Lifeboat Foundation: Safeguarding Humanity
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Category: complex systems

RMS <em>Titanic</em> Sails
What’s to worry? RMS Titanic departs Southampton.

This year marks the 100th anniversary of the Titanic disaster in 1912. What better time to think about lifeboats?

One way to start a discussion is with some vintage entertainment. On the centenary weekend of the wreck of the mega-liner, our local movie palace near the Hudson River waterfront ran a triple bill of classic films about maritime disasters: A Night to Remember, Lifeboat, and The Poseidon Adventure. Each one highlights an aspect of the lifeboat problem. They’re useful analogies for thinking about the existential risks of booking a passage on spaceship Earth.

Can’t happen…

A Night to Remember frames the basic social priorities: Should we have lifeboats and who are they for? Just anybody?? When William McQuitty produced his famous 1958 docudrama of the Titanic’s last hours, the answers were blindingly obvious – of course we need lifeboats! They’re for everyone and there should be enough! Where is that moral certainty these days? And whatever happened to the universal technological optimism of 1912? For example, certain Seasteaders guarantee your rights – and presumably a lifeboat seat – only as long as your dues are paid. Libertarians privatize public goods, run them into the ground, squeeze out every dime, move the money offshore, and then dictate budget priorities in their own interest. Malthusians handle the menu planning. And the ship’s captain just might be the neo-feudal Prince Philip, plotting our course back to his Deep Green Eleventh Century.

Tallulah Bankhead in <em>Lifeboat</em>
Think Mink and Don’t Sink: Talulah Bankhead in Hitchcock’s Lifeboat.

Alfred Hitchcock’s Lifeboat deals with the problems of being in one. For a very long time – unlike the lucky stiffs on the Titanic, who were picked up in 2 hours. Specifically, it’s about a motley group of passengers thrown together in an open boat with short provisions, no compass, and no certain course. And, oh yes, the skipper is their mortal enemy: The lifeboat is helmed by the U-boat commander who torpedoed their ship. He overawes them with seafaring expertise and boundless energy (thanks to the speed pills in his secret stash) and then lulls them by singing sentimental German lieder. At night, the captain solves his problems of supply and authority by culling the injured passengers while everyone’s asleep. He tells the survivors they’re going to Bermuda. They’re actually headed for a rendezvous with his supply ship – and from there the slow boat to Buchenwald. The point of Lifeboat is simple: What can you do in your life and environment so you never, ever end up in one?

What’s wrong with this picture?

Risk avoidance is the moral of The Poseidon Adventure. A glorious old ocean liner, the Poseidon, is acquired by new owners who plan to scrap it. But these clever operators maximize shareholder value by billing the ship’s final voyage as a New Year’s cruise to Greece. They take on every paying passenger they can find, barter with a band to get free entertainment, and drive the underloaded ship hard and fast into the stormy winter Mediterranean over the protests of the captain and seasick travelers. At this point an undersea earthquake triggers a 90-foot tsunami, and despite ample warnings this monster wave broadsides the top-heavy liner at midnight, during the New Year’s party. First the ball drops. Then the other shoe drops. The result is the ultimate “Bottoms Up!”

And the takeaway of The Poseidon Adventure applies to all of the films and to life in general, not to mention the next few generations on the planet. As David McCollough’s famously concluded in The Johnstown Flood, it can be a fatal assumption ‘that the people who were responsible for your safety will act responsibly.’

You can have a ripping good time watching these old movies. And as futurists, sociologists, planners, catastrophists, humanists or transhumanists, you can conjure with them, too. Icebergs and U-boats have ceased to menace – of cruise ships, I say nothing.

But the same principles of egalitarianism, legitimacy, non-beligerence and prudential planning apply to Earth-crossing asteroids, CERN’s operations and program, Nano-Bio-Info-Cogno manipulations, monetary policy and international finance, and NATO deployments present and future.

Or do they? And if they do, who says so?

Ship beautiful — the Aquitania on her way.

CC BY-NC-ND Clark Matthews and The Lifeboat Foundation

Creative Commons License
Earth’s Titanic Challenges by Clark Matthews is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License.
Permissions beyond the scope of this license may be available at https://lifeboat.com.

High energy experiments like the LHC at the nuclear research centre CERN are extreme energy consumers (needing the power of a nuclear plant). Their construction is extremely costly (presently 7 Billion Euros) and practical benefits are not in sight. The experiments eventually pose existential risks and these risks have not been properly investigated.

It is not the first time that CERN announces record energies and news around April 1 – apparently hoping that some critique and concerns about the risks could be misinterpreted as an April joke. Additionally CERN regularly starts up the LHC at Easter celebrations and just before week ends, when news offices are empty and people prefer to have peaceful days with their friends and families.

CERN has just announced new records in collision energies at the LHC. And instead of conducting a neutral risk assessment, the nuclear research centre plans costly upgrades of its Big Bang machine. Facing an LHC upgrade in 2013 for up to CHF 1 Billion and the perspective of a Mega-LHC in 2022: How long will it take until risk researchers are finally integrated in a neutral safety assessment?

There are countless evidences for the necessity of an external and multidisciplinary safety assessment of the LHC. According to a pre-study in risk research, CERN fits less than a fifth of the criteria for a modern risk assessment (see the press release below). It is not acceptable that the clueless member states point at the operator CERN itself, while this regards its self-set security measures as sufficient, in spite of critique from risk researchers, continuous debates and the publication of further papers pointing at concrete dangers and even existential risks (black holes, strangelets) eventually arising from the experiments sooner or later. Presently science has to admit that the risk is disputed and basically unknown.

It will not be possible to keep up this ostrich policy much longer. Especially facing the planned upgrades of the LHC, CERN will be confronted with increasing critique from scientific and civil side that the most powerful particle collider has yet not been challenged in a neutral and multidisciplinary safety assessment. CERN has yet not answered to pragmatic proposals for such a process that also should constructively involve critics and CERN. Also further legal steps from different sides are possible.

The member states that are financing the CERN budget, the UN or private funds are addressed to provide resources to finally initiate a neutral and multidisciplinary risk assessment.

German version of this article published in Oekonews: http://www.oekonews.at/index.php?mdoc_id=1069458

Related LHC-Critique press release and open letter to CERN:

https://lifeboat.com/blog/2012/02/lhc-critique-press-release-feb-13-2012-cern-plans-mega-particle-collider-communication-to-cern-for-a-neutral-and-multi-disciplinary-risk-assessment-before-any-lhc-upgrade

Typical physicist’s April joke on stable black holes at the LHC (April 1 2012, German): http://www.scienceblogs.de/hier-wohnen-drachen/2012/04/stabiles-minischwarzes-loch-aus-higgsteilchen-erzeugt.php

Latest publications of studies demonstrating risks arising from the LHC experiment:

Prof Otto E. Rössler: http://www.academicjournals.org/AJMCSR/PDF/pdf2012/Feb/9%20Feb/Rossler.pdf

Thomas Kerwick B.Tech. M.Eng. Ph.D.: http://www.vixra.org/abs/1203.0055

Brief summary of the basic problem by LHC-Kritik (still valid since Sep. 2008): http://lhc-concern.info/wp-content/uploads/2008/12/lhc-kritik-cern-1st-statement-summary-908.pdf

Detailed summary of the scientific LHC risk discussion by LHC-Kritik and ConCERNed International: http://lhc-concern.info/wp-content/uploads/2010/03/critical-revision-of-lhc-risks_concerned-int.pdf

We wish you happy Easter and hope for your support of our pragmatic proposals to urgently increase safety in these new fields of nuclear physics.

