annual greenhouse gas emissions of 1.4 million automobiles, according to the EPA’s greenhouse gas equivalency calculator. 

Cheniere is now seeking federal approval to expand the Sabine Pass facility’s capacity by an additional two thirds of existing capacity and says the expansion would help to further displace the use of “coal and other more GHG [greenhouse gas] emission-intensive fuels” outside the U.S. Company officials declined a request for comment.

Methane from underground gas storage

Gulf South Pipeline Company’s Bistineau Station gas storage facility was the largest methane emitter among gas storage facilities in the U.S. in 2022, with 1,305 metric tons of methane released, equal to the annual greenhouse gas emissions of approximately 25,000 automobiles. The primary source of methane emissions reported from underground gas storage is from leaks in the compressors that pump gas in and out of the underground storage reservoirs.

The Petal Gas Storage facility in Petal, Mississippi was the largest methane emitter among underground gas storage facilities in 2021, but reduced its emissions by 91 percent from 2018 to 2022 by fixing or replacing leaky compressors. Both facilities are owned by the same parent company, Boardwalk Pipeline Partners. “We are currently in the process of making methane emission-reducing enhancements to the equipment at Bistineau,” Jillian Kirkconnell, a spokesperson for Boardwalk Pipeline Partners said. “This work is scheduled to be completed by the end of this year.”

This story was originally published by Grist with the headline These were the 10 biggest greenhouse gas emitters in 2022 on Oct 31, 2023.

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Major Rainforest Nations Agree to Work Together to Save Biodiversity

Two-thirds of the land-based biodiversity and 80 percent of the tropical forests in the world are located in three tropical forest basins: Congo, Amazon and Asia-Pacific. These rainforest ecosystems also provide the livelihoods for more than a billion people, a press release from WWF said.

Last week, government officials and heads of state met for three days in Brazzaville, Republic of Congo, for the Three Basins Summit to discuss collaboration on ending deforestation and protecting, restoring and sustainably managing these essential and irreplaceable ecosystems.

While the Three Basins nations agreed to cooperate on conservation, an official alliance was not formed, according to a press release from WWF.

“Tropical forests are rich in biodiversity and significant culturally and economically for people globally. But they continue to face threats from deforestation and forest degradation,” said Fran Price, WWF Global Forests Lead, in the press release. “The Three Basins Summit provided a good start on important discussions about the future of these forests and the solutions that are needed to address the challenges they face, but we are disappointed that it did not result in an Alliance of the three basins, as hoped.”

The summit, which concluded on Saturday, was hosted by the Republic of the Congo and was attended by NGOs, officials from the finance sector and technical experts, in addition to presidents and other government officials, reported Reuters.

“We’ve realised that joining forces is an absolute necessity, and we’ve recognised that the initiative to unite the three basins is part of an inevitable dynamic,” said Arlette Soudan-Nonault, environment minister for the Republic of the Congo, as Reuters reported.

Troves of plant and animal biodiversity and carbon sequestration, tropical forests are being destroyed at a rapid pace, releasing carbon dioxide and contributing to the climate crisis.

A report released last month by a group of environmental organizations showed deforestation worldwide increased four percent last year, moving further away from a commitment made to end forest loss and restore hundreds of millions of acres of degraded forest and terrestrial landscapes by 2030.

At the summit, policymakers and experts discussed their priorities, as well as possibilities for funding for the preservation of ecosystems in developing countries in the lead up to the UN COP28 climate talks next month in Dubai.

“We are encouraged by the commitments made at this summit. The governments of the three basins must now use this renewed momentum to foster concrete action to restore forests, bolster scientific and technical cooperation, stop and reverse biodiversity loss and adopt measures to address the climate crisis. These forests are essential for the livelihoods and cultural identity of tens of millions of Indigenous Peoples and local communities. The leadership of countries across the three basins will be key to ensuring we have a liveable planet for future generations,” said Dr. Martin Kabaluapa, WWF director for the Congo Basin, in the press release.

The Republic of the Congo signed a plan with the European Union for a partnership on forests with the goal of increasing the amount that is restored, protected or sustainably managed by 2030, which would reduce the rate of forest loss and create more jobs, reported Reuters.

