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NASA is serving up a double scoop of delicious Saturn imagery in two flavors — near-infrared from the James Webb Space Telescope, and visible light from the Hubble Space Telescope.

The books, TV, games and more that New Scientist staff have enjoyed this week

Shortlisted for the Sony World Photography Awards, this image by photographer Sebastian Di Domenico was taken in Columbia

Feedback is prompted by readers to investigate the size of the shed in the term 'shedload', and gets down and dirty with particle physics in the quest

We shouldn't dismiss flowers as merely ornamental – these blooms are world-changers, argues a vivid new book by David George Haskell. Michael Marshall is mostly convinced

I’ve often criticized Colossal Biosciences for their overblown science, which includes pretending that they’ve resurrected the dire wolf (Aenocyon dirus), when they’ve only created grey wolves (Canis lupus) with a few gene edits that make them white (real dire wolves probably were not white!) and a bit larger. Three of these edited wolves have been released at a secret location, and Colossal has pronounced them to be dire wolves even though they’re they’re not dire wolves. In fact Colossal has admitted they haven’t “de-extincted” dire wolves—and yet they pretend otherwise. It’s a squirrelly business, but they need to keep attracting and keeping donors.

On tap: their promise to “de-extinct” the woolly mammoth, which will in fact not be a wooly mammoth but at best a hairy Asian elephant. And they say that they’ll get a population of these creatures going on the tundra within eight or so years.  I wouldn’t bet on it!

This morning I got an announcement that the three dire wolves in captivity have eaten an animal—a dead deer! Surprise!

Here’s the announcement:

Did you know most wolf hunts end in failure?  Wolves look like perfect hunters, but in the wild they actually fail nearly 9 out of 10 hunts. So how do they ever get good at it? In our latest video, narrated by Colossal’s Manager of Animal Husbandry Paige McNickle, we explore how wolves actually learn to hunt, and see the dire wolves Romulus and Remus face a messy milestone as they try to figure out how to skin, tear, crunch, and share a whole deer. Will the young dire wolves be successful? The answer might surprise you. When I said the whole thing was ridiculous, Matthew (another critic) responded, “Exactly. “Look, Homer, they are just like our pet dog!”
Note the videos showing a bunch of white “dire wolves” chasing buffalo. I don’t think that can be real, as they made only three dire wolve, and they aren’t penned in where the buffalos roam.Note as well that they are showing gray wolves, not dire wolves.  And of course they’ll eat a wolf carcass, for “dire wolves” are just tweaked gray wolves, and they are going to eat a deer carcass if they get it.  This deer was (I hope) killed before presented to these mutants.The YouTube notes.

Narrated by Paige McNickle, Colossal’s Manager of Animal Husbandry, this episode also gives you a close look at the continuing development of our young dire wolves, Romulus and Remus. They’ve already taken down small prey, and they’re continuing to learn the essential behaviors of being wolves. To help them develop more skills, the dire wolves are given a whole deer carcass. This is an important milestone in their development, as they learn how to skin, tear, crunch, and share a full prey animal.

This is undoubtedly meant to keep the public excited and, more important, keeping the donors satisfied and bringing more $$ in.  But what is the purpose showing these gray wolves learning to be gray wolves? They’ll never be released into the wild! I suppose you could say that this shows how gray wolves not born into a pack can learn various behaviors. But that has nothing to do with dire wolves.  To me it’s a big yawn in the service of Mammon.

And where is the third “dire wolf”—Khaleesi? Is she getting dog food somewhere?

Neptune has always been something of a puzzle. The distant ice giant sits tilted at an awkward angle, although not as extreme as Uranus, that astronomers have long struggled to explain. Now new research suggests the answer may have been lurking in its own backyard all along and the culprit is Triton, Neptune's strange, rebellious moon.

A duo of drugs that boosts our glympathic system, which clears waste from our brain, also improves the removal of proteins associated with the onset of Alzheimer's disease

Russia has returned to orbit from the very launch pad that failed it just months ago. Following an embarrassing structural collapse at Baikonur Cosmodrome last November, repairs have been completed and a fresh cargo mission has blasted skyward. But with a space programme that was once the envy of the world now struggling to recapture its former glory, questions remain about whether Russia can truly rebuild its place among the stars.

The JWST has shown us that supermassive black holes were much larger in the early Universe than we thought. New research has extended this understanding to more intermediate redshifts, and to dwarf galaxies. Could the often-invoked Super-Eddington accretion be responsible?

