environment

Mining with plants

February 21, 2025 By EarthWise Leave a Comment

Plants absorb nutrients and minerals from the soil as they grow and incorporate them into their leaves and stems. Such plants can be used to remove toxic elements from soil. Cleaning soil in this way is called phytoremediation.

Researchers at the University of Massachusetts Amherst are trying to go beyond phytoremediation and do phytomining, in which hyperaccumulated minerals from the soil can be harvested from plants for use in industrial or manufacturing applications.

One mineral that is critically needed for modern technology is nickel. There are trace amounts of nickel in nearly one million acres of topsoil in the US, making the soil inhospitable for most crops, but the economics and environmental impact of extracting it make doing it impractical.

A common plant, Alyssum murale, is a nickel hyperaccumulator; in fact, up to 3% of the plant’s biomass can be made up of nickel. But the plant is slow-growing and difficult to manage and is also considered an invasive species

Another common plant, Camelina sativa, does not have the downsides associated with Alyssum and is also a rich source of valuable biofuel. The Amherst researchers are working to determine which genes and proteins are responsible for Alyssum’s nickel hyperaccumulation and hope to genetically engineer Camelina sativa to have the same ability.

The researchers believe there is enough nickel in barren soil in the US to supply 50 years of phytomining. It wouldn’t supply all the nickel the economy needs, but it could account for 20 to 30 percent of the projected demand.

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Scientists at UMass Amherst Engineer Plant-based Method of ‘Precious’ Mineral Mining

Photo, posted July 10, 2017, courtesy of Matt Lavin via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Soaring coffee prices

February 20, 2025 By EarthWise Leave a Comment

Wholesale coffee prices hit record highs in the midst of the Trump administration’s deportation and tariff dispute with Colombia. But coffee prices have already been trading near 50-year highs for a while as a result of shortages related to extreme weather and increased global demand.

In recent years, repeated droughts and flooding have put pressure on the global supply of coffee. These climate swings have caused prices to soar, much as they have for other staples like cocoa, olive oil, and orange juice. All the while, the global demand for coffee has kept rising.

Coffee is one of the world’s most consumed beverages, but it can be grown only under very specific conditions, namely in misty, humid, and tropical climates, and in rich soil free of disease. The United States imports nearly all of its coffee – there is only a small amount grown in Hawaii. Otherwise, the US is the world’s largest coffee importer. With a limited number of sources for the beans, global coffee prices are very susceptible to the effects of extreme weather.

More than half of the world’s coffee production comes from arabica beans, and Brazil is the largest exporter. A severe drought there this summer devastated the harvest that typically runs from May to September. In Vietnam, a severe drought followed by heavy rains harmed the world’s largest source of robusta, the second most popular coffee variety.

People tend to think of coffee as a commodity and not so much as an agricultural product, subject to the vagaries of weather and having prices that fluctuate accordingly. The bottom line is that drinking coffee is likely to become a bigger strain on one’s own bottom line.

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Why Coffee Prices Are Soaring (Again)

Photo, posted October 13, 2023, courtesy of Pete via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Vertical-axis wind turbines

February 19, 2025 By EarthWise Leave a Comment

Nearly all wind turbines in use today are horizonal axis wind turbines. They are a familiar sight with their three giant rotor blades spinning about an axis high above the ground attached to a nacelle containing the gearbox and generator.

A vertical-axis wind turbine has its rotor shaft transverse to the wind; that is, the shaft rises up from the ground and the gearbox and generator are located close to the ground.

This type of wind turbine does not need to be pointed into the wind, which eliminates the need for wind-sensing and orienting mechanisms. It is also considerably quieter in operation than horizontal axis wind turbines. Vertical-axis wind turbines have enjoyed minimal success to date because of a variety of problems including reliability issues and complications related to how they respond to changing wind conditions.

A next-generation vertical wind turbine is going on trial in Australia as part of a research collaboration between Flinders University in South Australia and the start-up company VAWT-X Energy. The 6KW prototype will be installed at a field site in Australia’s Fleurieu Peninsula.