Yustina Lina Dina Wambrauw, lecturer at State University of Papua, Indonesia, said collaboration with and input by Indigenous Peoples is essential to the preservation and maintenance of the region’s tropical forests.

“The protection of tropical rainforest ecosystems in the Three Basins will succeed if we include the Indigenous Peoples and local communities who live inside it as main actors. The forest is a sacred home for many Indigenous Peoples and local communities who have been managing it sustainably to live there for generations after generations. For Indigenous Peoples, the forest and the community are interconnected; therefore, the survival of our people is dependent on the longevity of the forest, the full cover of the rainforest canopy, and the availability of food and natural medicines that the forest provides,” Wambrauw said in the press release.

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Environmental Groups Launch Global Plastic Laws Database

A group of environmental organizations has produced the Global Plastic Laws Database, which is launching ahead of the next round of the United Nations Plastic Treaty negotiations in November.

The Global Plastic Laws Database will track plastic-related legislation around the world and allow researchers to study laws relating to all cycles of plastic production and consumption. It is designed specifically to help policymakers and organizations that want to create more effective laws on plastics.

The information in the database is separated into nine specific areas: design and reuse; extended producer responsibility; maritime sources; microplastics; production and manufacturing; reduction; transparency and traceability; waste management; and waste trade.

Currently, the Global Plastic Laws database contains up-to-date information on 1,194 plastic laws in about 115 countries globally. Database users can search for laws by the nine key topics as well as enacted date, a list of select keywords (such as “bags,” “cigarette butts” or “PFAS”), country or continent via an interactive map, or product type.

The database project is a collaboration between Plastic Pollution Coalition, which is managing the project, along with Break Free From Plastic Europe, Environmental Law Alliance Worldwide and Surfrider U.S.

While this project can help global organizations, researchers, educators, and companies research plastic legislation, it was launched to coincide with the ongoing UN negotiations to develop a global plastics treaty. The next set of negotiations are set to occur this November in Nairobi, Kenya. Ultimately, the UN plans to establish the legally binding treaty among 175 countries by the end of 2024.

“The Global Plastic Laws Database is an invaluable resource for use during the UN Plastics Treaty negotiation process by making plastic legislation across all jurisdictions visible and accessible to be adapted and input into the Treaty,” the Plastic Pollution Coalition shared in a statement. “Following agreement and adoption of the UN Plastics Treaty, the Database will be necessary to track and monitor its implementation.”

The UN has noted many reasons why adopting legislation on plastics is so urgent. Pew Charitable Trusts reported that about 11 million metric tons of plastics enter the oceans each year, and this amount could triple by 2040. According to a report from the Secretariat of the Convention on Biological Diversity, over 800 marine and coastal species are negatively impacted by plastics. 

By enacting plastic policies and moving to a circular economy, however, we could reduce the amount of plastics flowing into the oceans by 80% or more by 2040, reduce global greenhouse gas emissions by 25%, and boost economies and create more jobs, the UN reported.

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Scientists Find Two Ways That Hurricanes Rapidly Intensify

Rapidly intensifying hurricanes are some of the most frightening and destructive types of extreme weather. Predicting them has been notoriously difficult for forecasters who have been unable to fully understand why some tropical storms or tropical depressions that seem commonplace can suddenly turn into major hurricanes with devastating winds and deadly storm surges.

Now, researchers from the National Center for Atmospheric Research (NCAR) are beginning to unravel the mystery behind these deadly storms.

In a new study, they discovered there isn’t just one mechanism at work in a rapid intensification scenario, a press release from NCAR said.

The research team, led by NCAR scientist Falko Judt, used computer modeling to pinpoint two entirely separate types of rapid intensification, which could lead to better prediction and comprehension of these menacing storms. Rapid intensification is when hurricane winds increase by about 35 miles per hour within a 24-hour period.

“Trying to find the holy grail behind rapid intensification is the wrong approach because there isn’t just one holy grail,” Judt said in the press release. “There are at least two different modes or flavors of rapid intensification, and each one has a different set of conditions that must be met in order for the storm to strengthen so quickly.”