LHC Critique / LHC Kritik — Network for Safety at nuclear and sub-nuclear high energy Experiments.

www.LHC-concern.info

[email protected]

Tel.: +43 650 629 627 5

New Facebook group: http://www.facebook.com/groups/LHC.Critique/

Famous Chilean philosopher Humberto Maturana describes “certainty” in science as subjective emotional opinion and astonishes the physicists’ prominence. French astronomer and “Leonardo” publisher Roger Malina hopes that the LHC safety issue would be discussed in a broader social context and not only in the closer scientific framework of CERN.

(Article published in “oekonews”: http://oekonews.at/index.php?mdoc_id=1067777 )

The latest renowned “Ars Electronica Festival” in Linz (Austria) was dedicated in part to an uncritical worship of the gigantic particle accelerator LHC (Large Hadron Collider) at the European Nuclear Research Center CERN located at the Franco-Swiss border. CERN in turn promoted an art prize with the idea to “cooperate closely” with the arts. This time the objections were of a philosophical nature – and they had what it takes.

In a thought provoking presentation Maturana addressed the limits of our knowledge and the intersubjective foundations of what we call “objective” and “reality.” His talk was spiked with excellent remarks and witty asides that contributed much to the accessibility of these fundamental philosophical problems: “Be realistic, be objective!” Maturana pointed out, simply means that we want others to adopt our point of view. The great constructivist and founder of the concept of autopoiesis clearly distinguished his approach from a solipsistic position.

Given Ars Electronica’s spotlight on CERN and its experimental sub-nuclear research reactor, Maturana’s explanations were especially important, which to the assembled CERN celebrities may have come in a mixture of an unpleasant surprise and a lack of relation to them.

During the question-and-answer period, Markus Goritschnig asked Maturana whether it wasn’t problematic that CERN is basically controlling itself and discarding a number of existential risks discussed related to the LHC — including hypothetical but mathematically demonstrable risks also raised — and later downplayed — by physicists like Nobel Prize winner Frank Wilczek, and whether he thought it necessary to integrate in the LHC safety assessment process other sciences aside from physics such as risk search. In response Maturana replied (in the video from about 1:17): “We human beings can always reflect on what we are doing and choose. And choose to do it or not to do it. And so the question is, how are we scientists reflecting upon what we do? Are we taking seriously our responsibility of what we do? […] We are always in the danger of thinking that, ‘Oh, I have the truth’, I mean — in a culture of truth, in a culture of certainty — because truth and certainty are not as we think — I mean certainty is an emotion. ‘I am certain that something is the case’ means: ‘I do not know’. […] We cannot pretend to impose anything on others; we have to create domains of interrogativity.”

Disregarding these reflections, Sergio Bertolucci (CERN) found the peer review system among the physicists’ community a sufficient scholarly control. He refuted all the disputed risks with the “cosmic ray argument,” arguing that much more energetic collisions are naturally taking place in the atmosphere without any adverse effect. This safety argument by CERN on the LHC, however, can also be criticized under different perspectives, for example: Very high energetic collisions could be measured only indirectly — and the collision frequency under the unprecedented artificial and extreme conditions at the LHC is of astronomical magnitudes higher than in the Earth’s atmosphere and anywhere else in the nearer cosmos.

The second presentation of the “Origin” Symposium III was held by Roger Malina, an astrophysicist and the editor of “Leonardo” (MIT Press), a leading academic journal for the arts, sciences and technology.

Malina opened with a disturbing fact: “95% of the universe is of an unknown nature, dark matter and dark energy. We sort of know how it behaves. But we don’t have a clue of what it is. It does not emit light, it does not reflect light. As an astronomer this is a little bit humbling. We have been looking at the sky for millions of years trying to explain what is going on. And after all of that and all those instruments, we understand only 3% of it. A really humbling thought. […] We are the decoration in the universe. […] And so the conclusion that I’d like to draw is that: We are really badly designed to understand the universe.”

The main problem in research is: “curiosity is not neutral.” When astrophysics reaches its limits, cooperation between arts and science may indeed be fruitful for various reasons and could perhaps lead to better science in the end. In a later communication Roger Malina confirmed that the same can be demonstrated for the relation between natural sciences and humanities or social sciences.

However, the astronomer emphasized that an “art-science collaboration can lead to better science in some cases. It also leads to different science, because by embedding science in the larger society, I think the answer was wrong this morning about scientists peer-reviewing themselves. I think society needs to peer-review itself and to do that you need to embed science differently in society at large, and that means cultural embedding and appropriation. Helga Nowotny at the European Research Council calls this ‘socially robust science’. The fact that CERN did not lead to a black hole that ended the world was not due to peer-review by scientists. It was not due to that process.”

One of Malina’s main arguments focused on differences in “the ethics of curiosity”. The best ethics in (natural) science include notions like: intellectual honesty, integrity, organized scepticism, dis-interestedness, impersonality, universality. “Those are the believe systems of most scientists. And there is a fundamental flaw to that. And Humberto this morning really expanded on some of that. The problem is: Curiosity is embodied. You cannot make it into a neutral ideal of scientific curiosity. And here I got a quote of Humberto’s colleague Varela: “All knowledge is conditioned by the structure of the knower.”

In conclusion, a better co-operation of various sciences and skills is urgently necessary, because: “Artists asks questions that scientists would not normally ask. Finally, why we want more art-science interaction is because we don’t have a choice. There are certain problems in our society today that are so tough we need to change our culture to resolve them. Climate change: we’ve got to couple the science and technology to the way we live. That’s a cultural problem, and we need artists working on that with the scientists every day of the next decade, the next century, if we survive it.

Then Roger Malina directly turned to the LHC safety discussion and articulated an open contradiction to the safety assurance pointed out before: He would generally hope for a much more open process concerning the LHC safety debate, rather than discussing this only in a narrow field of particle physics, concrete: “There are certain problems where we cannot cloister the scientific activity in the scientific world, and I think we really need to break the model. I wish CERN, when they had been discussing the risks, had done that in an open societal context, and not just within the CERN context.”

Presently CERN is holding its annual meeting in Chamonix to fix LHC’s 2012 schedules in order to increase luminosity by a factor of four for maybe finally finding the Higgs Boson – against a 100-Dollar bet of Stephen Hawking who is convinced of Micro Black Holes being observed instead, immediately decaying by hypothetical “Hawking Radiation” — with God Particle’s blessing. Then it would be himself gaining the Nobel Prize Hawking pointed out. Quite ironically, at Ars Electronica official T-Shirts were sold with the “typical signature” of a micro black hole decaying at the LHC – by a totally hypothetical process involving a bunch of unproven assumptions.

In 2013 CERN plans to adapt the LHC due to construction failures for up to CHF 1 Billion to run the “Big Bang Machine” at double the present energies. A neutral and multi-disciplinary risk assessment is still lacking, while a couple of scientists insist that their theories pointing at even global risks have not been invalidated. CERN’s last safety assurance comparing natural cosmic rays hitting the Earth with the LHC experiment is only valid under rather narrow viewpoints. The relatively young analyses of high energetic cosmic rays are based on indirect measurements and calculations. Sort, velocity, mass and origin of these particles are unknown. But, taking the relations for granted and calculating with the “assuring” figures given by CERN PR, within ten years of operation, the LHC under extreme and unprecedented artificial circumstances would produce as many high energetic particle collisions as occur in about 100.000 years in the entire atmosphere of the Earth. Just to illustrate the energetic potential of the gigantic facility: One LHC-beam, thinner than a hair, consisting of billions of protons, has got the power of an aircraft carrier moving at 12 knots.

