Charlton, BG. Reconceptualizing the metaphysical basis of biology: a new definition based on deistic teleology and an hierarchy of organizing entities(2016) The Winnower.
DOI: 10.15200/winn.145830.07350
This is the final, archived, version of my 10,000 word paper on the nature of biology. (It has several significant differences from the draft version I published a few weeks ago.)
For ease of reading, I suggest downloading and printing the PDF file version of the journal article:
https://www.thewinnower.com/papers/3497-reconceptualizing-the-metaphysical-basis-of-biology-a-new-definition-based-on-deistic-teleology-and-an-hierarchy-of-organizing-entities
Reconceptualizing the metaphysical basis of biology: a new definition based on deistic teleology and an hierarchy of organizing entities
Bruce G Charlton
School of Psychology, Newcastle University, NE1 7RU, England
Abstract
Modern biology was initially established by Darwin’s Origin of Species in 1859 and fully implemented by the Neo-Darwinian synthesis of natural selection with genetics that solidified in the middle twentieth century. I will argue that this ‘paradigm’ is based upon fundamental metaphysical assumptions that render formally-insoluble some of the most important theoretical problems of biology. These problems include the origin of life, the major transitions of evolution, the origins of sexual reproduction and of species, and the basic mechanism behind ‘group selection’. The fundamental deficit of the current metaphysics of biology is that it lacks a unified and coordinated teleology (direction, purpose, goals). I advocate a new teleological and metaphysical basis for biology that is minimally based on a ‘deist’ conception of reality: i.e. that everything is governed by a unified principle of purpose, order and meaning. Such a teleology suggests a definition of biology around the concept of development – that is the growth, differentiation, coordination and interactions of entities; unfolding through time through the lifespan and across generations. The local and specific implementation of teleology is suggested to be accomplished by a hierarchy of cognitive organizing entities that are located outwith biological systems. These putative organizing entities work on biological entities primarily through building-in purposiveness during development. A deistic system directed by organizing entities is, of course, not a 'biological' theory; but then, neither is natural selection a biological theory: both are metaphysical frameworks for the science of biology.
Fundamental unsolved problems of biology
From more than two decades of theoretical consideration of biology, especially evolutionary biology, I have concluded that there are no satisfactory answers to some of the most important and most fundamental questions of biology. I will argue that the fundamental reason for this is the lack of any teleology (purpose) in natural selection, which is the current dominant biological paradigm. Therefore, I propose a new teleological metaphysics for biology.
Biology (including medical research and psychology) has, since the 1950s, become the most ‘successful’ – that is, by far the largest and most heavily-funded and most status-rewarded of the sciences (Charlton & Andras, 2005). However, it is striking that this progress has been at the proximate level of mechanisms and technologies, and not at the level of fundamental understanding.
Indeed, the triumph of biology was preceded and accompanied by a major act of redefinition of the subject itself. A little book called What is Life? by the great physicist Erwin Schrödinger (1944) served as a catalyst for this change, and was accompanied by an influx of physicists and chemists into biology, leading to the triumphant discovery of the structure of DNA and of the coding and transcription mechanisms by which genes make proteins (Judson, 1979).
But in paving the way for these discoveries, the definition of biology was implicitly changed from ‘The science of living things’ to ‘The science of things that reproduce and are subject to natural selection’. This move away from the livingness of biology was what allowed non-biologists to take-over the subject at the very highest level; and since then biology has been dominated by researchers who use physics, chemistry, engineering (i.e. big, expensive machines of various types), computers, statistics, economic theory and a range of other non-biological perspectives and technologies.
As I say, the triumphs are well known – but the major unsolved problems of biology from 1950 remain unsolved; however, mainstream attention has simply shifted elsewhere and there is currently perhaps less interest in these matters than at any time since before biology became a separate science.
Such lack of interest – and of knowledge – has meant that most people are not even aware, have not even noticed, that these problems are unsolved. Because, so long as an ‘answer’ to such problems is good enough to survive a couple of minutes semi-attentive and unfocused consideration by a narrowly-trained micro-specialist who is not really a biologist, and is adequate to support and sustain a program of publication and grant-getting (which are regarded as sole and the necessary requirements of modern science), then this is regarded by modern biological researchers as sufficient proof of that answer’s validity (Charlton, 2012).
