Re: <nettime> Further on Swipe

[mp via nettime-l <nettime-l@lists.nettime.org>]

Merlin Sheldrake also goes through the history of symbiosis ideas in the 
context of fungi/funga... See quote below from "Entangled Life".

It also features in Nick Lane's work on the origins of life.

For instance:

https://nick-lane.net/publications/serial-endosymbiosis-singular-event-origin-eukaryotes/

https://www.nature.com/articles/d41586-024-00544-4

Sheldrake:

"...The idea that eukaryotes had arisen “by fusion and merger” had 
drifted in and out of biological thought since the start of the 
twentieth century, but it had remained at the margins of “polite 
biological society.” By 1967, little had changed, and Margulis’s 
manuscript was rejected fifteen times before it was finally accepted. 
After publication, her ideas were vigorously opposed, as similar 
suggestions had been before. (In 1970, the microbiologist Roger Stanier 
waspishly remarked that Margulis’s “evolutionary speculation...can be 
considered a relatively harmless habit, like eating peanuts, unless it 
assumes the form of an obsession; then it becomes a vice.”) However, in 
the 1970s Margulis was proved correct. New genetic tools revealed that 
mitochondria and chloroplasts had indeed started off as free-living 
bacteria. Since then, other examples of endosymbiosis have been found. 
The cells of some insects, for example, are inhabited by bacteria that 
themselves contain bacteria.

Margulis’s proposition amounted to a dual hypothesis of early eukaryotic
life. No surprise, then, that she mobilized lichens to fight her 
cause—so too had the earliest proponents of her view at the turn of the 
twentieth century. The earliest eukaryotic cells could be thought of as 
“quite analogous” to lichens, she argued. Lichens continued to figure 
prominently in her work over the following decades. “Lichens are 
remarkable examples of innovation emerging from partnership,” she later 
wrote. “The association is far more than the sum of its parts.”

The endosymbiotic theory, as it came to be known, rewrote the history of
life. It was one of the twentieth century’s most dramatic shifts in 
biological consensus. The evolutionary biologist Richard Dawkins went on 
to congratulate Margulis on “sticking by” the theory, “from unorthodoxy 
to orthodoxy.” “It is one of the great achievements of twentieth-century
evolutionary biology,” Dawkins continued, “and I greatly admire Lynn
Margulis’s sheer courage and stamina.” The philosopher Daniel Dennett
described Margulis’s theory as “one of the most beautiful ideas [he’d] 
ever encountered,” and Margulis as “one of the heroes of 
twentieth-century biology.”

Among the biggest implications of the endosymbiotic theory is that
whole suites of abilities have been acquired in a flash, in evolutionary
terms, ready-evolved, from organisms that are not one’s parents, nor 
one’s species, kingdom, or even domain. Lederberg demonstrated that 
bacteria can horizontally acquire genes. The endosymbiotic theory 
proposed that single-celled organisms had horizontally acquired entire 
bacteria. Horizontal gene transfer transformed bacterial genomes into 
cosmopolitan places; endosymbiosis transformed cells into cosmopolitan 
places. The ancestors of all modern eukaryotes horizontally acquired a 
bacterium with a preexisting ability to make energy from oxygen. 
Likewise, the ancestors of today’s plants horizontally acquired bacteria 
with the ability to photosynthesize, ready-evolved.

In fact, this wording doesn’t get it quite right. The ancestors of 
today’s plants didn’t acquire a bacterium with the ability to 
photosynthesize; they emerged from the combination of organisms that 
could photosynthesize with organisms that couldn’t. In the two billion 
years that they have lived together, both have become increasingly 
dependent on each other to the point we find ourselves in today, where 
neither can live without the other. Within eukaryotic cells, distant 
branches of the tree of life entwine and melt into an inseparable new 
lineage; they fuse, or anastomose, as fungal hyphae do...."...