This article in the Physics arXiv Blog (MIT’s Technology Review) reads: “Black Holes, Safety, and the LHC Upgrade — If the LHC is to be upgraded, safety should be a central part of the plans.”, closing with the claim: “What’s needed, of course, is for the safety of the LHC to be investigated by an independent team of scientists with a strong background in risk analysis but with no professional or financial links to CERN.”
http://www.technologyreview.com/blog/arxiv/27319/

Australian ethicist and risk researcher Mark Leggett concluded in a paper that CERN’s LSAG safety report on the LHC meets less than a fifth of the criteria of a modern risk assessment. There but for the grace of a goddamn particle? Probably not. Before pushing the LHC to its limits, CERN must be challenged by a really neutral, external and multi-disciplinary risk assessment.

Video recordings of the “Origin III” symposium at Ars Electronica:
Presentation Humberto Maturana:

Presentation Roger Malina:

“Origin” Symposia at Ars Electronica:
http://www.aec.at/origin/category/conferences/

Communication on LHC Safety directed to CERN
Feb 10 2012
For a neutral and multidisciplinary risk assessment to be done before any LHC upgrade
http://lhc-concern.info/?page_id=139

More info, links and transcripts of lectures at “LHC-Critique — Network for Safety at experimental sub-nuclear Reactors”:

www.LHC-concern.info

Twenty years ago, way back in the primordial soup of the early Network in an out of the way electromagnetic watering hole called USENET, this correspondent entered the previous millennium’s virtual nexus of survival-of-the-weirdest via an accelerated learning process calculated to evolve a cybernetic avatar from the Corpus Digitalis. Now, as columnist, sci-fi writer and independent filmmaker, [Cognition Factor — 2009], with Terence Mckenna, I have filmed rocket launches and solar eclipses for South African Astronomical Observatories, and produced educational programs for South African Large Telescope (SALT). Latest efforts include videography for the International Astronautical Congress in Cape Town October 2011, and a completed, soon-to-be-released, autobiography draft-titled “Journey to Everywhere”.

Cognition Factor attempts to be the world’s first ‘smart movie’, digitally orchestrated for the fusion of Left and Right Cerebral Hemispheres in order to decode civilization into an articulate verbal and visual language structured from sequential logical hypothesis based upon the following ‘Big Five’ questions,

1.) Evolution Or Extinction?
2.) What Is Consciousness?
3.) Is God A Myth?
4.) Fusion Of Science & Spirit?
5.) What Happens When You Die?

Even if you believe that imagination is more important than knowledge, you’ll need a full deck to solve the ‘Arab Spring’ epidemic, which may be a logical step in the ‘Global Equalisation Process as more and more of our Planet’s Alumni fling their hats in the air and emit primal screams approximating;
“we don’t need to accumulate (so much) wealth anymore”, in a language comprising of ‘post Einsteinian’ mathematics…

Good luck to you if you do…

Schwann Cybershaman

Greetings fellow travelers, please allow me to introduce myself; I’m Mike ‘Cyber Shaman’ Kawitzky, independent film maker and writer from Cape Town, South Africa, one of your media/art contributors/co-conspirators.

It’s a bit daunting posting to such an illustrious board, so let me try to imagine, with you; how to regard the present with nostalgia while looking look forward to the past, knowing that a millisecond away in the future exists thoughts to think; it’s the mode of neural text, reverse causality, non-locality and quantum entanglement, where the traveller is the journey into a world in transition; after 9/11, after the economic meltdown, after the oil spill, after the tsunami, after Fukushima, after 21st Century melancholia upholstered by anti-psychotic drugs help us forget ‘the good old days’; because it’s business as usual for the 1%; the rest continue downhill with no brakes. Can’t wait to see how it all works out.

Please excuse me, my time machine is waiting…
Post cyberpunk and into Transhumanism

After studying tables of current life expectancy (life expectancy increase per decade, in years, based upon United States National Vital Statistics) I found embedded a virtually perfect Fibonacci sequence. A Fibonacci sequence is a series of numbers as follows: 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, …etc, where each number is the sum of the previous two. See here for more details on the Fibonacci sequence: http://www.mathacademy.com/pr/prime/articles/fibonac/index.asp
To my knowledge, this has not been described before. This is important because, based on my ideas regarding Global Brain acting as a catalyst for promoting extreme human lifespans (http://hplusmagazine.com/2011/03/04/indefinite-lifespans-a-natural-consequence-of-the-global-brain/), it may help us predict with some accuracy any dramatic increases in life expectancy. For example, the model predicts that the current maximum lifespan of 110-120 years will be increased to 175 in the next 20-30 years.

In simple terms, the fact that life expectancy increases in a certain manner, and this manner obeys deep-routed and universal natural laws, indicates that it may be possible to:
1. Predict life expectancy in the near future. Based on the Fibonacci sequence,
a 90 year old today, can expect to live another 5 years
a 95 year old can expect to live another 8 years
a 103 year old can expect to live another 13 years, then…
a 116 year old can expect to live another 21 years
a 137 year old would expect to live another 34 years
a 171 year old would expect to live another 55 years
a 236 year old would expect to live another 89 years
a 325 year old can expect to live another 144 years,
and so on.

2. Question the presence of ageing and death in an ever-evolving intellectually sophisticated human (who is a valuable component of the Global Brain). Based on current facts, the Fibonacci sequence with regards to life expectancy ends abruptly when lifespan reaches the limit of approximately 120 years. Why is this so? Why should a naturally extending lifespan deviate from universal natural laws? Life expectancy should continue to increase as an individual manages to survive to a certain age. The presence of ageing and death could therefore be considered unnatural.

3. Support the notion that ‘you need to live long enough to live forever’ (see Kurzweil
http://en.wikipedia.org/wiki/Fantastic_Voyage:_Live_Long_Enough_to_Live_Forever, and also De Grey’s ‘Longevity Escape Velocity’ suggestions http://www.ted.com/index.php/talks/aubrey_de_grey_says_we_can_avoid_aging.html).

Those who manage to survive to extreme age are more likely to see their life expectancy increase even further, and so on, recursively. Kurzweil believes that this scenario will be achieved through use of technology. De Grey believes that this will be achieved via biological developments. I think that this ‘live long enough to live forever’ scenario will happen naturally (with minor input both from technology and from biological research). Those individuals who fully integrate their activities within the Global Brain will experience a natural-driven ever-increasing life expectancy.

For more details see https://acrobat.com/#d=MAgyT1rkdwono-lQL6thBQ

Marios Kyriazis

Stuart Kauffman and Giuseppe Longo

July 7, 2011

At least since Isaac Newton, an enduring belief among physicists and many other scientists has been that there is a fundamental set of laws, presumably concerning particle physics, that will deductively entail the entire evolution of the universe and all in it, including all of earthly life, the evolution of the biosphere, econosphere and even history. If so, nothing truly novel, ie un-entailed, can arise.

In this piece we provide strong grounds to say that the long held belief that there is a theory entailing all that happens in the universe is false. No Law entails the evolution of life. If so, reductionism is false, and we must think anew. Our world is not what we have thought.

Establishing such a strong claim will require a set of steps.