One of the modes of hurricane intensification happens when warm ocean surface temperatures — such as those that have become more common due to climate change — and low wind shear fuel a hurricane. This type of rapid strengthening happened with disastrous storms like Hurricanes Maria and Andrew.

Just this week, forecasters were taken aback when Hurricane Otis increased by 110 miles per hour in only 24 hours, making landfall in Mexico as a Category 5 storm.

The second rapid intensification mode identified by the researchers involves bursts of thunderstorms outside the storm’s center. The bursts set off a reconfiguration of the hurricane’s circulation that help it to quickly intensify to a Category 1 or 2 within hours. This mode usually occurs during unfavorable conditions like countervailing upper-level winds that blow the upper part of the storm in a different direction than the lower part.

“Those storms are not as memorable and they’re not as significant. But forecasters need to be aware that even a storm that’s strongly sheared and asymmetric can undergo a mode of rapid intensification,” Judt said in the press release.

The study, “Marathon versus Sprint: Two Modes of Tropical Cyclone Rapid Intensification in a Global Convection-Permitting Simulation,” was published in the journal Monthly Weather Review.

Judt came upon the modes of rapid intensification after producing a high-resolution computer simulation of the global atmosphere over 40 days, the press release said. To do so, Judt used the Model for Prediction Across Scales at NCAR.

Judt used the model to look at simulated storms that rapidly intensified. After examining a number of them in ocean basins across the globe, he noticed the two distinct ways rapid intensification occurred, which had not been apparent in earlier models.

The research team then sifted through real-world observations of tropical hurricanes and discovered actual instances of both rapid intensification modes.

“It was kind of a serendipitous finding,” Judt said in the press release. “Just by looking at the storms in the simulation and making plots, I realized that storms that rapidly intensify fall into two different camps. One is the canonical mode in which there’s a tropical storm when you go to bed and when you wake up it’s a Category 4. But then there’s another mode that goes from a tropical storm to a Category 1 or 2, and it fits the definition of rapid intensification. Since nobody has those storms on their radar, that mode of rapid intensification went undetected until I went through the simulation.”

It has been long established that certain environmental conditions are favorable to rapid intensification, including minimal wind shear and extremely warm water surface temperatures. These conditions can lead to a Category 4 or 5 hurricane with sustained winds of at least 130 miles per hour. The researchers called this mode of rapid intensification a “marathon” due to the storm continuing to intensify symmetrically at a pace that is moderate, while the main vortex amplifies steadily.

Judt said Hurricane Otis — the wind speed of which increased 80 miles per hour in 12 hours — was a fast marathon.

The team called the other rapid intensification mode a “sprint” since the intensification is fast, but does not usually last as long. Storms that intensify with this mode generally peak at Category 1 or 2 with sustained winds not exceeding 110 miles per hour.

The study said the two modes could be on either end of a spectrum, with many incidents of rapid intensification in the middle.

Judt said an inquiry for future study is why thunderstorm bursts can lead to about 10 percent of the storms in an environment that is not conductive to rapidly intensify, when the remaining 90 percent do not.

“There could be a mechanism we haven’t discovered yet that would enable us to identify the 10 from the 90,” Judt said in the press release. “My working hypothesis is that it’s random, but it’s important for forecasters to be aware that rapid intensification is a typical process even in an unfavorable environment.”

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Conservation in the 21st century means looking beyond the environment

To combat the biodiversity crisis, the Sierra Club supports establishing a national goal to conserve at least 30 percent of U.S. land, and 30 percent of U.S. ocean areas by 2030. Known as the 30×30 Agenda, this campaign has the potential to not only benefit wildlife, but improve outdoor equity and expand representation of historically marginalized groups on public lands. This three-part series explores the potential implications of such measures from locations across the country.

Growing up in the shadows of the Castner Range near El Paso, Texas, Ángel Peña saw the mountain range on his way home from elementary school every day. Where Mexican yellow poppies once bloomed every spring, he watched developments rise, with the high desert shrinking by almost half over the course of his lifetime. 

Now the executive director of the non-profit Nuestra Tierra Conservation Project, he says, “I grew up there on Dyer Street, near the range, and never really understood its importance until I became an adult, and until I became a parent.”

