Tag Archives: Sequencer

A scientific case for an Earth alive

Profile, Q&A,

Sequencer

“Becoming Earth” author Ferris Jabr on his new book and how life emerged as an extension of the planet’s surface.

Ferris Jabr’s sense of the world changed when he learned about rain in the Amazon. It’s no surprise that rain and the world’s most voluminous river feeds the world’s largest tropical rainforest. But Jabr, a science journalist, was struck by how this sorta … missed the point.

It’s backwards. Rather than a jungle springing up in a wet climate, the Amazon generates the rain itself. This is so-called “evapotranspiration” where trees and plants silently pump excess water into the atmosphere — up to 20 billion tons per day. But Jabr’s real surprise came in learning that even evapotranspiration wasn’t the whole story. All the Amazon’s lifeforms were involved.

“The pollen, the fungi, the microbes, all these tiny particles, and gasses and volatile compounds,” contribute to the conditions for rain, Jabr said. “That sparked this curiosity in me: how else is life dramatically changing its environment?”

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An emotional public hearing on MDMA: ‘Today you will vote on whether my friends live or die’

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Sequencer

The FDA may approve psychedelic-assisted therapy for PTSD, but at a recent public hearing it was the therapy — not the drug — that burned in the hot seat.

Yesterday, June 4th, an advisory committee convened to discuss whether to recommend that the US Food and Drug Administration (FDA) approve MDMA psychedelic-assisted therapy for post-traumatic stress disorder (PTSD) when the agency renders a decision this summer. The drug application’s sponsor, Lykos Therapeutics, a biopharma company focusing on mental health treatments, had led two Phase 3 clinical trials combining MDMA with a therapy philosophy allegedly rooted in controversial New Age ideas. The advisory committee invited members of the public to speak. More than 30 individuals shared their testimony in favor or against approval. 

Rather than a straightforward, dusty bureaucratic session, the hearing was eye-opening, puzzling, fascinating, and profoundly sad. 

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The biggest threat to biodiversity you’ve never heard of

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Sequencer

As a fungus pushes dozens of amphibians into extinction, researchers search for whatever hope they can grab.

Erin Lundy hasn’t always loved frogs. The Hawaiʻi-born biologist and animal care expert had more of a soft spot for marine mammals and in 2018 began working with otters and seals at the Aquarium of the Pacific in Long Beach, California. “They’re very cute, charismatic, and smart,” Lundy told me. Frogs may be cute, she added, but they’re not known for their smarts. 

A couple years into her work in Long Beach, the aquarium needed help with amphibian conservation. A coworker asked if Lundy liked frogs. She replied: “Yeah, enough.”

Against all odds, she came around on amphibians. At first glance, a palm-sized tattoo of an otter inside Lundy’s forearm backs up her professed love of mammals. But there’s a surprise in the tattooed otter’s grasp: a tiny, colorful mountain yellow-legged frog. “It turns out I really like frogs,” she said. 

Lundy became captivated by how in tune frogs are with their habitat. Amphibians have porous, permeable skin that sensitizes them to all the chemicals and conditions of their environment. “They like stability — they don’t like super hot, super cold,” Lundy said. “They’re incredible indicator species of what the health of our environment actually looks like.” 

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Is climate resilience possible in a world of borders?

Explainer,

SEQUENCER

We govern deforestation, agriculture, and biodiversity within our own borders. But unchecked sovereignty may be a mistake.

In January 2008, global rice prices shot to record highs. Shipping costs, a multi-year Australian drought, and erratic weather in Asia choked yields. In producer countries, the fear of dwindling stockpiles prompted the governments of India, Vietnam, Brazil, Egypt, and elsewhere to halt exports, safeguarding their own supplies but propelling prices up to four times higher than normal.

This meant trouble for countries reliant on foreign rice. Senegal, for example, has depended on grain imports since the 1800s when its French colonizers steered Senegal’s agriculture toward cash crops like peanuts, and instead imported rice from France’s Asian colonies. In 2008, the impact of these past decisions was civil instability: people protested against political leaders as many could not afford rice.