First, were classical physics correct, the entire evolution of the universe, stated Laplace, would be entirely determined by knowing the positions and momenta of all the particles in the universe and application of Newton’s three laws of motion and universal gravitation. In Laplace’s time, this fully determined behavior was also equated with predictability. Henri Poincare’, considering three gravitating bodies, showed that the behavior of this system was deterministic, but chaotic. Due to the famous sensitivity to initial conditions which lead to radically different behaviors, and because initial conditions cannot be specified with infinite precision, the universe and all in it might be deterministic, but unpredictable.

Quantum mechanics has, in effect, replaced the determinism of the classical physical world with indeterminism. Despite Einstein’s claim to the contrary, “God does play dice with the universe”. But familiar quantum mechanics is quantum “random”, as in the radioactive decay of a nucleus, acausally, a random “Poisson” process in time.

Our first step is to point out, as in a past NPR post, that biological evolution defies the twin pillars of contemporary physics, quantum mechanics and classical physics — never united. Mutations to the DNA of contemporary organisms is often an indeterminate quantum random event. Mutations supply Darwin’s “heritable variation”. Yet evolution itself by natural selection is NOT random. The eye has evolved eleven times. The octopus camera eye and vertebrate camera eye evolved independently, and are nearly identical except that in us the blood vessels lie between the retina and outside world, while in the octopus, the blood vessels sensibly lie behind the retina. The perfection of the camera eye stunned Darwin. The convergent evolution of the octopus and vertebrate eye is not random, but due to powerful selection. The convergent evolution of marsupial and mammalian forms, like the Tasmanian wolf and mammalian wolf are also examples of convergent, non-random evolution.

It does NOT follow from this that the evolution of the biosphere is not entailed by some still unknown law that may unite quantum mechanics and classical physics in an unexpected way. Conversely, the fact that quantum mechanics and classical physics in the form of General Relativity have NOT been united since 1927, while both play a role in biological evolution, is consistent with the possibility that the evolution of the biosphere is ENTAILED BY NO LAW AT ALL.

Central to the belief that there is some law “down there” that entails all that happens in a hierarchical way, is the belief that all can be derived by a kind of aggregation upward and entailment upward from some simplest parts, quarks, gluons, photons and electrons, say, or string theory — only these are fundamental entities.

We believe this view is mistaken. What we shall call “Kantian wholes” dominate what exists and evolves in the biosphere and exist AS WHOLES. Our theory builds from this.

Kant pointed out that in an “organized being” the parts exist for and by means of the whole, the whole exists for an by means of the parts. In a past post one of us introduced Collectively Autocatalytic Sets. Gonen Ashkenazi at Ben Gurion has a nine peptide (peptides are small proteins) collectively autocatalytic set. Each of the nine peptides catalyzes, or speeds up, the reaction binding together fragments of some other peptide into another copy of that other peptide. No peptide catalyzes its OWN formation. Rather, the SET AS A WHOLE has the property that each reaction requiring catalysis IS catalyzed by some other member of the set. In the collectively autocatalytic set, the set as a WHOLE catalyzes its own formation. Calling catalysis a Task, the collectively autocatalytic set achieves TASK CLOSURE.

A collectively autocatalytic set is an example of a Kantian Organized Being. The parts, here the peptides, exist in the universe for and by means of the whole which organizes their catalytic behaviors, while the whole exists in the universe for and by means of the parts. Given such a set, the function of a given peptide is DEFINABLE, its role lies in sustaining the whole, not jiggling water.

In his forthcoming book, “Incomplete Nature”, Terrance Deacon, a professor at U.C. Berkeley, points out that philosopher Jagwon Kim has argued that even such Kantian wholes do not preclude deduction upward from particles to wholes. But, points out Kim, according to Deacon who agrees, that argument rests on classical “materialism” ie the classical physics of point particles and fields. Deacon rightly notes that quantum mechanics, as in Feynman’s sum over all possible pathways the photon might take through the two slits, obviates such a naive materialism. The position and momentum of a particle cannot be jointly measured with precision, quantum mechanics precludes point particles existing prior to measurement, and quantum systems are ineluctably “wholes”. Thus the collectively autocatalytic set is a Kantian “Organized Being” whose ever changing atoms and molecules exist in the universe — when most complex things will never exist — as a whole in its own right, an entity which is sustained existing in the universe by the linked dynamical classical and quantum processes of parts and whole enabling one another. The specific peptides may come and go, yet the Kantian whole remain as a self sustaining, partly quantum, partly classical, perhaps partly Poised Realm, process.

Next, note that a biological reproducing CELL achieves a TASK CLOSURE that involves much more than catalytic tasks, and includes protein trafficking, membrane formation and deformation, work cycles and mitosis.

The wonderfully mysterious issue is this: Given any part or process or set of parts or processes in a cell, say molecules, each part, alone or with others, has an unbounded, unorderable, set of causal and quantum consequences, and, in addition, each consequence or set of consequences has an apparently unbounded and unorderable set of potential uses. Thus, the ordering of water molecules by one protein may form a quantum electron transfer pathway with a nearby protein that happens to order water molecules. Or a protein fragment, by Darwinian preadaptation, may become part of the flagellar motor of a bacterium. In short, for any single or indefinite set of parts and processes, their causal and quantum relations NEED ONLY FIND SOME UNPRESPECIFIED USE alone or together, which augments the capacity of the cell to survive in some selective enviornment. If this occurs, these NOW SPECIFIC BUT UNPRESTATABLE causal consequences, and the new SPECIFIC BUT UNPRESTATABLE functionality, come to exist more or less stably in the universe in an evolving Kantian whole. More, that environment may consist of other cells, as in a mixed microbial community co-evolving with one another often by Darwinian UNPRESTATBLE preadaptations. Further, as posted before on NPR, new unprestatable adjacent possible empty niches WHICH ARE NOT THEMSELVES SELECTED FOR AS NEW NICHES PER SE, come to exist in the universe, and alter the very possibilities that future evolution may or will occupy. Without selection, the biosphere builds some of the very possibilities it becomes. We do not know what those new niches will be.

Critically, there is no way to say ahead of time which of these untold causal and quantum consequences of one or many parts may alone or jointly find some unprestatable use in the evolving cell. All that matters is that SOME KANTIAN ORGANIZED BEING CONTINUES TO EXIST IN THE UNIVERSE, and perhaps is even fitter. More, there is no way to say which new adjacent possible empty niches come to exist, without selection, and modify the future possible evolution of the biosphere.

After the fact we can analyze the new Kantian whole. Before the fact, we can say essentially nothing.

Now Newton taught us how to do science: i establish the laws of motion, eg. his three laws of motion and universal gravitation. ii measure the initial conditions, say the positions and momenta of the billiard balls on the billiard table. iii Establish the boundary conditions, say the boundaries of the billiard table. iv. State his laws in differential equation form. v. Integrate the equations, given initial and boundary conditions, to deduce the now ENTAILED future, (and past) perhaps chaotic, deterministic trajectories of the balls.

We now claim two major points: i. We cannot derive the laws of motion of co-evolving cells, Kantian wholes, making their worlds with one another by means including preadaptations. ii. Even if we could, we do not know the selective conditions which constitute the boundary conditions on the laws of motion which we do not, in any case, have, thus even if we had them, we cannot integrate those laws to obtain the entailed becoming of the co-evolving cells or species in the biosphere.