For decades, local activists like Peña have organized to try to protect the remaining ecosystem as a national monument. He’s now leading Nuestra Tierra’s “Protect Castner” campaign, which emphasizes both the landscape and the unique multiculturalism that comes with it. 

The area is predominately Hispanic, and home to many immigrants. The community holds strong ties to their Chihuahuan landscape, which has defined many families on the Frontera since before the Castner Range was given to the U.S. military in 1939. 

Under its ownership, citizens couldn’t visit the range, and residents feared the constant threat of the Department of Defense selling the land to the highest bidder. People like Peña argued that by protecting the nearby desert, the area could increase outdoor accessibility for this underprivileged community.

Hopes surged when in Biden’s first few weeks in office, he signed an ambitious executive order, announcing a national goal of protecting a third of the country’s lands and oceans by 2030. He also launched the Justice 40 initiative, which aims to help marginalized communities through investment in climate-resilient infrastructure. The orders aimed to not only reduce climate impacts but strengthen cultural connections to wild places. This March, the Biden administration officially designated the Castner Range, along with Avi Kwa Ame in Nevada, as monuments.

President Joe Biden delivering a speech at Conservation Action Summit 2023
President Biden announces the Avi Kwa Ame National Monument and the Castner Range National Monument in March 2023. Kevin Dietsch / Getty Images

The timing couldn’t be more urgent. Throughout the Southwest, landscapes are urbanizing, and finding places to get outside has become more difficult. “There is a huge lack of access to natural places, especially if you live in a bigger city,” said Skylar Begay, the director of tribal collaboration and outreach at Archaeology Southwest, a non-profit preservation group based in Tucson, Arizona.

Begay also highlights the ways class and climate injustice intersect, explaining how people from low-income communities bear the brunt of climate change. “Economic status plays a big part in access to these places,” Begay adds, citing city greenery structures as an example. “A lot of green spaces are in affluent places, and in the poorest parts of the city where a lot of marginalized communities often live, there are not even sidewalks, trees along the road, or access to shade.” 

Physical inequalities within urban spaces are compounded by the expense it can take to get outside into wilderness. “In a lot of places, the activities you do outdoors require a big investment in gear, like snowsports,” Begay explains.

For communities who have lived and cultivated on these lands for centuries, the lack of accessibility prevents them from preserving their cultural traditions and architecture. This is the case for the Great Bend of the Gila, a sprawling stretch of the Sonoran desert that extends through rural Arizona, creating uneven mountains between the cities of Yuma and Phoenix. The land holds thousands of historical petroglyphs, some of which date back as early as 1699.

Today, thirteen nationally recognized tribes in the region have connections to the area, but as Phoenix expands, the desert is disappearing. Even though it is under federal stewardship, Begay says it needs to be better protected. “The Bureau of Land Management (BLM) manages its lands for multiple uses and sustained yield. There is a chance that these lands could be used for extraction and resource purposes,” Begay explains. Allowing mining in the area would cause the area to transition from something that “contributes to the climate crisis, rather than slows it down,” he adds.

Begay hopes to increase tribal involvement in how this land is managed. Advocates like the non-profits Respect Great Bend and Archeology Southwest are working to influence BLM decisions about the land. Their hope is that the land will eventually also be designated as a national monument. 

As local campaigns for monuments finally succeed, thinking about ways that cultural values can be included in land management is a top priority for these communities. In a region like El Paso, Texas, and its neighboring urban area, Ciudad Juarez, Mexico, the Castner Range symbolizes the coveted “American dream,” Peña says. As something you can see from across the southern border, he explains “The mountain signified opportunity, an opportunity to put your family in a better place.” 

While it took over 50 years to get the range protected, Peña says, “Now that we have a star on the map, we can begin to really tell the full story of our landscapes and our community.”


Scientists say we need to safeguard 30 percent of America’s land by 2030 to avoid mass extinction and climate catastrophe. The U.S. ranks as one of the top countries in the world when it comes to wilderness-quality land. Right now, roughly 12 percent of that is protected land—and the Sierra Club has played a role in saving nearly all of it. That means we have to protect more lands in the next decade than we did in the last century. With an ambitious agenda and strong local advocacy, we can still conserve much of these natural areas. Every acre counts. 