But the problems remain – and they are so fundamental as to cast doubt on the whole basis of the ‘paradigm’ that defines, controls and validates modern biology (Kuhn -1970 - popularized the idea of a paradigm governing science – but at bottom, ‘paradigm’ is just a new, and confusion-generating, name for metaphysical assumptions).
Origins of life
An example is the question: What is life? – which is the title of that influential book by Schroedinger (1944). The current answer is, implicitly: that is ‘life’ which reproduces or replicates and is subject to natural selection.
But this answer includes viruses, phages and prions – which hardly seem to be ‘alive’ in that they lack a dynamic metabolism; and also some forms of crystal – which are usually regarded as certainly not-alive (Cairns-Smith, 1990). Furthermore, some economic theories and computational programmes explicitly use the mechanisms of natural selection - and these are not regarded as part of biology.
Strikingly, there has been no success in the attempts over sixty-plus years to create life in the laboratory under plausible ancestral earth conditions – not even the complex bio-molecules such as proteins and nucleic acids. It has, indeed, been well-argued that this is impossible; and that ‘living life’ must therefore have evolved from an intermediate stage (or stages) of non-living but evolvable molecules such as crystals – perhaps clays (Cairns-Smith, 1987). But nobody has succeeded in doing that in the lab either, despite that artificial selection can be orders of magnitude faster than natural selection.
Since there is no acknowledged boundary dividing biology and not-biology, then it would seem that biology as currently understood has zero validity as a subject. What are the implications of our failure to divide the living from the non-living world: the failure to draw a line around the subject? Well, since there is no coherent boundary, then common sense leads us to infer in that case eithereverything is not-alive or everything is-alive. If nothing is-alive, not even ourselves, there seems to be no coherent possibility of us knowing that we ourselves are not-alive, or indeed of anything knowing anything – which, I take it, means we should reject that possibility as a reductio ad absurdum.
Alternatively, the implication is that if anything is-alive, then everything is-alive, including the mineral world – so we dwell in a wholly animated universe, all that there is being alive but – presumably – alive in very different degrees and with different qualities of life. This inference I intend to regard as valid: it will be my working metaphysical assumption, and is one to which we will return later.
So; if life is to be regarded as universal, it seems that the presence of ‘life’ can no longer be used as definitive of biology; and since reproduction/ replication is also inadequate, then we need a new basis or principle around-which may be made a different definition of the subject ‘biology’. I will argue, below, why this new principle should be ‘development’.
Sexual reproduction and the major transitions of life
What of sexual reproduction? How did such a massively inefficient reproductive mechanism arise in the face of its immediate short-term damage to reproductive success? The great evolutionary theorist William D Hamilton recognized sexual reproduction as a major unsolved problem, and worked on it for decades (2001) – but neither this recognition, nor his attempted solutions in terms of ways to combat parasites and pathogens, has attracted much interest or acceptance.
And indeed, even if he was correct, Hamilton did not really solve the problem of how sexual reproduction arose – but only clarified its advantages (mainly in terms of resistance to infection) once sexual reproduction had already arisen, and already become established. The mechanism of how natural selection managed to cross the formidable short-to-medium-term barrier of vastly reduced reproductive success (caused by the need to find a suitable member of the opposite sex with whom to reproduce, and the approximate halving of potential reproductive units) remains utterly unclear.
The same problem of short-term disadvantage tending to undermine long-term advantage also applies to the ‘Major Transitions’ of evolutionary history – which include sexual reproduction but also the evolution of the simple (prokaryotic) cell, the complex (eukaryotic) cell, multicellular organisms, and social organisms (Maynard Smith & Szathmary, 1997). Each of these transitions requires overcoming the fact that natural selection operates much more powerfully and directly upon the lower, simpler and smaller levels of organization that replicate more rapidly; so that there is a constant pressure and tendency for these lower levels to become parasitic upon higher levels (Charlton, 1996).
In sum; natural selection is much more rapidly and powerfully dis-integrative than integrative. Yet, nonetheless, these transitions did actually occur in evolutionary history. For example, in a multi-cellular organism, the dividing component cells are constantly being naturally-selected for neoplastic (e.g. cancerous) change – such that they cease to cooperate with and contribute to the organism, and instead exploit it as a ‘host’ environment (Charlton, 1996a). How, then, did multicellular organisms evolve the many integrative systems (e.g. nervous, paracrine, hormonal and immune systems) designed to impose cooperation of specialized cells and suppress non-functional and actively parasitic (e.g. mutated) cell variants; bearing in mind that all such integrative systems are themselves intrinsically subject to neoplastic evolution (as well as loss of function from cumulative damage)?