We make point i, No Laws of Motion. Consider the syllogism: All men are mortals. Socrates is a man. Therefor Socrates is a mortal. Now try: All bibbles are thwap. Gloup is a bibble. Therefore Gloup is a thwap. The first syllogism’s truth rests on our knowing the meaning of the true first and second premises. In the second syllogism, we have no idea if “all bibbles are indeed thwap, nor if “Gloup is in fact a bibble. We do not know if the major and minor premises are true, so do not know if the conclusion follows deductively. If we do not BEFORE HAND know the relevant variables, their causal and quantum consequences that play now functional roles in sustaining the Kantian organized being of the evolving cell or co-evolving cells, then beforehand we have NO WORDS for those functional roles. Hence we neither know the meanings of those words and, it follows, we cannot mathematize beforehand the becoming of the biosphere.

The claim that we cannot mathematize beforehand the becoming of the biosphere without knowing the meanings of concepts beforehand rests on the increasingly accepted view that the foundations of mathematics cannot be merely syntactic manipulations of uninterpreted symbols from axioms of uninterpreted symbols defined as true. Rather, the modern “constructivist” view of mathematics is that founding concepts with semantics are needed. However, the meanings of those concepts must be known beforehand to erect the mathematics. But we do not know the concepts beforehand. In short, we can have NO LAWS OF MOTION for the evolving Kantian wholes literally co-creating the biosphere.

(We note that the syllogism case is slightly misleading for this logic is complete, and even the “bibble” example is formally valid. In the general case, the constructivist view DOES require that the meanings of terms be known before hand to construct the mathematics.)

Point ii. Consider again the evolution by UNPRESTABLE preadaptation of the swim bladder, the sac partly filled with air and water, adjusting neutral buoyancy in the water column of some fish, derived from the lungs of lung fish. Once the swim bladder existed, it thereby CONSITITUTED AN EMPTY ADJACENT POSSIBLE NICHE. A bacterium or worm might evolve to live only in swim bladders. But BEFORE THE UNPRESTATABLE EMERGENCE OF THE SWIM BLADDER, we do not know the new empty adjacent possible niche. But that niche constitutes the very BOUNDARY CONDTIONS on natural selection molding the evolution of the bacterium or worm. If follows that because we DO NOT KNOW THE BOUNDARY CONDITIONS we cannot integrate the laws of motion of the biosphere, which law of motion we do not have anyway. Had we those laws, our task would be like integrating the motions of the billiard balls on a billiard table with unknown and ever changing boundaries. We could not integrate Newton’s laws.

In summary, there ARE NO LAWS THAT ENTAIL THE BECOMING OF THE BIOSPHERE, and a fortiori, the econosphere, or culture or history, or life in general.

We are at a terminus of Reductionism, the belief that there must be a law or set of laws “down there” that entails all that becomes in the universe.

Newton taught us that the universe is a vast mechanism, a view that persists in General Relativity and even quantum mechanics with its peculiar measurement process among known possibilities with known probabilities. All remains entailed from below. Heraclitus taught us 2700 years ago that the universe “bubbles forth”. For the becoming of the biosphere and all of life, we hold that Hericlitus was right. Life bubbles forth.

Note: Earlier hints and discussion of these topics are in S. Kauffman, Investigations, 2000, Oxford University Press, and Reinventing the Sacred, 2008, Basic Books, and F. Bailly and G. Longo, Mathematics and the Natural Sciences: The Physical Singularity of Life, Imperial College Press.

Giuseppe Longo http://www.di.ens.fr/users/longo, Stuart Kauffman http://npr.org/blogs/13.7

Dear Lifeboat Foundation Family & Friends,

A few months back, my Aunt Charlotte wrote, wondering why I — a relentless searcher focused upon human evolution and long-term human survival strategy, had chosen to pursue a PhD in economics (Banking & Finance). I recently replied that, as it turns out, sound economic theory and global financial stability both play central roles in the quest for long-term human survival. In the fifth and final chapter of my recent Masters thesis, On the Problem of Sustainable Economic Development: A Game-Theoretical Solution, I argued (with considerable passion) that much of the blame for the economic crisis of 2008 (which is, essentially still upon us) may be attributed the adoption of Keynesian economics and the dismissal of the powerful counter-arguments tabled by his great rival, F.A. von Hayek. Despite the fact that they remained friends all the way until the very end, their theories are diametrically opposed at nearly every point. There was, however, at least one central point they agreed upon — indeed, Hayek was fond of quoting one of Keynes’ most famous maxims: “The ideas of economists and political philosophers, both when they are right and when they are wrong, are more powerful than is commonly understood. Indeed the world is ruled by little else” [1].

And, with this nontrivial problem and and the great Hayek vs. Keynes debate in mind, I’ll offer a preview-by-way-of-prelude with this invitation to turn a few pages of On the Problem of Modern Portfolio Theory: In Search of a Timeless & Universal Investment Perspective:

It is perhaps significant that Keynes hated to be addressed as “professor” (he never had that title). He was not primarily a scholar. He was a great amateur in many fields of knowledge and the arts; he had all the gifts of a great politician and a political pamphleteer; and he knew that “the ideas of economists and political philosophers, both when they are right and when they are wrong, are more powerful than is generally understood. Indeed the world is ruled by little else” [1]. And as he had a mind capable of recasting, in the intervals of his other occupations, the body of current economic theory, he more than any of his compeers had come to affect current thought. Whether it was he who was right or wrong, only the future will show. There are some who fear that if Lenin’s statement is correct that the best way to destroy the capitalist system is to debauch the currency, of which Keynes himself has reminded us [1], it will be largely due to Keynes’s influence if this prescription is followed.…

Perhaps the explanation of much that is puzzling about Keynes’s mind lies in the supreme confidence he had acquired in his power to play on public opinion as a supreme master plays on his instrument. He loved to pose in the role of a Cassandra whose warnings were not listened to. But, in fact, his early success in swinging round public opinion about the peace treaties had given him probably even an exaggerated estimate of his powers. I shall never forget one occasion – I believe the last time that I met him – when he startled me by an uncommonly frank expression of this. It was early in 1946, shortly after he had returned from the strenuous and exhausting negotiations in Washington on the British loan. Earlier in the evening he had fascinated the company by a detailed account of the American market for Elizabethan books which in any other man would have given the impression that he had devoted most of his time in the United States to that subject. Later a turn in the conversation made me ask him whether he was not concerned about what some of his disciples were making of his theories. After a not very complimentary remark about the persons concerned, he proceeded to reassure me by explaining that those ideas had been badly needed at the time he had launched them. He continued by indicating that I need not be alarmed; if they should ever become dangerous I could rely upon him again quickly to swing round public opinion – and he indicated by a quick movement of his hand how rapidly that would be done. But three months later he was dead [2].

As always, any and all comments, criticisms, thoughts, and suggestions are welcome!

Bidding you Godspeed,

Matt Funk, FLS, PhD Candidate, University of Malta, Dept. of Banking & Finance

[1]. KE YNES, J. (1920). The General Theory of Employment, Interest and Money (Palgrave Macmillan, London).

[2]. HAYEK, F. (1952). Review of R.F. Harrod’s ‘The Life of John Maynard Keynes’. J of Mod Hist 24:195–198.

Perhaps the most important lesson, which I have learned from Mises, was a lesson located outside economics itself. What Mises taught us in his writings, in his lectures, in his seminars, and in perhaps everything he said, was that economics—yes, and I mean sound economics, Austrian economics—is primordially, crucially important. Economics is not an intellectual game. Economics is deadly serious. The very future of mankind —of civilization—depends, in Mises’ view, upon widespread understanding of, and respect for, the principles of economics.