On 4/22/24 17:01, Lattanzi, Barbara K via nettime-l wrote:
> Hi Michael and all.
>
> There is a book that Lynn Margulis edited (with René Fester) from a 1989 conference, with 25 or so essays by different authors:
>
> Symbiosis as a Source of Evolutionary Innovation: Speciation and Morphogenesis (1991, MIT Press)
>
> Margulis' opening essay gives a history of the concept of symbiogenesis. It also has a handy one-page list of terms and definitions.
>
> Other essays of note from the Symbiosis book include two that I will mention because their ideas are deployed in the last chapter of Manuel DeLanda's book, Assemblage Theory (2016). I think DeLanda's book also has relevance to ideas about – in your words -- "the nested forms extending across space and time."
>
> So those 2 particular essays and their authors in the Symbiosis book are:
>
> --Jan Sapp, "Living Together: Symbiosis and Cytoplasmic Inheritance"
> --Sorin Sonea, "Bacterial Evolution without Speciation"
>
> Best regards,
>
> Barbara Lattanzi
>
> ________________________________
>
> Message: 2
> Date: Sat, 20 Apr 2024 11:24:37 -0400
> From: Michael Benson <kinpix2001@gmail.com>
> To: nettime-l@lists.nettime.org
> Subject: <nettime> Further on Swipe
> Message-ID:
>          <CAF3eCHFn+YexJ0AYXaa=o-1HtcqnViF-1NBVE0Ud22sKtT8=OA@mail.gmail.com>
> Content-Type: text/plain; charset="UTF-8"
>
> Brian and Nettimers:
>
> So I have never actually read Lynn Margulis, but am tangentially aware of
> her contributions (and should read her; apart from 'Five Kingdoms' I wonder
> if anyone can recommend a key text? 'Symbiotic Planet' maybe?...). In any
> case I have been embedded in the research and collections complex of the
> Canadian Museum of Nature since late 2018 (with a two year break to allow a
> certain rampaging RNA virus to extend across the planet). And one friend
> here, Paul Hamilton, has spent his life researching diatoms. So we have had
> occasion to discuss some pretty complex questions over the last few
> years, including regarding symbionts. And in fact a number of the
> dinoflagellates that I am approaching (as an image-maker first, but with
> keen curiosity also as to their evolutionary story, or why would I be here
> in the first place) exhibit explicitly endosymbiotic properties. Sometimes
> on multiple levels.
>
> Incidentally I'm not entirely sure "How not to be parasitic to the point of
> necrotrophy?" works, by definition. Aren't organisms that feed off living
> tissue biotrophs? While those that eat dead tissue are necrotrophic... So
> presumably parasites are biotrophic. (But I am far from being an expert on
> these questions.) Speaking of which, there is a large poster with some
> rather gruesome photographs of lamprey 'faces' in the hall here,
> illustrating the work of a pair of researchers. The title is "Factors
> Affecting the Fecundity of Lampreys." This struck me as being so ripe for
> parody that last year I asked Chat GPT to give me some variations on Gilbert
> and Sullivan's "I Am the Very Model of a Modern Major General," as applied
> to this question of the fecundity of lampreys. And I got some pretty good
> results:
>
> I am the very model of a lamprey's fecundity
> A parasitic creature with a most unusual proclivity
> I latch onto my host with a sucker, oh so gloriously
> And feed upon their vital fluids with a fierce tenacity
>
> I'll spare you any more....
>
> Concerning the evolution of complex cells and the symbiotic merger of
> bacteria to produce the elaborate single cells we are comprised of, but
> that after following different evolutionary pathways also swarm in fresh
> and salt water, proliferate in damp soil, and even the air, living
> essentially almost everywhere on the planet, see this intriguing piece from
> just a couple days ago in Popular Science:
>
> https://nam11.safelinks.protection.outlook.com/?url=https%3A%2F%2Fwww.popsci.com%2Fscience%2Ftwo-lifeforms-merged-into-one%2F&data=05%7C02%7Clattanzi%40alfred.edu%7C803425b9d7214b1ee8ed08dc61e9d16f%7C14abbcd1df5a413ababb7853e26fce3a%7C1%7C0%7C638492904144900481%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C0%7C%7C%7C&sdata=efEU4Umoj4NviVg1bZwM%2B7TEEUceVzgzh%2FaJtPyhcrk%3D&reserved=0<https://www.popsci.com/science/two-lifeforms-merged-into-one/>
>
> ....which in turn is translating a paper published in Science:
>