The same phenomenon and problem must (according to the theory of natural selection) apply to the genetic organelles of the complex cell (such as chloroplasts and mitochondria; Charlton et al, 1998); and also to the individual organisms in a social organization (such as human society). Yet eukaryotic cells actually did arise – despite their innate and intractable tendency to self-destruct; and there are numerous highly evolutionarily-successful social animals among (for instance) insects, birds and mammals. Indeed, it has been calculated that ants and humans are the two groups with the greatest biomass among animals on earth, with ants dominating the tropics and humans the temperate zones – termites are also highly numerous in the tropics (Ridley, 1996).
The general problem is therefore that the net effect of natural selection is to break down the major transitions of evolution before they can be established – unless (as I will argue later) this tendency is overcome by some as-yet-unknown purposive (and indeed cognitive) long-termist, integrating and complexity-increasing tendency.
The nature of species
Darwin’s first great evolution book was termed On the Origin of Species by means of Natural Selection… (1859); and that is a clue to the next unsolved problem – which is: ‘what is a species?’
Darwin was trying to explain how ‘species’ (in a very general sense of the major, as well as minor, sub-divisions of living things) originated. To do this he already had to assume that he knew, more or less, what species were.
In other words, natural selection was proposed as a historical mechanism (in practice the only mechanism) which led to modern species. In yet other words; natural selection was supposed to explain species – and species was the thing that was explained (Panchen, 1993). Unsurprisingly, therefore, there has never been a principled explanation that was based on natural selection of what species actually are and how they are divided (Hull, 1988). At root, my understanding is that impasse happens because species are being used both as that which explains, and as that which is explained – which is circular reasoning.
And, in practice as well as in theory, all possible suggestions for such a definition are refuted by data. For example, the idea that species cannot interbreed to yield fertile offspring is untrue with numerous exceptions - some natural and some artificially generated. And the systems of differentiating and classifying species on the grounds of ‘homologous’ anatomy, physiology and genetics do not map-onto the classification of species in terms of their inferred lineage (e.g. cladistics) – and the identification of homology has itself (like species) never been objectively defined (Horder, 1993).
Furthermore, there is no more evidence now than there was in 1859 that natural selection is capable of being the sole and sufficient ‘explanation’ for the diversity of life upon earth. I put ‘explanation’ in quotation marks, because it is debateable whether natural selection – being based upon contingent and variable selection acting upon undirected (a.k.a.‘random’) variation (Hull, 2001) - is actually a real explanation; because then the ultimate explanation is apparently that there is no explanation. Natural selection does not say ‘why’, but instead ‘how’ evolution occurs. The nature of change is contingent upon undirected events shaped by contingent processes, and therefore is essentially non-predictable in its specifics. In some senses, therefore, natural selection does not genuinely ‘explain’.
In effect, with natural selection, at most one can only say: Many things might have happened for many reasons, but as an historical fact ‘this’ is what actually happened.
Certainly natural selection can coherently describe the historical situations leading to relatively small differences between organisms – perhaps up to the level of creating new and related species. This was already known to Darwin and was indeed the basis of his evidential argument – e.g. he described the nature and scale of effects of artificial selection done by animal breeders, plus some effects on the shape and size of beaks among Galapagos finches. To this, modern biologists could add observations on the modification of microorganisms under laboratory conditions, for instance the evolution of bacterial resistance to antibiotics. And there are also human racial differences of skeleton, teeth, skin and hair, brains and behaviours and many others – probably amounting to sub-species levels of differentiation – again these were (approximately) noted by Darwin (for instance in the mention of ‘favoured races’ in the subtitle of his 1859 book).
But all these are quantitative, not qualitative, changes; changes in magnitude but not in form. Neither natural selection, nor indeed artificial selection done by Man, has been observed creating a new genus, nor any taxonomic rank more fundamental such as a new family or phylum. There is no observational or experimental evidence which has emerged since 1859 of natural selection leading to major, qualitative changes in form – nor the originating of a novel form. Nobody has, by selection, changed a cat into a dog, let alone a sea anemone into a mouse (or the opposite); nobody has bred a dinosaur from a bird, nor retraced, by selective breeding, a modern species to its assumed ancestral form. There have, at most, been attempts to explain why such things are impossible in practice – why, for instance, the linear sequence of evolution cannot be ‘rewound’.