According to the developers, the new turbine design will be as efficient, or even more efficient, as existing horizontal turbines and will be able to thrive across diverse environments including being part of urban infrastructure where their relative quiet is a real advantage. Such turbines would be more accessible for applications like off-grid power and sustainable energy solutions for small businesses and farms. The developers claim the technology can also be scaled up for large-scale windfarms.

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Progress with new-look wind turbine

Photo courtesy of VAWT-X Energy.

Earth Wise is a production of WAMC Northeast Public Radio

Thawing permafrost in the Arctic

February 18, 2025 By EarthWise Leave a Comment

Permafrost covers about a quarter of the landmass in the Northern Hemisphere. It stores vast quantities of organic carbon in the form of dead plant matter. As long as it stays frozen, it is no threat to the climate. But as permafrost thaws, microorganisms start breaking down that plant matter and large amounts of carbon are released into the atmosphere in the form of carbon dioxide and methane.

Scientists estimate that there could be two and a half times as much carbon trapped in Arctic permafrost as there is in the atmosphere today.

Thawing permafrost poses various risks to the Arctic environment and the livelihoods of its people. According to a new study led by researchers from the University of Vienna in Austria, Umeå University in Sweden, and the Technical University of Denmark, thawing permafrost threatens the way of life of up to three million people.

To identify these risks, the research team studied four Arctic regions in Norway, Greenland, Canada, and Russia between 2017 and 2023. The research, which was recently published in the journal Communications Earth and Environment, identified five key hazards posed by the thawing permafrost: infrastructure failure, disruption of mobility and supply, decreased water quality, challenges for food security, and exposure to diseases and contaminants.

These are present developments – not future dangers. Global scientific cooperation, policy interventions, and investment in research are critical to mitigate the impact of thawing permafrost and address the broader consequences it brings.

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A transdisciplinary, comparative analysis reveals key risks from Arctic permafrost thaw

Thawing permafrost threatens up to three million people in Arctic regions

Photo, posted February 9, 2017, courtesy of Benjamin Jones / USGS via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Electricity demand from data centers

February 17, 2025 By EarthWise Leave a Comment

Data centers are dedicated facilities containing computers and their related hardware equipment such as servers, data storage drives, and network equipment; they are the physical facilities that store digital data. Data centers are one of the most energy-intensive building types, consuming 10 to 50 times more energy per floor space than a typical commercial office building. With the explosive growth of artificial intelligence technology, data center energy use is expanding rapidly.

A new report by the Department of Energy’s Lawrence Berkeley National Laboratory outlines the energy use of data centers from 2014 to 2028. The report estimates that data center load growth has tripled over the past decade and is likely to double or triple again by 2028.

Data centers consumed about 4.4% of total U.S. electricity in 2023 and are projected to consume between 6.7% and 12% of total U.S. electricity by 2028. Most of the increased power demand of data centers is due to the growth in AI servers. Artificial intelligence requires increasingly powerful chips and intense, power-hungry cooling systems.

There have been revolutionary changes in artificial intelligence technology in just the past couple of years and its role in society has dramatically expanded. With that expansion has come a dramatic change in the energy usage by the data industry and innovative solutions are needed to allow data centers to meet their growing demand for energy.

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Berkeley Lab Report Evaluates Increase in Electricity Demand from Data Centers

Photo, posted August 31, 2024, courtesy of Aileen Devlin / Jefferson Lab via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The warmest year on record

February 14, 2025 By EarthWise Leave a Comment

It came as no surprise that 2024 ended up as the warmest year on records. It was the hottest year since record keeping began in 1880. The global average temperature was 1.28 degrees Celsius (or 2.3 degrees Fahrenheit) above the 20th-century baseline period of 1951-1980. It was actually 1.47 degrees above the 1850-1900 average.

The Paris Climate Agreement has a goal to keep the global average temperature increase below 1.5 degrees Celsius over the long term. Long term is specified because for more than half of 2024, average temperatures were more than 1.5 degrees above the baseline.

The temperature of an individual year can be influenced by various natural climate fluctuations, such as the presence of an El Niño or a La Niña condition in the Pacific, or volcanic eruptions. A strong El Niño began in 2023 and continued throughout much of 2024. That El Niño has abated, so it is no longer a factor in the global climate condition.

The global temperature is determined using surface air temperature data collected from thousands of meteorological stations as well as sea surface temperature data collected by ships and buoy-based instruments.