> https://nam11.safelinks.protection.outlook.com/?url=https%3A%2F%2Fwww.science.org%2Fdoi%2F10.1126%2Fscience.adk1075&data=05%7C02%7Clattanzi%40alfred.edu%7C803425b9d7214b1ee8ed08dc61e9d16f%7C14abbcd1df5a413ababb7853e26fce3a%7C1%7C0%7C638492904144905271%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C0%7C%7C%7C&sdata=M077iJwxMs7QG30PQwQma12p9zYsMv8y5o9W7kNR3Dk%3D&reserved=0<https://www.science.org/doi/10.1126/science.adk1075>
>
> The upshot is that we have now observed a relatively contemporaneous
> example of lifeforms merging in an endosymbiotic way. Something directly
> comparable to what we take to be the first time tat happened, billions of
> years ago, producing organelles and thus complex cells. "The engulfed
> endosymbiont becomes an organ for the host called an organelle."
>
> Which brings me to my own provisional attempt to answer my own question
> concerning of what Zarathustra spake and the role of AI as Other, or Other
> Other -- or maybe something simply existing within the nested forms
> extending across space and time that constitute Nature.
>
> Isn't it possible to imagine that should an "artificial" super-intelligence
> be created out of all the accumulated knowledge amassed by human beings
> across our entire history -- a process fueled by hyper-capitalistic &
> tribal competition that would seem to be well underway -- isn't it possible
> to imagine that in effect it is us who will become the engulfed
> endosymbiont? That we organic humans will in effect be kept around and
> utilized as part of the larger superorganism, because we have certain
> properties of use to the resulting superorganismic entity? Similar come to
> think of it to the idea you read in the Anthropocene Review, based on
> Lovelock and Margulis's hypothosis?
>
> I don't think this violates the Gaia hypothesis one bit. In fact it raises
> the question of the eventual potential establishment of interstellar Gaia
> structures. Why do I say this? Because our organic evolutionary stage of
> development, with such pesky irritating limitations as, you know,
> _mortality,_ not to mention vulnerability to such long-duration spaceflight
> problems as cosmic ray hits to our DNA, and many other issues, isn't
> ideally suited to such interstellar explorations. But our extended
> exploratory feelers don't need to be organic. They could of course be AI
> "staffed" interstellar missions. (In fact we are already engaging in this
> pursuit with increasingly automated interplanetary robotic spaceflight,
> something I've written about fairly extensively.)
>
> This was something that Kubrick and Clarke were also getting at more than
> fifty years ago with "2001: A Space Odyssey." Both with those cryptic
> representatives of an alien intelligence, the opaque monoliths, and also
> HAL-9000. And they in turn got many of their concepts from some of the best
> people working on AI in the Sixties, key figures like Marvin Minsky and I.
> J. Good. (The latter BTW worked as a cryptologist with Alan Turing at
> Bletchley Park during the Second World War. Certainly Turing himself would
> have been consulted, had he still been alive. To paraphrase Arthur: I would
> have advised Alan to move to Ceylon.)
>
> For example, one thing so far missing from the silicon- and energy-hungry
> AI current arms race (mind-race?) is the implications of quantum
> supercomputing. Last year I was invited to give a talk at the IBM research
> campus in Yorktown Heights, NY, named after Thomas J. Watson. And they took
> us in to see their existing Quantum System One computer -- then told us to
> turn our phones off, and took us further into a secure area where they were
> building their next-generation quantum machine. And it is possible that a
> marriage of rapidly evolving AI algorithms with quantum computing
> potentialities will result in the much-vaunted singularity...
>
> Taking us back once again to Nietzsche's suggestion in Also Sprach Zarathustra
> that we are the ones dancing on the tightrope between ape and ubermensch --
> "a bridge and not a goal."
>
> Could it be that we are in effect emergent endosymbionts as a
> super-intelligence that cwouldn't exist without our work emerges, and
> incorporates our efforts within its interstellar ambitions?
>
> Just asking!
>
> Best,
> Michael
>
> --
> Michael Benson
> *Kinetikon Pictures *
> michael-benson.net
> kinpix2001@gmail.com
--
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