The problem of group selection
The final example concerns group selection. My impression is that the most thoughtful and perceptive evolutionary theorists intuitively recognized that group selection was an anomalous residue in the post-teleological paradigm of Neo-Darwinism; because true group selection (when properly understood) entails a purposive cognitive mechanism that can predict, can ‘look ahead’ several generations, and infer what is likely to be good for the survival and reproduction of the species (i.e. future descendants) rather than for the specific individual organism under here-and-now selection – and can therefore impose this long-term groupish direction to evolutionary change, in the face of evolution that benefits the individual in the short-term (Hamilton, 1998).
Whether or not it is due to the built-in ‘spooky-spiritual’ aspects of group selection, there has been and is a powerful and almost moralistic desire within biology utterly to purge group selection from Neo-Darwinian theory (Dawkins, 1976). However, it should be noted that Hamilton himself did not reject the significance of group selection; on the contrary, he continued to believe it was real throughout his later career as is apparent from his essays and commentaries in the Narrow Roads of Gene Land collections (1998, 2002). However, so far as I know, he did not suggest a distinctive mechanism for group selection.
Group selection is most often discussed in relation to ‘altruism’. Altruism is behaving such as to increase the reproductive success of others at the expense of one’s own reproductive success (for example, sacrificing a young and potentially fertile life for the benefit of the group – perhaps in defence against a predator). Altruism indeed calls-out for explanation, since it is very frequently, almost universally, observed – e.g. multicellular animals depend on it for continued existence, social animals depend upon it for the continuation of sociality. But the proposed solutions – inclusive fitness/ kin selection and various types of reciprocal benefit (Ridley, 1996) – do not explain the origin of altruism, but instead explain why altruism – once established, may be advantageous to sustain.
The problems are at root the same as the previous examples – favouring the long term over the short term: in this instance imposing cohesion and cooperation that benefits the whole against the tendency of natural selection to favour the part at the expense of the whole. For example, preventing the amplification of selfish, short-termist, parasitic variants and lineages (which are immediately advantageous, and much more strongly selected-for), so as to pursue the long-term cohesion, survival and reproduction of the group. Lacking such a mechanism or tendency, any groupishness and long-termism would continually be undermined, and would tend rapidly to be undone by the strong selection pressure for individuals to exploit and parasitize the group (Maynard Smith & Szathmary, 1997).
Hence, despite half a century of exclusively selfish gene theorizing in mainstream evolutionary biology; the apparent need for some kind of longer-termist and group-favouring process remains.
The necessity for teleology in the metaphysics of biology
Natural selection is an inadequate metaphysical basis for biology because it lacks teleology - a goal, direction or purpose.
This lack of teleology means that the potential for meaning - for knowledge - is excluded from the system of biology, and from any other system which depends upon it.
Thus natural selection is radically too small a metaphysical frame - it leaves out so much that is so important, that what remains is not even a coherent subject. This is revealed in the un-definability of biology and the incapability of biology to understand the meaning of life and its origins, major transitions and categories. Without teleology, biology is self-destroying.
Indeed - without teleology we cannot know. I mean we cannot explain how humans could have valid knowledge about anything. No knowledge of any kind is possible. If Natural Selection is regarded as the bottom-line explanation - the fundamental metaphysical reality (as it is for biology, and often is with respect to the human condition) then this has radically nihilistic consequences. And this is a paradox – if natural selection was the onlymechanism by which consciousness and intelligence arose then we could have no confidence that the human discovery of natural selection was anything more than a (currently, but contingently) fitness-enhancing delusion.
The reason is that natural selection is at best – and when correctly applied - merely descriptive of what-happened-to-happen.
Since t
T
here was no reason why things had-to-be as they actually were,
and
there is no reason why the present situation should stay the same, then there will be no reason to suppose that the future outcome is predictable. There is no greater validity to what-happened-to-happen compared with an infinite number of possible other things that might have happened - so there is no reason to defer to what-happened-to-happen, no reason why what-happened-to-happen is good, true, just, powerful or anything else - what-happened-to-happen is just what led to greater differential reproductive success for some length of time under historical (and contingent) circumstances. Nothing more.