This is a lesson, which is located almost entirely outside economics proper. But all Mises’ work depended ultimately upon this tenet. Almost invariably, a scientist is motivated by values not strictly part of the science itself. The lust for fame, for material rewards—even the pure love of truth—these goals may possibly be fulfilled by scientific success, but are themselves not identified by science as worthwhile goals. What drove Mises, what accounted for his passionate dedication, his ability to calmly ignore the sneers of, and the isolation imposed by academic contemporaries, was his conviction that the survival of mankind depends on the development and dissemination of Austrian economics…

Austrian economics is not simply a matter of intellectual problem solving, like a challenging crossword puzzle, but literally a matter of the life or death of the human race.

–Israel M. Kirzner, Society for the Development of Austrian Economics Lifetime Achievement Award Acceptance Speech, 2006

Dear Lifeboat Foundation family & friends,

This 243-page thesis and this 16-page executive summary deliver a tenable, game-theoretical solution to this complex global dilemma:

Our narrative tables evolutionarily stable strategy for the problem of sustainable economic development on earth and other earth-like planets. In order to accomplish the task at hand with so few words, we hit the ground running with an exploration of Bertrand Russell’s conjecture that economic power is a derivative function of military power. Next we contextualize the formidable obstacle presented of teleological thinking. Third, we introduce Truly Non-cooperative Games – axioms and complimentary negotiation models developed to analyze a myriad of politico-economic problems, including the problem of sustainable economic development. Here we present The Principle of Relative Insularity, a unified theory of value which unites economics, astrophysics, and biology. Finally, we offer a synthetic narrative in which we explore several crucial logical implications that follow from our findings.

Those interested in background details and/or a deeper exploration of the logical implications that follow from this theoretical development may wish to pursue a few pages of an comprehensive, creative, and thoroughly exhaustive letter of introduction to this abridged synthesis: The Principles of Economics & Evolution: A Survival Guide for the Inhabitants of Small Islands, Including the Inhabitants of the Small Island of Earth.

Those interested in considering how this game-theoretical solution informs “evolutionarily stable” investment strategy may also wish to take in a brief overview of my PhD research: On the Problem of Modern Portfolio Theory: In Search of a Timeless & Universal Investment Perspective.

Please feel free to post all thoughts, comments, criticisms, and suggestions.

Thanks for reading!

Sincerely,

Matt Funk, FLS, BSc, MA, MFA, PhD Candidate, University of Malta, Department of Banking & Finance

PS: The author would like to thank the Lifeboat Foundation, Linnean Society of London, Property and Environment Research Center, Society for Range Management, Professors Kurial, Nagarajan, Baldacchino, Fielding, Falzon (University of Malta), Lockwood (University of Wyoming), MacKinnon (Memorial University), Sloan (Lancaster University), McKenna (Notre Dame), Schlicht (Ludwig-Maximilians- Universität München) and his dedicated team at MPRA, author & astronomer Jeff Kanipe, Dr Willard S. Boyle, Dr John Harris, fellow students, family, and friends for their priceless guidance, support, and encouragement. He also sends out a very special thanks to Professors Frey (Universität Zürich), Selten (Universität Bonn), and Nash (Princeton University) for their originality, independence, and inspiration.

A (Relatively) Brief Introduction to The Principles of Economics & Evolution: A Survival Guide for the Inhabitants of Small Islands, Including the Inhabitants of the Small Island of Earth

Posted by Matt Funk in asteroid/comet impacts, biological, complex systems, cosmology, defense, economics, existential risks, geopolitics, habitats, human trajectories, lifeboat, military, philosophy, sustainabilityTagged , , , , , , , , , , , | 2 Comments on A (Relatively) Brief Introduction to The Principles of Economics & Evolution: A Survival Guide for the Inhabitants of Small Islands, Including the Inhabitants of the Small Island of Earth

(NOTE: Selecting the “Switch to White” button on the upper right-hand corner of the screen may ease reading this text).

“Who are you?” A simple question sometimes requires a complex answer. When a Homeric hero is asked who he is.., his answer consists of more than just his name; he provides a list of his ancestors. The history of his family is an essential constituent of his identity. When the city of Aphrodisias… decided to honor a prominent citizen with a public funeral…, the decree in his honor identified him in the following manner:

Hermogenes, son of Hephaistion, the so-called Theodotos, one of the first and most illustrious citizens, a man who has as his ancestors men among the greatest and among those who built together the community and have lived in virtue, love of glory, many promises of benefactions, and the most beautiful deeds for the fatherland; a man who has been himself good and virtuous, a lover of the fatherland, a constructor, a benefactor of the polis, and a savior.
– Angelos Chaniotis, In Search of an Identity: European Discourses and Ancient Paradigms, 2010

I realize many may not have the time to read all of this post — let alone the treatise it introduces — so for those with just a few minutes to spare, consider abandoning the remainder of this introduction and spending a few moments with a brief narrative which distills the very essence of the problem at hand: On the Origin of Mass Extinctions: Darwin’s Nontrivial Error.

But for those with the time and inclinations for long and windy paths through the woods, please allow me to introduce myself: I was born and raised in Kentland, Indiana, a few blocks from the train station where my great-great grandfather, Barney Funk, arrived from Germany, on Christmas day of 1859. I completed a BSc in Entrepreneurship and an MFA in film at USC, and an MA in Island Studies at UPEI. I am a naturalist, Fellow of The Linnean Society of London, PhD candidate in economics at the University of Malta, hunter & fisherman, NRA member, protective father, and devoted husband with a long, long line of illustrious ancestors, a loving mother & father, extraordinary brothers & sister, wonderful wife, beautiful son & daughter, courageous cousins, and fantastic aunts, uncles, in-laws, colleagues, and fabulous friends!

Thus my answer to the simple question, “Who are you?” requires a somewhat complex answer as well.

But time is short and I am well-positioned to simplify because all of the hats I wear fall under a single umbrella: I am a friend of the Lifeboat Foundation (where I am honoured to serve on the Human Trajectories, Economics, Finance, and Diplomacy Advisory Boards), a foundation “dedicated to encouraging scientific advancements while helping humanity survive existential risks.”

Almost everything I do – including the roles, associations, and relationships noted above, supports this mission.

It’s been nearly a year since Eric generously publish Principles of Economics & Evolution: A Survival Guide for the Inhabitants of Small Islands, Including the Inhabitants of the Small Island of Earth, and since that time I have been fortunate to receive many interesting and insightful emails packed full of comments and questions; thus I would like to take this opportunity to introduce this work – which represents three years of research.

Those interested in taking the plunge and downloading the file above may note that this discourse

tables an evolutionarily stable strategy for the problem of sustainable economic development – on islands and island-like planets (such as Earth), alike, and thus this treatise yields, in essence, a long-term survival guide for the inhabitants of Earth.

Thus you may expect a rather long, complex discourse.

This is indeed what you may find – a 121 page synthesis, including this 1,233 page Digital Supplement.

As Nassim Nicholas Taleb remarked in Fooled by Randomness:

I do not dispute that arguments should be simplified to their maximum potential; but people often confuse complex ideas that cannot be simplified into a media-friendly statement as symptomatic of a confused mind. MBAs learn the concept of clarity and simplicity—the five-minute manager take on things. The concept may apply to the business plan for a fertilizer plant, but not to highly probabilistic arguments—which is the reason I have anecdotal evidence in my business that MBAs tend to blow up in financial markets, as they are trained to simplify matters a couple of steps beyond their requirement.