The remains of dogs from more than 14,000 years ago have been found in Turkey and the UK, revealing that domesticated animals were spread across Europe by hunter-gatherers

The same principles that help astronauts stay strong in microgravity can help us all resist the slow collapse of ageing – and it’s not all about hitting the gym more

They have finally turned on the DuckCam (or PondCam, if you will) at Botany Pond. There’s a good view of nearly the entire Pond, and you are likely to see Armon there; in fact, he’s should be there now. A few minutes ago there was another pair that I drove off, as we don’t want to couples nesting at about the same time.  Oh, I forgot to add the important note that Vashti has begun incubating her eggs at a secret location (I know where it is), and we should have ducklings in a bit less than four weeks!

Even the channel is visible now, to the right behind the lamppost.

A 20-year study has shown that, like photocopying photocopies, cloning doesn't produce perfect copies – with big implications for farming, conservation and de-extinction

Although I did call attention to the death of Robert Trivers, age 83, on March 12, and I knew him slightly, I did not have the chops to summarize his many contributions, nor did I know him that well (we overlapped at Harvard). Fortunately, Steve Pinker has produced an absolutely terrific bio of Trivers at Quillette: a piece that summarizes the many contributions to evolutionary biology made as a young man, and then his many eccentricities, quirks and obnoxious or even illegal behaviors that made Trivers somewhat of an apostate. He was a complex and fascinating person, and I hope someone will write his biography (he did write an autobiography, Wild Life: Adventures of an Evolutioanry Biologist, but deserves a thorough, disinterested, and Cobb-like treatment).

Steve’s obituary, which you can access by clicking on the screenshot below or seeing it archived here, is roughly in three sections: Trivers’s contributions to the field, an analysis of why they came so young and so fast (he did almost nothing during the last five decades of his life), and a description of his complex personality and behavior. It’s long for an obituary, but Trivers deserves long, and of course Pinker summarizes his life eloquently.

Trivers’s major contributions as Steve outlines them (Steve’s words are indented, bold headings are mine):

. . . two weeks after the death of Robert Trivers, one of the greatest evolutionary biologists since Charles Darwin, not a single major news source has noticed his passing. This despite Trivers’s singular accomplishment of showing how the endlessly fascinating complexities of human relations are grounded in the wellsprings of complex life. And despite the fact that the man’s life was itself an object of fascination. Trivers was no ordinary academic. He was privileged in upbringing but louche in lifestyle, personally endearing but at times obstreperous and irresponsible, otherworldly brilliant but forehead-slappingly foolish.

I still can’t see an obituary for Trivers in either the NYT or the Washington Post. That lacuna is shameful. On to his contributions (

Contributions:

Parent-offspring conflict:

Trivers’s innovation was to show how the partial overlap of genetic interests between individuals should put them in a partial conflict of psychological interest. The key resource is parental investment: the time, energy, and risk devoted to the fitness of a child. Parents have to apportion their investment across all their children, each equally valuable (all else the same). But although parents share half their genes with each child, the child shares all its genes with itself, so its interest in its own welfare will exceed that of its parents. What the parent tacitly wants—half for Jack, half for Jill—is not what Jack and Jill each want: two thirds for the self, one third for the sib. Trivers called the predicamentparent-offspring conflict.

Sex differences in parental investment:

Trivers explained the contrast by noting that in most species the minimal parental investments of males and females differ. Males can get away with a few seconds of copulation; females are on the hook for metabolically expensive egg-laying or pregnancy, and in mammals for years of nursing. The difference translates into differences in their ultimate evolutionary interests: males, but not females, can multiply their reproductive output with multiple partners. Darwin’s contrast can then be explained by simple market forces. And in species where the males invest more than the minimum (by feeding, protecting, or teaching their offspring), males are more vulnerable than females to infidelity (since they may be investing in another male’s child) and females are more vulnerable to desertion (since they may bear the costs of rearing their mutual offspring alone).

Reciprocal altruism:

In another landmark, Trivers turned to relations among people who are not bound by blood. No one doubts that humans, more than any other species, make sacrifices for nonrelatives. But Trivers recoiled from the romantic notion that people are by nature indiscriminately communal and generous. It’s not true to life, nor is it expected: in evolution as in baseball, nice guys finish last. Instead, he noted, nature provides opportunities for a more discerning form of altruism in the positive-sum exchange of benefits. One animal can help another by grooming, feeding, protecting, or backing him, and is helped in turn when the needs reverse. Everybody wins.

Trivers called it reciprocal altruism, and noted that it can evolve only in a narrow envelope of circumstances.

This to me is Trivers’s most important contribution, explaining not only why we sacrifice for unrelated people, but also making testable (and largely verified) predictions about human behavior, including morality.  Now that humans no longer live in small groups of acquainted people—conditions under which reciprocal altruism presumably evolved—we can expect some of those behaviors to disappear, but civilization is a mere eyeblink compared to the long, long period in which the conditions were right for the evolution of altruism (and deceit; see below).