Therefore - if humans are nothing more nor other thannaturally-selected organisms - then there is zero validity to: cognition, emotions, intelligence, intuitions, morality, art, or science - including that there is no validity to the theory of evolution by natural selection. None of the above have any validity - because they all are merely products of what-happened-to-happen (and are open-endedly liable to further change).
In sum - Without teleology, there can be no possibility of knowledge.
(This is not some kind of a clever paradox - it is an unavoidable rational conclusion.)
If, and only if, biology includes direction and purpose, is the subject compatible with the reality of knowledge. A new and better metaphysics of biology must therefore include teleology.
A deistic and teleological metaphysics
Metaphysics is the branch of philosophy concerned with basic assumptions – descriptive of the fundamental nature of reality. Science takes place within metaphysics, and therefore the results of science (any possible results of science) can neither prove nor refute any metaphysical description – although some metaphysical systems will more clearly and simply make sense of (or ‘explain’) science than others.
For example, the ‘evidence’ that these fundamental problems are unsolved amounts only to the fact that they are as yet unsolved – failure to explain can never ‘prove’ that an explanation is impossible. Only that nobody has yet come up with a satisfactory explanation. Therefore, the ‘proof’ that these biological problems are insoluble is not any empirical finding but philosophical reasoning.
In this sense metaphysics (which is to say a ‘paradigm’) is not ‘testable’ by science. This is because metaphysics itself underpins the definition of science (or a specific science such as biology); metaphysics determines what counts as a test, what observations to make and also how to interpret observations. For instance, no amount of biological research can ever decide whether biology is 1. the science of alive things or 2. the science of replicating things. This is not possible since definition 1 leads to one kind of biology using one type of expertise and methods; but definition 2 to another kind of biology with very different personnel and methods, as we have seen emerge over the past 70 years.
I therefore suggest that a new paradigm – or, more strictly, a new metaphysical basis or frame - for biology is required to address these and other fundamental defects and deficiencies in modern biology; and to place biology honestly, accurately and fruitfully in context of the total field of human discourse in general. In a nutshell, I will be arguing that the overall shape of evolution across history is best explained as a directional process of development – somewhat like the metamorphic unfolding of a fertilized egg via an embryo towards sexually mature adult and parenthood. Processes of selection occur within this teleological development – but are subordinated to the overall goal and contributory, coordinated sub-goals.
Furthermore, I will suggest that a teleology of biology having the required properties entails ‘deism’; deism being belief in a single, overall, unifying - but potentially abstract and impersonal - source of order and meaning for reality.
Deism here refers to the assumption of some kind of deity; but theism refers more specifically to the reality of gods or God. It is necessary, therefore, to distinguish between on the one hand the general idea of deism, which I regard as essential for a coherent and viable definition of biology; and on the other hand the idea of theism, with theism being a particular sub-category of deism, and more specific than is required for the practice of biology.
Deism and theism may seem superficially to be identical-in practice; and perhaps both equally absurd! – at least to the usual atheistic professional biologist; but the distinction is both significant and important. I personally believe in the reality of the Christian God; but such a specific belief is not necessary for there to be a useful and potentially fruitful teleology of biology, as is demonstrated by the many historical examples of non-Christian biologists. (However, as a generalization, the long-term success of science as a social system, in particular its adherence to the principle and habit of truthfulness, may depend rather more specifically upon scientists having been - at least - raised in a Christian or Jewish milieu, with their somewhat distinctive doctrinal emphasis on honesty; Charlton, 2012.)
So, the adoption of deism as an assumption could be seen as constituting a cost entailed by providing a coherent teleology of biology; a cost which explains the sustained resistance to such a thing and which may explain why teleology has been for so long and so stubbornly resisted within professional biology. Because teleology at the price of deism is a cost that most modern biologists would utterly refuse to pay; since they are, as a strong generalization, the most materialistic and positivistic and anti-spiritual, militantly un-religious people the world has yet known! (Indeed, I know of only two practicing Christians among evolutionary biologists - one of them being myself; and that only for the past seven years.)