When the climate changes, it is observed first in the global mean temperature. Then there are changes seen on a continental scale and then at the regional scale. Finally, changes are observable at the local level. These changes are becoming more and more common as people’s everyday weather experiences become different from any they had encountered before.

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2024 Was the Warmest Year on Record

Photo, posted August 26, 2015, courtesy of Saskia Madlener / NASA via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Empire Wind moves forward

February 13, 2025 By EarthWise Leave a Comment

Empire Wind 1, the first offshore wind project that will connect to the New York City grid, has received the financing needed to move forward. Equinor, the Norwegian state-owned multinational energy company developing the project, closed on a more than $3 billion financing package.

The wind farm will span 80,000 acres in an area 15-30 miles southeast of Long Island. When completed, it will have a capacity of 810 megawatts. Equinor has executed a Purchase and Sale Agreement with the New York State Energy Research and Development Authority to purchase power from Empire Wind 1 for 25 years at a strike price of $155/MWh. The operations and maintenance hub for Empire Wind 1 will be at the South Brooklyn Marine Terminal. Commercial operation is expected by 2027.

The previously-planned Empire Wind 2 project was terminated a year ago because of inflation, interest rates, and supply chain disruptions. More broadly, the U.S. offshore wind industry has been struggling for the past year.

With the return of President Donald Trump to the White House, there is much greater uncertainty facing the industry. As a result of the election, Attentive Energy, a planned 3-gigawatt wind project off the coasts of New York and New Jersey has been put on pause. Trump’s public disdain for offshore wind energy is likely to create a major slowdown in the growth of the offshore wind pipeline. On the other hand, the new administration is less likely to have much influence on projects already in progress including 4 gigawatts under active construction and more than 50 gigawatts in other stages of development.

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Empire Wind 1 secures $3B+ financing package, enters ‘full execution mode’

Photo, posted May 2, 2022, courtesy of California Energy Commission via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Native plants and road salt pollution

February 12, 2025 By EarthWise Leave a Comment

Applying salt to roadways lowers the freezing point of water and prevents slippery surfaces, which makes it safer for people to drive in wintry conditions. In the U.S., more than 22 million tons of road salt is spread every year.

But road salt harms infrastructure and the environment. In fact, road salt damages cars and metal infrastructure by accelerating rust and corrosion. Road salt can also leach into soil and waterways, disrupting ecosystems, degrading soil, contaminating water, and damaging vegetation.

In cities and towns, road salts often wash into stormwater systems, posing health concerns and challenges for infrastructure.

A new study led by researchers from Virginia Tech looked at how salt affects plants and whether certain plants could mitigate salt pollution. The research team studied stormwater detention basins in Northern Virginia, examining the impacts of road salt on plants, soils, and water quality in green infrastructure systems.

The findings, which were recently published in the journal Science of the Total Environment, found that the amount of salt present in green infrastructure systems does reach levels that threaten plant communities. However, the researchers found that relying on salt-tolerant plants for mitigation is unlikely to be effective because they simply don’t take in enough salt.

Certain plants, particularly cattails, absorbed substantial amounts of salt. But even in a basin densely planted with salt-tolerant cattails, only up to 6% of the road salt applied during winter could be removed.

Plants alone cannot solve our salt pollution problem.

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Researcher studies the power of native plants to combat road salt pollution

Photo, posted January 22, 2025, courtesy of the City of Greenville, North Carolina via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

A green battery from industrial waste

February 11, 2025 By EarthWise Leave a Comment

Flow batteries are rechargeable batteries in which liquid electrolytes flow through one or more chemical cells from one or more tanks. The electrolytes are redox pairs, that is, chemical compounds that can reversibly undergo reduction and oxidation reactions. The most common redox electrolytes include elements like vanadium, chromium, iron, zinc, and bromine. Flow batteries can provide large amounts of both electrical power and stored energy based on the size of the electrolyte tanks. As a result, they can be scaled up far more readily than other battery technologies.

Flow batteries are safe, stable, long-lasting, and their electrolytes can easily be refilled. They have significant potential for use in utility-scale storage for renewable energy systems.