But there is indeed a short-cut — in fact, there are at least two short-cuts.

First, perhaps the most direct pleasant approach to the summit is a condensed, 237 page thesis: On the Problem of Sustainable Economic Development: A Game-Theoretical Solution.

But for those pressed for time and/or those merely interested in sampling a few short, foundational works (perhaps to see if you’re interested in following me down the rabbit hole), the entire theoretical content of this 1,354-page report (report + digital supplement) may be gleamed from 5 of the 23 works included within the digital supplement. These working papers and publications are also freely available from the links below – I’ll briefly relate how these key puzzle pieces fit together:

The first publication offers a 13-page over-view of our “problem situation”: On the Origin of Mass Extinctions: Darwin’s Nontrivial Error.

Second is a 21-page game-theoretical development which frames the problem of sustainable economic development in the light of evolution – perhaps 70% of our theoretical content lies here: On the Truly Noncooperative Game of Life on Earth: In Search of the Unity of Nature & Evolutionary Stable Strategy.

Next comes a 113-page gem which attempts to capture the spirit and essence of comparative island studies, a course charted by Alexander von Humboldt and followed by every great naturalist since (of which, more to follow). This is an open letter to the Fellows of the Linnean Society of London, a comparative study of two, diametrically opposed economic development plans, both put into action in that fateful year of 1968 — one on Prince Edward Island, the other on Mustique. This exhaustive work also holds the remainder of the foundation for our complete solution to this global dilemma – and best of all, those fairly well-versed in game theory need not read it all, the core solution may be quickly digested on pages 25–51:
On the Truly Noncooperative Game of Island Life: Introducing a Unified Theory of Value & Evolutionary Stable ‘Island’ Economic Development Strategy.

Fourth comes an optional, 19-page exploration that presents a theoretical development also derived and illuminated through comparative island study (including a mini-discourse on methods). UPEI Island Studies Programme readers with the time and inclination for only one relatively short piece, this may be the one to explore. And, despite the fact that this work supports the theoretical content linked above, it’s optional because there’s nothing new here – in fact, these truths have been well known and meticulously documented for over 1,000 years – but it may prove to be a worthwhile, engaging, and interesting read nonetheless, because these truths have become so unfashionable that they’ve slipped back into relative obscurity: On the Problem of Economic Power: Lessons from the Natural History of the Hawaiian Archipelago.

And finally I’ll highlight another optional, brief communique – although this argument may be hopelessly compressed, here, in 3 pages, is my entire solution:
Truly Non-Cooperative Games: A Unified Theory.

Yes, Lifeboat Foundation family and friends, you may wish to pause to review the abstracts to these core, foundational works, or you may even wish to review them completely and put the puzzle pieces together yourself (the pages linked above total 169 – or a mere 82 pages if you stick to the core excerpt highlighted in my Linnean Letter), but, as the great American novelist Henry Miller remarked:

In this age, which believes that there is a short cut to everything, the greatest lesson to be learned is that the most difficult way is, in the long run, the easiest.

Why?

That’s yet another great, simple question that may require several complex answers, but I’ll give you three:

#1). First and foremost, because explaining is a difficult art.

As Richard Dawkins duly noted:

Explaining is a difficult art. You can explain something so that your reader understands the words; and you can explain something so that the reader feels it in the marrow of his bones. To do the latter, it sometimes isn’t enough to lay the evidence before the reader in a dispassionate way. You have to become an advocate and use the tricks of the advocate’s trade.

Of course much of this depends upon the reader – naturally some readers may find that less (explanation) is more. Others, however, may find benefit from reading even more (more, that is, than my report and the digital supplement). You may find suggested preliminary and complimentary texts in the SELECTED BIBLIOGRAPHY (below). The report itself includes these and many more. In short, the more familiar readers may be with some or all of these works, the less explaining they may require.

#2). No matter how much explaining you do, it’s actually never enough, and, as Abraham Lincoln wisely noted at Gettysburg, the work is never done. For more one this important point, let’s consider the words of Karl Popper:

When we propose a theory, or try to understand a theory, we also propose, or try to understand, its logical implications; that is, all those statements which follow from it. But this… is a hopeless task: there is an infinity of unforeseeable nontrivial statements belonging to the informative content of any theory, and an exactly corresponding infinity of statements belonging to its logical content. We can therefore never know or understand all the implications of any theory, or its full significance.
This, I think, is a surprising result as far as it concerns logical content; though for informative content it turns out to be rather natural…. It shows, among other things, that understanding a theory is always an infinite task, and that theories can in principle be understood better and better. It also shows that, if we wish to understand a theory better, what we have to do first is to discover its logical relation to those existing problems and existing theories which constitute what we may call the ‘problem situation’.
Admittedly, we also try to look ahead: we try to discover new problems raised by our theory. But the task is infinite, and can never be completed.

In fact, when it comes right down to it, my treatise – in fact, my entire body of research, is, in reality, merely an exploration of the “infinity of unforeseeable nontrivial statements belonging to the informative content” of the theory for which Sir Karl Popper is famous: his solution to David Hume’s problem of induction (of which you’ll hear a great deal if you brave the perilous seas of thought in the works introduced and linked herewith).

#3). Okay, this is a tricky one, but here it goes: Fine, a reasonable skeptic may counter, I get it, it’s hard to explain and there’s a lot of explaining to do – but if 100% of the theoretical content may be extracted from less than 200 pages, then doesn’t that mean you could cut about 1,000 pages?

My answer?

Maybe.

But then again, maybe not.

The reality of the situation is this: neither I nor anyone else can say for sure – this is known as the mind-body problem. In essence, given the mind-body problem, not only am I unable to know exactly how to explain something I know, moreover, I’m not even able to know how it is that I know what I know. I’m merely able to guess. Although this brief introduction is not the proper time nor place to explore the contents of this iteration of Pandora’s Box, those interested in a thorough exploration of this particular problem situation would be well-served with F.A. von Hayek’s The Sensory Order: An Inquiry into the Foundations of Theoretical Psychology (1952). But, in short, the bulk of the Digital Supplement and much of the report itself is merely an attempt to combat the mind-body problem – an attempt to put down as much of the history (and methodology) of this theoretical development as possible. As Descartes remarked at the outset of a treatise on scientific method:

This Tract is put forth merely as a history, or, if you will, as a tale, in which, amid some examples worthy of imitation, there will be found, perhaps, as many more which it were advisable not to follow, I hope it will prove useful to some without being hurtful to any, and that my openness will find some favor with all.

Perhaps you may grasp my theoretical development – but perhaps you may grasp it in a matter by which I did not intend for you to grasp it – perhaps I had stumbled upon a truth in another work within my digital supplement that may make it all clear. Or, perhaps I’ve got it all wrong, and perhaps you – by following in my footsteps through the historical course of this theoretical development (faithfully chronicled in the digital supplement) – may be able to help show me my error (and then, of course we may both rejoice); Malthus felt likewise:

If [the author] should succeed in drawing the attention of more able men to what he conceives to be the principal difficulty in… society and should, in consequence, see this difficulty removed, even in theory, he will gladly retract his present opinions and rejoice in a conviction of his error.

Anticipating another point regarding style: This report is very, very unusual insofar as style is concerned. It’s personal, highly opinionated, and indulges artistic license at almost every turn in the road. In fact, you may also find this narrative a touch artistic – yet it’s all true. As Norman Maclean remarked in A River Runs Trough It, “You like to tell true stories, don’t you?’ he asked, and I answered, ‘Yes, I like to tell stories that are true.’”