It is no coincidence that so many of the best known and most effective public dissenters from Christianity and promoters of atheism since Darwin have been recruited from a tiny minority of eminent evolutionary theorists – past examples include Darwin’s ‘bulldog’, the early agnostic TH Huxley; and his grandson, the humanist and an architect of the Modern Neo-Darwinian Synthesis, Julian Huxley; current examples include the campaigning anti-religion activists Richard Dawkins and Daniel C Dennett.
But militant atheism is not merely a product of being a scientist: biologists are typically much less spiritual than mathematicians and physicists, who often espouse deistic ideas. As examples; Einstein saw reality in this ‘deist’ way with an abstract, impersonal, but unifying ‘God’; Roger Penrose has stated he is a Platonist; the theoretical physicist Paul Davies won the Templeton Prize for his many writings from a deistic perspective; and Freeman Dyson, also a Templeton Prizeman, is a Christian, as was Kurt Gödel.
In sum – even if I can show that deism is what biology most needs, and even though there is nothing ‘unscientific’ about such an assertion, deism seems very unlikely to be welcomed or accepted by the mass of currently active and dominant professional biologists.
Why deism specifically?
So, I will assume that deism is the necessary intellectual ‘cost’ that must be paid to restore purpose and cohesion to biology; it is minimally-necessary to restore ‘a spiritual dimension’ to biology; not indeed withinbiology – but as the framingmetaphysic of biology. That is, the spiritual dimension is located outside of biology to give it shape and bounds, meaning, and direction. Biologists needs not adopt deism as a ‘religion’; but they must at least accept it as a working-hypothesis.
But the concept of deism is unfamiliar, as is its distinction from theism. I should therefore clarify that although this deistic perspective of the primacy of consciousness, purpose and ubiquitous life is indeed spiritual, it is not necessarily religious in the sense of associated with belief in any actual religion. A deist regarding ultimate reality as having the cognitive property of purpose does not need to take the further step of a belief in ‘theism’, theism being the belief in a specific God or gods.
The deism that is entailed by a belief in teleology includesmany possible forms of theism, including belief in a ‘god’ who originally created everything (and is therefore the source of ultimate cohesion); but the deity of a non-theistic deist is not necessarily the creator, does not necessarily intervene in the ‘running’ of the universe, and may be a wholly impersonal and abstract god that has no specific interest in Men or specific people. Deism therefore may mean any assumption of any ultimate, but perhaps abstract, rationality, order, or overall organizing tendency.
Nonetheless, honesty compels me to suggest that abstract deism has historically, and in the lives of many individual scientists and other intellectuals, been a metastable state which sooner-or-later falls one way or the other: either into atheism or theism (belief in a God or gods). And in that case, I am suggesting that, in the end, an adequate metaphysics of biology must be compatible-with (if not contiguous with) theistic religion. However, this move into theism is not a formal philosophical necessity, but rather a matter of probabilistic human psychology.
At any rate, it may be useful, at this point, further to clarify why a teleology for biology entails deism. The reason is that teleology (purpose) in biology is based on, requires that, reality be coherent, cooperative and complementary because reality as-a-whole must have purpose. This, in turn, requires that there is a single and unifying organizing entity to enforce coherence, cooperation and complementarity. So, for life, for reality, to have purpose, it must hang-together - and for reality to hang-together requires some unifying conception of deity.
Deism is the assumption that the universe has just such an organizing principle or entity - which may be a personal supreme creator god among other lower gods, or one God – which is theism; or the organizing principle may be something impersonal - a 'god of the philosophers': in other words an hypothesis which is inferred and assumed (rather than believed as a matter of faith). An example would be the ‘Platonic’ hypothesis that there is a coherent primary reality outside of time where dwell objective and eternal values and archetypal forms – in comparison to which the earthly reality we observe is only a derived, time-bound, approximate, partial, and more-or-less corrupt version.
Biology needs a teleology, and indeed the more specific is that teleology, the more can be inferred from it. However, if biology is to be a coherent and general science, then its teleology cannot be more specific than what can be agreed-on by deism. Therefore, scientists can, and indeed must, minimally agree on a general concept of deity. But beyond that agreement, there will very probably be disagreement concerning the attributes, nature and specific purposes of deity. In sum, the teleology of biology as-a-whole seems to be based on a general and hypothetical deity, but not on any specific God.