Researchers at Northwestern University have developed a redox flow battery based on an organic industrial-scale waste product. The material – triphenylphosphine oxide or TPPO – is produced in the thousands of tons each year. It is byproduct of producing a variety of substances including some vitamins, pharmaceuticals, agrochemicals, and other bulk chemicals. For the most part, TPPO is of little use and must be carefully discarded.

The current market for redox flow batteries is very small but is expected to grow over time as the need for utility-scale energy storage continues to expand. A battery technology based on a waste material that is already produced in high volume and that must otherwise be disposed of with caution would have significant advantages.

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Green battery discovery turns trash into treasure

Photo, posted January 12, 2015, courtesy of California Energy Commission via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Cold spells and global warming

February 10, 2025 By EarthWise Leave a Comment

January saw some major bouts of subfreezing temperatures across much of North America and significant snowfall in places like Pensacola, Florida and New Orleans. This spate of frigid weather undoubtedly prompted many people to question whether global warming is really happening. But such cold spells quite likely are not happening in spite of global warming, but actually as a result of it.

The polar jet stream is a slim band of westerly winds that circles the Arctic. It is formed where cold air from the north meets warmer air to the south. As the planet warms, the Arctic has been heating up nearly four times faster than the rest of the planet, which narrows the difference in temperature between the northern air and southern air. The result is that the jet stream is weaker and more meandering, which allows frigid air to reach further south.

The polar vortex is a whirling mass of cold air that extends across the Arctic. It is stronger in the winter when the Northern Hemisphere leans away from the sun. The polar jet stream normally holds on to the vortex and keeps it far to the north. But when the jet stream gets wobbly, this mass of cold air can break out and travel south, even to places like Florida, Louisiana, and Texas.

The planet as a whole is warming, and the Arctic is warming even faster. But there will still be plenty of ice, snow, and frigid air in the Arctic winter for decades to come. As the behavior of the polar jet stream gets increasingly erratic, there may well be more frequent episodes of plunging temperatures in areas unaccustomed to them.

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Severe Cold Spells May Persist Because of Warming, Not in Spite of It

Photo, posted January 5, 2025, courtesy of Dermot O’Halloran via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Drying rivers and hydropower

February 7, 2025 By EarthWise Leave a Comment

A decade ago, Ecuador began a major transition to using hydroelectric power. Like in many other South American countries, the presence of abundant rivers could supply large amounts of energy and drive economic expansion and lead to a new era of prosperity.

This ambitious plan has run into the impacts of climate change. An extraordinary drought has engulfed much of South America, drying rivers and reservoirs, and has put Ecuador’s power grid on the brink of collapse.

Since September, daily energy cuts in Ecuador have lasted as long as 14 hours. An industry group says that the nation is losing $12 million in productivity and sales for every hour the power is out. Just a few years ago, Ecuador was making great strides in reducing poverty. Now, as the energy crisis has increased its grip on the country, much of what was achieved is being lost.

Ecuador’s situation is not unique. In recent years, abnormally dry weather in multiple places has resulted in extreme low water levels in rivers, reducing hydropower resources in Norway, Canada, Turkey, and even rainforest-rich Costa Rica.

Overall, more than one billion people live in countries where more than half of their energy comes from hydroelectric plants. With a warming climate and increasing incidence of extreme weather events like drought, it is likely that hydropower will become a less reliable energy source. More than a quarter of all hydroelectric dams are in places with a medium to high risk of water scarcity by 2050.

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The Rivers Run Dry and the Lights Go Out: A Warming Nation’s Doom Loop

Photo, posted January 15, 2020, courtesy of Pedro Szekely via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The human footprint on Earth

February 6, 2025 By EarthWise Leave a Comment

The Earth is a pretty big place, and it is easy to think that humans and their activities occupy very little of it. But the impact of human activities on our planet continues to grow. Recent satellite images from NASA’s Earth Observatory show the staggering extent of the human footprint on Earth.

Agriculture is a major part of it. Farms and pastures take up almost half of the world’s habitable land – land not covered by ice or desert. Greenhouses have recently proliferated tremendously and now cover 3.2 million acres, an area the size of Connecticut, and they even have effects on local climates.