This story was originally published by Grist with the headline Conservation in the 21st century means looking beyond the environment on Oct 30, 2023.

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Lawn equipment spews ‘shocking’ amount of air pollution, new data shows

Lawn care equipment — leaf-blowers, lawnmowers, and the like — doesn’t top most people’s lists of climate priorities. But a new report documents how, in aggregate, lawn care is a major source of U.S. air pollution. 

Using the latest available data from the Environmental Protection Agency’s 2020 National Emissions Inventory, the report found that the equipment released more than 68,000 tons of smog-forming nitrous oxides, which is roughly on par with the pollution from 30 million cars. Lawn equipment also spewed 30 millions tons of climate-warming carbon dioxide, which is more than the total emissions of the city of Los Angeles.

“When it comes to these small engines in lawn and garden equipment, it’s really counterintuitive,” said Kirsten Schatz, the lead author of the report and a clean air advocate at Colorado PIRG, a nonprofit environmental organization. “This stuff is really disproportionately causing a lot of air pollution, health problems and disproportionately contributing to climate change.”

Lawn equipment also contributed to a litany of other air toxics, such as formaldehyde and benzene, according to the report, which is titled “Lawn Care Goes Electric.” But perhaps the most concerning pollutant it releases is the fine particulate matter known as PM2.5. 

PM2.5 is far smaller than the width of a human hair and can lead to health problems ranging from cancer, reproductive ailments, and mental health problems to premature death. The report found that gas-powered lawn equipment belched 21,800 tons of PM2.5 in 2020 — an  amount equivalent to the pollution from 234 million typical cars over the course of a year.

That outsize impact comes because gas-powered lawn equipment runs on different types of engines than passenger cars. They are smaller — coming in two- and four-stroke versions, which reference the differences in the engines’ combustion cycles — and are generally less efficient, with two-stroke engines being particularly problematic because they run a mix of lubricating oil and gasoline.

“[This] really inefficient engine technology is pound for pound more polluting than the cars and trucks,” said Schatz. “Outdoor equipment generates a pretty shocking amount of pollution.”

Emissions also vary widely by state. California and Florida ranked highest for carbon dioxide emissions from lawn equipment, while Florida and Texas topped the list of PM2.5 pollution. While one might expect the sheer amount of lawn care in California, the most populous U.S. state, to rank it higher on PM2.5 pollution, it only comes in 29th. Lower two-stroke engine use accounts for the gap between the state’s carbon and particulate emissions, according to Tony Dutzik, a senior policy analyst at Frontier Group and contributor to the report.

He explained that nationally, two-stroke engines are responsible for 82 percent of PM2.5 from lawn equipment but in California it’s only 41 percent. Researchers are not exactly sure why the use difference is so stark, but one theory is that California’s history of regulating small engines is paying off. 

“California has consistently led on [small engine] emission standards since the mid-1990s,” said Dutzik. That leadership is ongoing: A statewide ban on small off-road engines, including lawn equipment, is set to go into effect next year. Schatz argues that the rest of the country should follow California’s lead and promote electric alternatives that run on rechargeable batteries.

“We have so many cleaner, quieter electric alternatives available now,” said Schatz. “Battery technology has come a long way.”

Many states and municipalities offer rebates on battery-powered lawn equipment, and more people are making the switch. That’s true even in the commercial lawn-care sector, which is responsible for the bulk of emissions but is more difficult to electrify because companies often need more powerful machines, with longer runtimes, than residential users. 

Kelly Giard started the Clean Air Lawn Care company in 2006, at a time when he said the technology for commercial work was “limited.” But that’s rapidly changing and it’s helped his company grow. His franchisees now serve roughly 10,000 customers across 16 states. 

“At this point,” said Girard of the performance of his electric fleet, “it’s very comparable to gas.”

This story was originally published by Grist with the headline Lawn equipment spews ‘shocking’ amount of air pollution, new data shows on Oct 30, 2023.

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The post Earth911 Podcast: Guidehouse Insights’ Sam Abuelsamid Maps the Future of EV Battery Innovation appeared first on Earth911.

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