Science Activism Flourishing All Over The World. Which is what happens when despots and cranks lie about what is scientifically-proven fact and/or seek to silence scientists:
Hundreds of scientists protested government efforts to restrict educational access to Western science theories, including Darwin’s theory of evolution, in June 2023 in India. Similarly, scientists in Mexico participated in a research strike in May 2023 to protest a national law they claimed would threaten the conditions for basic research. And during the same month in Norway, three scientists were arrested for protesting the nation’s slow-moving climate policy.
As these among many other actions show, scientists today are speaking out on a variety of political and social issues related to their own research fields and in solidarity with other social movements.
Science activism has long been considered taboo, as many in the field fear that politicizing science undermines its objectivity. Even so, scientist-activists have still managed to shape the U.S. political landscape throughout history. Over the past century, for example, scientists have protested the atomic bomb, pesticides, wars in Southeast Asia, genetic engineering and the federal response to the AIDS epidemic.
More recently, the election of Donald Trump in 2016 triggered a wave of political mobilization not seen in the United States since the Vietnam War era. In the context of the COVID-19 pandemic, climate change activism, Black Lives Matter and the #MeToo movement, scientists have also mobilized, and science advocacy organizations are playing important roles.
Some groups, like March for Science and Scientist Rebellion, are new and claim dozens of chapters and thousands of members around the world. In addition, older organizations like the Union of Concerned Scientists are growing, while once-defunct organizations like Science for the People have reemerged.
Science organizing also happens within universities, graduate student unions and professional associations. These groups use their connections to local communities and larger networks of science professionals to mobilize others in the scientific community.
Many science advocacy groups borrow protest tactics from previous eras, like mass marches and teach-ins. Others are more innovative, including “die-ins” at medical schools to protest police racial violence and data-rescue “hackathons” to protect public access to government data.
Not just an encouraging trend, but essential.
West Virginia’s Age-Old Question: Coal, Or People? In this case, ‘met’ coal and methane:
The Nestors’ case is one of at least eight still pending that contend that Arch’s Leer Mine in Taylor County has damaged homes and property as a result of mining practices that can cause land to sink, alter ground and surface waters and, in the Nestors’ case, release dangerous methane.
The lawsuits argue, among other allegations, that Arch’s mining activities violated state law that directs mining companies to “protect off-site areas from damage,” “eliminate fire hazards” and “minimize the disturbance of the prevailing hydrologic balance at the mine site and in associated off-site areas,” both during and after mining operations.
Those lawsuits follow more than two dozen others filed in Taylor County in recent years in which legal settlements were reached, according to Hunter Mullens, the attorney in Philippi, West Virginia, who is handling all of the cases for plaintiffs suing Arch.
While the US coal mining industry has been on the decline for years as electric utilities embrace cheaper natural gas and cleaner energy sources, the type of coal mined by Arch at its Leer mines in West Virginia remains a prized commodity. It is of such a quality that it is used for making steel and is sold at a premium price.
Economists see a continued market for this coal, called metallurgical or met coal, for decades to come—raising the possibility of ever greater methane emissions.
“One comes away with a clear sense that everything we know about how harmful our dependence on coal is, to our climate and our health, is made more so by this recognition that are also methane emissions associated with it,” said Rachel Cleetus, the policy director for the Union of Concerned Scientists’ climate and energy program. “At the same time, we are not holding accountable the companies that have caused this pollution.”
Meteorologists Harassed For Reporting On Climate Change:
The harassment started to intensify as the TV meteorologist Chris Gloninger did more reporting on the climate crisis during local newscasts – outraged emails and even a threat to show up at his house.
Gloninger’s experience is all too common among meteorologists across the country who are encountering reactions from viewers as they tie the climate crisis to extreme temperatures, blizzards, tornadoes and floods in their local weather reports. For on-air meteorologists, the anti-science trend that has emerged in recent years compounds a deepening skepticism of the news media.
Many meteorologists say it’s a reflection of a more hostile political landscape that has also affected workers in a variety of jobs previously seen as nonpartisan, including librarians, school board officials and election workers.
For several years now, Gloninger said, “beliefs are amplified more than truth and evidence-based science. And that is not a good situation to be in as a nation.”
Drinkable Seawater? Not as easy as it sounds:
Desalination is an idea that keeps reappearing in the Golden State, where overdrawn groundwater and shrinking reservoirs are critical problems. On a superficial level, it seems simple: take the salt out of the abundant salt water just offshore. But typical desalination facilities are big, expensive to operate, and environmentally unfriendly, especially when the resource-intensive process is powered by fossil fuels. The Carlsbad desalination plant in Southern California, for example, sits on 2.4 hectares of land and uses 246,156 megawatt hours of electricity per year—equivalent to the usage of roughly 23,000 homes.
The lure of possibilities nevertheless ‘buoys’ one’s hopes:
Oneka’s experimental water desalination device isn’t like California’s other desalination plants: it’s a 6.5-meter-wide buoy. The small footprint is a bonus, but the device’s main advantage is that it’s ocean powered. As the buoy moves back and forth with the waves, it draws water through a filter and then through a reverse osmosis membrane, which removes the salts and other tiny particles. “Surprisingly simple,” says Smith.
Andrea Achilli, a chemical and environmental engineer at the University of Arizona who is not affiliated with Oneka, calls devices like this direct desalination systems. Direct desalination can also be accomplished with solar energy, which can be turned into heat and used for thermal desalination. In simple terms, thermal desalination boils salt water, collecting the vapor and leaving the salt behind. Similarly, the Oneka buoy doesn’t take energy from an external source; it has everything it needs on board. “It’s a very good use of the wave energy,” says Achilli.
The moral to today’s Open Thread:
What do you want to talk about?