More than half of the world’s population now lives in cities, which are expanding rapidly. Enormous cities in Asia are changing the landscape in places like Thailand and Indonesia. Apart from taking up lots of land, many of the world’s cities are immersed in clouds of air pollution that they generate.

Greenhouse gas emissions continue to grow, and temperatures continue to rise. The effects of this on the planet are increasingly evident. Seas are rising, ice is melting, glaciers shrink away, and wildfires continue to burn. The massive wildfires in and around Los Angeles have made major changes in the local landscape. Rising seas have flooded coastal wetlands and elsewhere, rivers and lakes have shrunk.

There are also human impacts visible from space that represent positive signs. Large solar arrays supply the cheapest form of energy in most parts of the world and the number and size of solar installations are at a record high. These solar installations provide some hope that global warming can be slowed.

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The Growing Human Footprint on Earth, as Seen from Space

Photo, posted July 28, 2012, courtesy of Beth Scupham via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

The year in energy

February 5, 2025 By EarthWise Leave a Comment

Last year saw some major trends in the global energy sector. Perhaps the most dramatic was the shift to renewable power, which continued to outpace the projections of both financial analysts and industry experts. 2024 saw new highs in renewable installation, largely due to China, which accounted for more than half of all the solar power installed globally. Huge solar installations also came online in California and Nevada during the year. On the other hand, the amount of coal burning for the year also exceeded expert predictions, also largely due to China.

A second trend was increasing sales of electric vehicles, which reached a new high, although short of expectations. A major driving force in EV sales is the dropping price of lithium-ion batteries, which fell by 20% in 2024. Again, China was a major factor with roughly half of all its domestic vehicle sales being electric.

Coal’s decline is being slowed by the rising demand for electricity. The increased use of electric heating and cooling along with the increasing use of EVs are major factors. But the proliferation of energy-hungry data centers incorporating artificial intelligence capabilities is driving up the demand for power even more.

Perhaps the clearest indication of the future for global energy comes from investors, who put about $2 trillion into clean energy last year. That is twice as much as invested in oil, coal, and natural gas.

The history of energy has seen the Age of Coal and the Age of Oil. By all indications, we are now heading into the Age of Electricity.

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The Year in Energy in Four Charts

Photo, posted November 23, 2024, courtesy of Mussi Katz via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Storing carbon in buildings

February 4, 2025 By EarthWise Leave a Comment

According to a new study by researchers at the University of California, Davis and Stanford University, construction materials used in buildings have the potential to lock away billions of tons of carbon dioxide. The study, published in Science, shows that storing CO2 in buildings could be a major contributor to efforts to reduce greenhouse gas emissions.

Overall efforts in carbon sequestration take carbon dioxide – either as it’s being produced or once it’s already in the atmosphere – and store it away. Storing it might involve injecting it into underground caverns or deep in the ocean. Alternatively, storing it might involve converting it into a stable form using chemical reactions. These various strategies involve both practical challenges and potential environmental risks.

The new study suggests that many materials that are already produced in large quantities have the potential to store carbon dioxide. These include concrete, asphalt, plastics, wood, and brick. More than 30 billion tons of these materials are produced worldwide every year.

Ways to accomplish carbon storage include adding biochar into concrete, using artificial rocks loaded with carbon as concrete and asphalt aggregates, plastic and asphalt binders based on biomass instead of petroleum, and including biomass fiber into bricks.

The largest potential is using carbonated aggregates to make concrete. Concrete is by far the world’s most popular building material with more than 20 billion tons being produced each year.

The feedstocks for these ways to store carbon in building materials are mostly low-value waste materials, so the economics of implementing these carbon sequestering strategies are likely to be quite favorable.

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Storing Carbon in Buildings Could Help Address Climate Change

Photo, posted October 19, 2022, courtesy of Alexandre Prevot via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Curbing food waste

February 3, 2025 By EarthWise Leave a Comment

According to the U.S. Department of Agriculture, as much as 40% of the food supply in the United States is wasted. In fact, Americans generate more food waste than all but two countries.

To address this problem, the federal government announced a goal nearly a decade ago to cut food waste in half by 2030 compared to 2016 levels. Doing so would bring food waste down to approximately 164 pounds per person annually.