Asymmetries in human relationships:

. . . in a passage that even fewer readers noticed, Trivers anticipated a major phenomenon later studied in the guise of “partner choice.” Though it pays both sides in a reciprocal partnership to trade favours as long as each one gains more than he loses, people differ in how much advantage they’ll try to squeeze out of an exchange while leaving it just profitable enough for the partner that he won’t walk away. That’s why not everyone evolves into a rapacious scalper: potential partners can shun them, preferring to deal with someone who offers more generous terms. Just as a store with a reputation for fair prices and good service can attract a loyal clientele and earn a bigger profit in the long run than a store that tries to wring every cent out of its customers only to drive them away, a person who is inherently generous can be a more attractive friend, ally, or teammate than one who dribbles out favours only to the extent he expects them to be repaid with a bonus. The advantage in attracting good partners makes up for the disadvantage in forgoing the biggest profit in each transaction.

And since humans are language users—indeed, reciprocity may be a big reason language evolved—any tendency of an individual to reciprocate or cheat, lavish or stint, does not have to be witnessed firsthand but can be passed through the grapevine. This leads to an interest in the reputation of others, and a concern with one’s own reputation.

The evolutionary significance of deceit and self-deception:

Trivers’s fifth blockbuster was laid out not in an academic paper but in a pair of sentences in his foreword to The Selfish Gene:

If (as Dawkins argues) deceit is fundamental to animal communication, then there must be strong selection to spot deception and this ought, in turn, to select for a degree of self-deception, rendering some facts and motives unconscious so as not to betray—by the subtle signs of self-knowledge—the deception being practiced. Thus, the conventional view that natural selection favors nervous systems which produce ever more accurate images of the world must be a very naïve view of mental evolution.

We lie to ourselves the better to lie to others, protecting compromising private knowledge from emotional tells or factual contradictions (as in the Yiddish saying, “A liar must have a good memory.”) In his book Social Evolution(1985), Trivers muses on how this can play out:

Consider an argument between two closely bound people, say, husband and wife. Both parties believe that one is an altruist of long standing, relatively pure in motive, and much abused, while the other is characterized by a pattern of selfishness spread over hundreds of incidents. They only disagree over who is altruistic and who selfish.

The theory of self-deception is deeper (and more enigmatic) than the commonplace that people’s views of themselves are mistuned in their favour. The self, Trivers implied, is divided: one part, seamless with the rest of consciousness, mounts a self-serving PR campaign; another, unconscious but objective, prevents the person from getting dangerously out of touch with reality.

Trivers wrote an entire book about this, a book that he intended to co-author with the (in)famous Huey Newton, a founder of the Black Panthers (Newton was murdered before it could be written): The Folly of Fools: the Logic of Deceit and Self-Deception in Human Life. It’s an uneven book, larded with bizarre personal anecdotes, but it also contains a lot of intriguing food for thought. In other words, it’s pure Trivers.

Why did Trivers make these contributions?  A few of Steve’s thoughts:

. . . Trivers revelled in explaining the contradictions of the human condition, and he himself was a mess of them. Foremost is how he revolutionised the human sciences in a fusillade of ideas he had between the ages of 28 and 33 (I didn’t even mention a sixth one, on how parents should invest in sons versus daughters). But then he did nothing comparable for fifty years. He wrote some good books, but they were reviews of his and others’ contributions, breaking little new ground. How do we explain this shooting star?

Part of the answer is that, as with all intellectual revolutions, the right mind found itself in the right era. In 1971 the gene’s-eye view of evolution was new and counterintuitive, as it remains to this day. People, including scientists, project their moral and political convictions onto the things they study, and the ideal that we should love our neighbours, act for the good of the group, and strive for social betterment is easy to read into nature, even if it flouts the logic of natural selection. And whenever the word “gene” comes up, readers get distracted by hallucinations such as that humans are robots controlled by their genes, that each of their traits is determined by a single gene, that they may be morally excused for selfishness, that they try to have as many babies as possible, that they are impervious to culture, and other non sequiturs.

The young Trivers, mentored at Harvard by the biologists William Drury and Ernst Mayr, immediately grasped the new way of looking at evolution, and never got hung up by these misconceptions. A jaundiced view of animals, not excluding Homo sapiens, came naturally to his rebellious temperament, and many puzzles he observed in his field work (including on ants, lizards, gulls, songbirds, caribou, baboons, and chimps) fell into place when he considered their reproductive interests from their viewpoints.

. . . In the early 1970s, then, Trivers was standing on the shoulders of giants, looking with a gimlet eye over a rich array of poorly explained animal behaviour (not excluding humans, since he had recently binged on novels). In this virgin landscape, the implications of the overlapping conflicts of genetic interests were waiting to be discovered, foreshadowed in scattered passages from Hamilton and Williams. Someone had to see them first, and Trivers was there.