Therefore, deism supplies teleology, but only to a limited degree. So we need to distinguish between the implications of the fact of teleology and the specific direction of teleology. The fact of teleology includes the consequences of there being an ultimate unity and an expectation of a primary and significant degree of coherence, cooperativeness and complementarity. I think the acknowledgment of teleology may also provide the basis for a coherent definition of the essential nature of biology as a subject – which I will discuss below. But what exactly is the specific aimed-at destination of teleology may be a subject of disagreement and theorizing; e.g. there will probably be different ideas of what the direction and purpose of 'everything' as a whole, and at lower levels. And there will also surely be scientific disagreement over the specific mechanisms by which teleology is implemented at the various levels and instances of biological organization.
There remains much that requires debate and investigation, plenty for biologists to do; but all biologists ought to, and need to, be able to agree that there is an ultimate teleology, hence coherence, to biology.
The nature and essence of biology as a subject: Development
When biology is defined in terms of teleology it gives an indication of how the subject may fruitfully be defined in terms of its focus; because teleology concerns direction. Teleology, as described above, entails the emergence and coordination of multiple elements over time in pursuit of purpose. In simple terms, therefore, the essence of biology as a subject has to do with development; that is with growth and form, with differentiation and cooperation.
In sum, the core of biology is ‘life as history’ – meaning here the unfolding through time, including functional interactions - of entities such as cells, organisms, groups and ecosystems. I would argue that this understanding of biology has priority over reproduction in general and gene replication specifically – which have been made the focus of biology for the past seventy-odd years.
Such a re-definition of biology around the theme of development would also serve to reconnect the subject with its deepest intellectual roots in natural history; to rebuild the subject around a core that is distinct from chemistry and physics on one hand, and medical research on the other; with organisms being of interest primarily in terms of their structure, function and interactions over their lifespan. This would surely be preferable to modern biology which has become so narrowly focused that it sometimes seems as if the only scientifically-interesting things that organisms do is replicate or die!
(I will suggest a further reason why biology might beneficially be defined in terms of development below when I discuss the causal relationship between phylogeny (evolutionary history) and ontogeny (development.)
The history of definitions of biology can be described as beginning with the subject conceptualized as ‘the study of living things’; then changing from about 1944 to ‘the study of reproducingthings’; and I now propose that in future biology should become ‘the study of developing things’.
Statement of the new teleological metaphysics: The hierarchy of organizing entities
The chronological sequence of the new metaphysics is the reverse of the usual posited in biology. Current biology usually assumes that matter precedes life; life precedes the brain; the brain precedes cognition – in other words that a solid brain comes before cognition (thinking) - including purposiveness - emerged.
By contrast, I suggest that consciousness and purpose are the starting point – and that consciousness, with its ultimate teleology, therefore operates upon matter with the proximate goal of sustaining and developing itself via instantiations in matter - instantiation here meaning the specific and actual realization of an abstraction: building of abstraction into solid form. Therefore, (baldly-stated) consciousness ‘organized’ brains.
(The above conceptualization owes much to the work of Owen Barfield, who was himself expressing ideas of Rudolf Steiner, who was in turn JW von Goethe’s scientific editor for the standard collected works – so this theory has its ultimate roots in Goethe’s biology; see for example Barfield, 1982; Naydler, 1996).
So that (to put things simply); initially consciousness sufficed to organize undifferentiated matter into ‘physics’, ‘physics’ into ‘chemistry’, and ‘chemistry’ into what we recognize as the emergence of biological entities in their most basic forms. And the directing consciousness which drove biological evolution was further subdivided and specialized; for example regulating the basic transitions and divisions of life, and beyond them the further groupings down to species, then particular human groups.
This system of consciousnesses can be imagined as an hierarchy of organizing entities – an hierarchy with its apex in deity. These organizing entities operate to shape and frame the structure of reality, including biological reality – these entities all being, ultimately, coordinated and unified by the deity. These organizing entities are inferred to have various properties including the ability cognitively to model future possibilities (i.e. to have foresight, to make conjectural predictions) and choose between possibilities on the basis of innate purpose. In essence, organizing entities can understand (to some limited but significant extent) the current situation, and look-ahead towards probable outcomes – and then organize biology to reach the preferred possible outcome.