However, according to a new study led by researchers from the University of California – Davis, since 2016, per capita food waste has actually increased instead of decreasing.

The study, which was recently published in the journal Nature Food, looked at how state policies align with federal targets. The research team found that state policies focus more on recycling methods, such as composting and anaerobic digestion, rather than on prevention and rescue strategies, like food donations or repurposing food for animal feed.

In 2021, the EPA revised its definition of food waste to no longer include recycling methods. But when food is wasted, the resources used to grow the food, including energy, water, and fertilizer, are also wasted.

In the study, the researchers analyzed state-level food waste reduction efforts across four areas: prevention, rescue, repurposing, and recycling. They found that recycling policies offered the most potential for diversion. Despite this, most states still fell short of the federal goal of 164 pounds per person annually.

According to the research team, more comprehensive policies to address food waste must be implemented as soon as possible.

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States Struggle to Curb Food Waste Despite Policies

Photo, posted June 28, 2021, courtesy of Ivan Radic via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Climate risks for apple-growing areas

January 31, 2025 By EarthWise 2 Comments

The changing climate is creating challenges for some of the most productive apple growing regions in America. A study by Washington State University analyzed over 40 years of climate conditions that impact the growth cycle of apple trees.

Many growing areas face increased climate risk, but the top three apple-producing counties are among the most impacted. Yakima County in Washington is the country’s largest apple producer with more than 48,000 acres of apple orchards. Kent County in Michigan and Wayne County in New York (located east of Rochester) are the next two largest.

The study looked at six metrics that affect apple production. Two of these metrics relate to extremes: extreme heat days (with temperatures above 93 degrees) that can cause multiple problems and warm nights (with minimum temperatures above 59 degrees) that adversely affect coloration.

Other metrics included the number of cold days, the last day of spring frost, and the number of growing degree days, which are the number of days above a certain temperature that are conducive for apples to grow.

Changes to these metrics can impact apple production, change the time when apple flowers bloom, increase risk of sunburn on apples, and affect apple appearance and quality. In many places, nearly all of these metrics are changing in an undesirable direction.

Apples are the most consumed fruit in the United States. 27,000 American producers supply an industry with a downstream value of $23 billion. Apples are a big deal.

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Prime apple-growing areas in US face increasing climate risks

Photo, posted August 8, 2020, courtesy of Sue Thompson via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Hydroclimate whiplash

January 30, 2025 By EarthWise Leave a Comment

Hydroclimate whiplash is a term that describes rapid swings between intensely wet and dangerously dry weather. Global weather records show that the occurrence of hydroclimate whiplash has increased by 31% or as much as 66% since the mid-20th century.

California’s experience is a prime example of this phenomenon. After years of severe drought, dozens of atmospheric rivers subjected the state to record-breaking amounts of precipitation in the winter of 2022-23. A second extremely wet winter in the southern parts of the state the following year resulted in the growth of abundant amounts of grass and brush. 2024 saw a record-hot summer which was then followed by a record-dry start to the 2025 rainy season. The result was the catastrophic wildfires in the Los Angeles area in January.

Research by UCLA climate scientists explains that the primary driver for the increasing occurrence of hydroclimate whiplash is the expansion of the atmospheric sponge – that is, the growing ability of the atmosphere to evaporate, absorb and release water. Every degree Celsius that the planet warms increases this ability by 7%.

The global consequences of hydroclimate whiplash include not only floods and droughts but also the increased danger of whipsawing between the two, leading to the bloom and burn cycle that California recently faced. The risk of wildfire is twofold: first by increasing the growth of flammable grass and brush in the months before the fire season, and then by drying it out to dangerous levels with extremely warm and dry weather.

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Floods, droughts, then fires: Hydroclimate whiplash is speeding up globally

Photo, posted January 13, 2025, courtesy of Victor Guillen / USDA Forest Service via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

A big year for battery storage

January 29, 2025 By EarthWise Leave a Comment

A decade ago, the ability of utilities to store large amounts of electricity in batteries was basically nonexistent. In the past several years, growth in battery storage systems has exploded. As of the end of November, the US had about 24 gigawatt-hours of storage capacity in place. This is 71% more than just a year ago. Nearly half of the battery storage in the US is located in California. Texas, Arizona, and Nevada are also leaders in deploying battery storage.