I like to tell stories that are true, too, and if you like to read them, then this epic journey of discovery may be for you. I speak to this point at length, but, in short, I submit that there is a method to the madness (in fact, the entire report may also be regarded as an unusual discourse on method).

Why have I synthesized this important theoretical development in an artistic narrative? In part, because Bruno Frey (2002) clearly stated why that’s the way it should be.

But I also did so in hopes that it may help readers grasp what it’s really all about; as the great Russian-American novelist Ayn Rand detailed:

Man’s profound need of art lies in the fact that his cognitive faculty is conceptual, i.e., that he acquires knowledge by means of abstractions, and needs the power to bring his widest metaphysical abstractions into his immediate, perceptual awareness. Art fulfills this need: by means of a selective re-creation, it concretizes man’s fundamental view of himself and of existence. It tells man, in effect, which aspects of his experience are to be regarded as essential, significant, important. In this sense, art teaches man how to use his consciousness.

Speaking of scientific method: I have suggested that my curiously creative narrative may offer some insight into the non-existent subject of scientific method — so please download for much more along these lines — but I want to offer an important note, especially for colleagues, friends, students, and faculty at UPEI: I sat in on a lecture last winter where I was surprised to learn that “island studies” had been recently invented by Canada research chair – thus I thought perhaps I should offer a correction and suggest where island studies really began:

Although it is somewhat well known that Darwin and Wallace pieced the theory of evolution together independently, yet at roughly the same time – Wallace, during his travels through the Malay archipelago, and Darwin, during his grand circumnavigation of the island of Earth onboard the Beagle (yes, the Galapagos archipelago played a key role, but perhaps not as important as has been suggested in the past). But what is not as commonly know is that both Darwin and Wallace had the same instructor in the art of comparative island studies. Indeed, Darwin and Wallace both traveled with identical copies of the same, treasured book: Alexander von Humboldt’s Personal Narrative of Travels to the Equinoctial Regions of the New Continent. Both also testified to the fundamental role von Humboldt played by inspiring their travels and, moreover, developing of their theories.

Thus, I submit that island studies may have been born with the publication of this monumental work in 1814; or perhaps, as Berry (2009) chronicled in Hooker and Islands (see SELECTED BIBLIOGRAPHY, below), it may have been Thomas Pennant or Georg Forster:

George Low of Orkney provided, together with Gilbert White, a significant part of the biological information used by pioneering travel writer Thomas Pennant, who was a correspondent of both Joseph Banks and Linnaeus [Pennant dedicated his Tour in Scotland and Voyage to the Hebrides (1774–76) to Banks and published Banks’s description of Staffa, which excited much interest in islands; Banks had travelled with James Cook and visited many islands; Georg Forster, who followed Banks as naturalist on Cook’s second voyage inspired Alexander Humboldt, who in turn Darwin treated as a model.

But whomever it may have been — or whomever you may ultimately choose to follow — Humboldt certainly towers over the pages of natural history, and Gerard Helferich’s Humboldt’s Cosmo’s: Alexander von Humboldt and the Latin American Journey that Changed the WayWe See the World (2004) tells Humboldt’s story incredibly well. This treasure also happens to capture the essence of Humboldt’s method, Darwin’s method, Wallace’s method, Mayr’s method, Gould’s method, and it most certainly lays out the map I have attempted to follow:

Instead of trying to pigeonhole the natural world into prescribed classification, Kant had argued, scientists should work to discover the underlying scientific principles at work, since only those general tenets could fully explain the myriad natural phenomena. Thus Kant had extended the unifying tradition of Thales, Newton, Descartes, et al.… Humboldt agreed with Kant that a different approach to science was needed, one that could account for the harmony of nature… The scientific community, despite prodigious discoveries, seemed to have forgotten the Greek vision of nature as an integrated whole.… ‘Rather than discover new, isolated facts I preferred linking already known ones together,’ Humboldt later wrote. Science could only advance ‘by bringing together all the phenomena and creations which the earth has to offer. In this great sequence of cause and effect, nothing can be considered in isolation.’ It is in this underlying connectedness that the genuine mysteries of nature would be found. This was the deeper truth that Humboldt planned to lay bare – a new paradigm from a New World. For only through travel, despite its accompanying risks, could a naturalist make the diverse observations necessary to advance science beyond dogma and conjecture. Although nature operated as a cohesive system, the world was also organized into distinct regions whose unique character was the result of all the interlocking forces at work in that particular place. To uncover the unity of nature, one must study the various regions of the world, comparing and contrasting the natural processes at work in each. The scientist, in other words, must become an explorer.

With these beautiful words in mind and the spirit of adventure in the heart, I thank you for listening to this long story about an even longer story, please allow me to be your guide through an epic adventure.

But for now, in closing, I’d like to briefly return to the topic at hand: human survival on Earth.

A few days ago, Frenchman Alain Robert climbed the world’s tallest building – Burj Khalifa – in Dubai.

After the six hour climb, Robert told Gulf News, “My biggest fear is to waste my time on earth.”

I certainly share Robert’s fear – Alexander von Humboldt, Darwin, and Wallace did, too, by the way.

But then Robert added, “To live, we don’t need much, just a roof over our heads some food and drink and that’s it … everything else is superficial.”

I’m afraid that’s where Robert and I part ways – and if you would kindly join me on a journey through The Principles of Economics & Evolution: A Survival Guide for the Inhabitants of Small Islands, Including the Inhabitants of the Small Island of Earth – I would love to explain why Robert’s assertion is simply not true.

Please feel free to post comments or contact me with any thoughts, comments, questions, or suggestions.

MWF
Charlottetown, Prince Edward Island

PS: My report suggests many preliminary and complimentary readings – but I’ve revisited this topic with the aim of producing a selected bibliography of the most condensed and readily accessible (i.e, freely available online) works which may help prepare the reader for my report and the foundational theoretical discourses noted and linked above. Most are short papers, but a few great books and dandy dissertations may be necessary as well!

SELECTED BIBLIOGRAPHY

BERRY, R. (2009). Hooker and islands. Bio Journal Linn Soc 96:462–481.

DARWIN, C., WALLACE, A. (1858). On the Tendency of Species to form Varieties; and on the Perpetuation of Varieties and Species by Natural Means of Selection. Proc Linn Soc 3:45–62.

DARWIN, C., et. al. (1849). A Manual of Scientific Enquiry; Prepared for the use of Her Majesty’s Navy : and Adapted for Travellers in General (Murray, London).

DOBZHANSK Y, T. (1973). Nothing in biology makes sense except in light of evolution. Amer Biol Teacher 35:125- 129.

EINSTEIN, A. (1920). Relativity: The Special and General Theory (Methuen & Co., London).

FIELDING, R. (2010). Artisanal Whaling in the Atlantic: A Comparative Study of Culture, Conflict, and Conservation in St. Vincent and the Faroe Islands. A PhD dissertation (Louisiana State University, Baton Rouge).

FREY, B. (2002). Publishing as Prostitution? Choosing Between One‘s Own Ideas and Academic Failure. Pub Choice 116:205–223.

FUNK, M. (2010a). Truly Non-Cooperative Games: A Unified Theory. MPRA 22775:1–3.

FUNK, M. (2008). On the Truly Noncooperative Game of Life on Earth: In Search of the Unity of Nature & Evolutionary Stable Strategy. MPRA 17280:1–21.

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