For most outside observers, this was bad enough, yet when the scarcity ended we quickly forgot about the crisis. But to Ariadna Anisimov, a postdoctoral researcher at the Institute of Development Policy at the University of Antwerp, this example is a quintessential case of “transboundary climate risk” that the world is ill equipped to handle in the future. For her, the link between climate change and societal instability couldn’t be clearer.

What makes the cautionary rice tale prototypical is its demonstration of not just the tangled web of climate and livelihoods around the world, but also the global consequences of domestic policies. Export bans shielded the producer at the expense of the market. For an importing country like Senegal to become self-sufficient in rice, they’d need major agricultural changes. But climate change was already affecting farmer’s yields through more variable rain and more salt in groundwater; and irrigating with river water remained both a touchy subject with neighboring countries and flooding risk.

“Rivers have been shifted, and turned, and irrigated to make barrages and hydropower,” Anisimov told me. “There’s always competing interests between the upstream and the downstream communities, and they have a lot of cascading effects, especially because rivers cross borders.”

Climate change’s drivers and hazards don’t obey borders, yet the laws and regulations meant to control them are confined within national boundaries. So how do we reckon with the fact that necessary climate action may be incompatible with how our entire world is organized?

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Don’t step on this caterpillar

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SEQUENCER

A Brazilian research institute is the only thing standing between a caterpillar sting and an untimely, grisly death.

In the 1990s, an unlikely culprit sparked an outbreak in southern Brazil. People poured into clinics with severe bruises and mysterious, gangrene-like symptoms. Some patients even suffered brain bleeds and died. The cases initially baffled researchers, who investigated patients’ accounts by probing the surrounding lands and trails. Site after site, they found Lonomia obliqua larvae: two-inch caterpillars with cactus-like spines out of their greenish brown bodies. 

You don’t want to mess with Lonomia obliqua’s prickly prepubescent hairs. If you touch or step on its clumps of spines, venom trickles into your bloodstream, carrying with it procoagulants that spread clots across your body. The venom can deplete your blood’s ability to clot when you actually need it, heightening the risk for internal bleeding and hemorrhage. Lonomia caterpillars cause painful, bloody deaths.

Brazilian officials recorded 600 stings between 1989 and 1996, including 12 deaths, cementing L. obliqua’s place as the world’s deadliest caterpillar. The situation has only gotten more dire: between 2007 and 2017, researchers documented more than 42,000 stings and roughly 250 serious poisonings—only now, there’s an antidote.

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How Did We Draw The Planet Before We Actually Saw It?

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SEQUENCER

The story of our not-so-Blue Marble

NOTE: This is the first story of mine for Sequencer, a writer-owned science magazine and newsletter that I’ve launched with three fellow science journalists that I admire. It would mean the world to me if you’d take a moment to subscribe here: https://www.sequencermag.com/

I spend a large portion of my work day feeling confused. I start my days bewildered by advances in niches of science that I only recently learned existed. Chatting with experts usually resolves my initial confusion, but immediately after spawns more: Every question begets an answer and more questions, ad infinitum.

To me, there’s no more jolting brand of bewilderment than doing a double take on the everyday things. New discoveries may lurk in the mundane. The ubiquitous, almost cartoonish image we have in our heads of the Earth might seem like a trivial matter now, but seriously, how did we get there?

So let’s first lay out what I mean by Earth’s appearance. How did we know how to draw Earth until we sent cameras and people into space to snap some pictures? Sure, we know that land is greenish, oceans are blueish, and that mapmakers have spent millenia tracing the contours of continents, but these details tell us about Earth’s appearance in theory more than in reality. Think of it this way: I know the color of my hair and skin, as well as the shape of my head and mouth, yet I still study the bathroom mirror in the morning to see who or what I’m working with that day. What about the appearance of that Earth—the “woke up like this” Earth?

Turns out this wasn’t a trivial problem; and in some ways, we kinda didn’t know what Earth actually looked like until we saw it from space.

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