These organizing entities are assumed to have the same kind of role as the human mind does in relation to the human body; or as a good, wise and competent human leader has in relation to the society he rules. That is, the ability to infer that if X continues then Y will probably result – which means the decline or demise of the cell/ organism/ group/ society; but that if instead we do A we should arrive at B – which offers a much better prospect of survival and continued or enhanced reproduction (and, importantly, progress towards ultimate teleology) than does Y; and then the organizing entity has significant (but not absolute) power to impose A upon the system.
What then, actually, are these organizing entities – how can we imagine them? I suggest that different people may picture them in different ways which suit the workings of their own minds. Some may understand them in a mathematical or computational way; some see them as akin to ‘laws of nature’; some may understand them to be fields of force – like Sheldrake’s morphogenetic fields (Sheldrake, 1981 & 1988) but with a primary role in imposing purpose rather than form; some may understand them as immaterial but personalized entities – rather like the medieval astrological model of angels who inhabited (or rather actually were) the planets and stars – but in a realm beyond and with different properties from worldly (‘sublunar’) place, and outside of Time, and who influenced from this realm all manner of events on earth and inside Time (Lewis, 1966).
I personally have a very literal, simple mind; and cannot for long refrain from anthropomorphic representations of any cognitive and purposive entity – in other words, I imagine these organizing entities as both personalized and material entities, localized in space and time - although imperceptible and undetectable (at least, by normal sensory observation). This is of course a child-like way of thinking about causality (although not really child-ish) – but perhaps not so uncommon as may superficially appear. After all, neuroscientists are always accusing each other of treating the brain as if it was inhabited by a ‘homunculus’ (little man) which is meant to be an error both irrational and shameful – and indeed the accusers are usually correct in this accusation; because avoiding this ‘anthropomorphism’ while yet retaining a firm and imaginative grasp of science, is all-but impossible.
Famously, Einstein reasoned about relativity by imagining a man (a homunculus perhaps!) riding in a tramcar away from the medieval clock in the Swiss city of Berne at speeds approaching the speed of light (Hoffman, 1972). If Einstein apparently needed (or, at least wanted) to do the most advanced and abstract theoretical physics by anthropomorphic metaphors, then maybe biologists should not be ashamed to follow his example?
The proximate implementation of teleology
In summary - starting from some large scale purposive, conscious and unified deity (perhaps envisaged as the sun, or the earth/ Gaia; Lovelock, 1989) - organizing entities direct and shape the first and most basic forms of life, prokaryotic then eukaryotic cells, followed by the major divisions or classifications of living things down to (real) species, sexual reproduction, individual organisms and social groups. (The evolution of Man may, or may not, be assumed to require a further level of organizing entity – or else the direct intervention of the deity.)
Organizing entities are located functionally-external to the biological entities that they govern – they are not a part of biology. Organizing entities are an external focus for biological entities – thus can be imagined as a point of reference: both monitoring and shaping biology. The main role of an organizing entity is to impose goals, direction, purpose – in a word: teleology. This entails imposition of form, cohesion, cooperation – and identity. Identity is the process by which the group is defined – the choice of inclusion and exclusion, the drawing of a boundary.
It is the organizing entity that make a group a real group in the true sense of the word ‘group’– and not merely an arbitrary, temporary or expedient line drawn around a collection of autonomous entities: it is the organizing entity which makes the group a unit. Biological unity therefore derives from teleological unity.
A group of many entities (such as a collection of components in a cell, of cells in an organism, or organisms in a society) is itself a real and objective unified entity only when it has been organized by a single purposive, conscious entity.
If this is accepted, and some kind of general mechanism for teleology is assumed - such as the hierarchy of organizing entities - then the question arises as to how teleology is imposed? There seem to be two possibilities - purpose could be continuously imposed from outside a biological entity by the continuous or intermittent operation of some kind of field, force or form; or else purpose could be built-in.
While I think it likely that external forms/ fields/ forms have a role, especially in terms of organizing the simpler and more basic (physics and chemistry) levels of evolution (Sheldrake 1981 & 1988); something additional, more detailed and generative of autonomy seems to be required for biological entities. Biological purpose seems most likely to be built-in; specifically that, as an entity is formed and develops, its purposive nature is built-into the structure and organization (by the action of its organizing entity) such that there is a degree of agency and self-regulation which is also coordinated with the overall teleology (probably by means of in-built complementarity of function).
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