. . . But Trivers rapidly spotted what everyone else missed, and still misses, together with the less biologically obvious concept of self-deception, so there must be another piece to the puzzle. During his junior year at Harvard, Trivers suffered two weeks of mania and then a breakdown that hospitalised him for two months. Bipolar disorder afflicted him throughout his life. I can’t help but wonder whether Trivers’s fecund period was driven by episodes of hypomania, when ideas surge and insights suddenly emerge through clouds of bafflement.

I had never thought of that, though Trivers made no secret of his diagnosis.  Finally, a bit about his behavior:

Though his upbringing was patrician and cosmopolitan (son of a poet and a diplomat, schooled in Europe and then Andover and Harvard), he was afflicted with a strong nostalgie de la boue. This contributed to his adoption of Jamaica, originally the site of his research on lizards, as a second home. Trivers’s life in Jamaica was filled with boozing, brawling, whoring, and of course toking, together with a stint in jail and a narrow escape from death during an armed robbery. His memoir Wild Lifeis peppered with homicidal fantasies and expressions of admiration for thuggish vigilantes, including Huey Newton, co-founder of the radical Black Panther Party. Trivers befriended Newton, made him godfather of his daughter, coauthored a paper with him on the role of self-deception in a fatal plane crash, and became a white Black Panther himself before Newton ushered him out of the organisation for his own safety.

. . . But Trivers’s neuroatypicality shaded into eccentricity and downright boorishness. He might try to drop off a passenger without stopping the car, or miscount the number of dinner guests and force two of them to share a chair. He repaid the colleagues who offered him professional lifelines at their universities with truancy, belligerence, and gross inappropriateness (greeting female students in his underwear when they had been sent to his apartment to fetch him to a late lecture; requesting that straitlaced academic hosts supply him with cannabis). His violent musings could make acquaintances genuinely fear for their safety. His last graduate student, Robert Lynch, spoke for many when he ended his affectionate obituary, “I’ll miss you, Robert. You asshole.”

. . . As for himself, Trivers liked to poke fun at some of his eccentricities and indignities. But he never squarely faced his record of betrayals, hurts, and squandered talent. All this is exactly what Trivers’s greatest theoretical brainchild would predict.

That “greatest theoretical brainchild” must be self-deception, of course, but I think that was perhaps the least important of his contributions.

Trivers’s had an erratic life, but also a rewarding one and a tumultuous ones. It makes me want to paraphrase Nagel: “What was it like to be Robert Trivers?”

There is also a shorter obituary in The Times of London, which you can see by clicking below or reading it archived here. Although author Finkelstein is not a biologist, he does a pretty good job summing up Trivers’s contributions, though he concentrates too much on the deceit and self-deception part, seeing it mirrored in modern politicians like Donald Trump and Liz Truss. If you want a short read it is okay, but given the choice, you should read the longer Pinker obituary. It will also teach you a lot about modern evolutionary psychology—known as “sociobiology” when Trivers and I overlapped at Harvard.

The modern era of all-sky surveys including Pan-STARRS, ATLAS and now the Vera C. Rubin Observatory have given amateur astronomers some stiff competition. But many amateurs have simply upped their game, and took their quest online. The ability to access remote observatories has really helped in this regard. One recent discovery highlights this growing trend. Amateur astronomer Filipp Romanov was able to nab the fast-moving asteroid 2026 CQ3 flitting through the constellation Leo last month on the night of February 15th, 2026.

Recently I gave the latest update on the origins of SARS-CoV-2 – bottom line, it was very likely a zoonotic spillover event and not a lab leak. Following that, I interviewed a researcher, Dr. Andersen, who is an expert on the origins of epidemics/pandemics and has researched this very question. He reinforced the spillover hypothesis, indicated he had considered the lab leak […]

The post Zoonotic Spillover Is A Problem first appeared on Science-Based Medicine.

Researchers have re-analysed a set of elephant bones and a wooden spear found in Germany in 1948, which provide compelling evidence of Neanderthals' big game hunting abilities

Researchers have re-analysed a set of elephant bones and a wooden spear found in Germany in 1948, which provide compelling evidence of Neanderthals' big game hunting abilities

We’re getting close to launch day for Dragonfly! Engineers at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, have officially kicked off the integration and testing stage for the car-sized, nuclear-powered helicopter bound for Saturn’s largest moon, Titan. According to a press release for APL, after years of designing, tweaking, and testing individual components in laboratories and on computer simulations, various organizations have started testing actual hardware ahead of the mission’s planned 2028 launch.