Battery storage allows solar and wind generating plants to keep operating when there is reduced demand for their output and have the electricity that they produce be available later when demand rises. Storing this excess electricity essentially extends the hours of the day when clean energy can be used.

Equally important, the existence of battery storage reduces the need for peaker plants, the fossil-fueled power plants that only turn on at times of peak demand, such as during hot afternoons.

There are 1,000 peaker plants in the US and they are generally heavily polluting, inefficient, and expensive to operate. Some 63 million people live within a three-mile radius of one of them and are exposed to harmful pollutants like nitrogen oxides and sulfur dioxide. Peaker plants also release more greenhouse gases than other power plants do for every unit of electricity they generate.

Many battery storage facilities are co-located with, or otherwise support, solar energy plants. The amount of solar energy in the US is growing rapidly and surpassed the 100-gigawatt mark in 2024. As solar power continues to expand, so will battery energy storage.

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Battery projects soared again in 2024

Photo, posted August 3, 2024, courtesy of the Bureau of Ocean Energy Management via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio

Is de-extinction possible?

January 28, 2025 By EarthWise Leave a Comment

Advances in genomics have created the possibility of bringing back extinct species from the past by making use of recovered DNA from preserved specimens. Companies attempting to “de-extinct” iconic species have received hundreds of millions of dollars from venture capitalists.

These companies are trying to bring back iconic species that include ivory-billed woodpeckers, Tasmanian tigers, dodos, passenger pigeons, and woolly mammoths.

Efforts to recreate extinct species are controversial. The arguments in favor include the positive effects on ecosystems when keystone species are restored, and the excitement generated about conservation in general. The opposing view is that concentrating all this effort on these restorations diverts attention and funding from more urgent conservation work.

A more nuanced viewpoint that has emerged is that actually de-extincting species is not possible. The genome of these vanished species cannot be reconstructed perfectly. Specimens are not cryopreserved from when the animal died. What can be retrieved is at best significant fragments of the genome. These are combined with DNA from related contemporary animals to produce the new species.

As a result, what emerges are proxies. They are animals that are similar to extinct animals – in some cases convincingly so – but they are not the same species that existed in the past. They may be able to fill the same ecological niches and they may have similar behavior. But they are not de-extincted specimens of the past species. Is it worth doing? Quite possibly but it’s not actually bringing back what is gone.

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Despite Biotech Efforts to Revive Species, Extinction Is Still Forever

Photo courtesy of Grazelands Rewilding.

Earth Wise is a production of WAMC Northeast Public Radio

Saving the Great Salt Lake

January 27, 2025 By EarthWise Leave a Comment

For many years, scientists have warned that the Great Salt Lake in Utah is headed toward a catastrophic decline. While the size of the Great Salt Lake fluctuates naturally with seasonal and long-term weather patterns, the lake has been experiencing significant and steady declines for decades. In fact, the Great Salt Lake has lost more than 15 billion cubic yards of water over the past three decades, and it’s getting shallower at the rate of four inches a year.

This reduction is primarily due to excessive water diversions from rivers and streams that feed into the lake for agricultural, industrial, and municipal use. These diversions, combined with prolonged drought and rising temperatures due to climate change, have significantly reduced the lake’s water level.

According to a new study led by researchers from Oregon State University, 62% of the river water bound for the Great Salt Lake is diverted for human use, with agricultural activities responsible for nearly three-quarters of that percentage. The analysis, which was recently published in the journal Environmental Challenges, found that reducing irrigation is necessary to save the lake.

In order to stabilize and begin refilling the lake, the research team proposes cutting human water consumption in the Great Salt Lake’s watershed by 35%. The researchers emphasize that farmers and ranchers facing income losses from using less water would require taxpayer-funded compensation.

The Great Salt Lake is a biodiversity hotspot, sustaining more than 10 million migratory birds. The lake also directly supports 9,000 jobs and fuels $2.5 billion in economic activity annually.

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Reducing irrigation for livestock feed crops is needed to save Great Salt Lake, study argues

Photo, posted January 14, 2024, courtesy of Olaf Zerbock via Flickr.

Earth Wise is a production of WAMC Northeast Public Radio