Harnessed: How Language and Music Mimicked Nature and Transformed Ape to Man

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Harnessed: How Language and Music Mimicked Nature and Transformed Ape to Man Page 3

by Mark Changizi


  It’s this hard core of nature that we want. But is there one? Yes, indeed. There are solid core grammars underlying the structure of visual and auditory nature—there are “universals” in the structure of nature. That’s what I’ll endeavor to show you in this book; and then I’ll show you that language and music mimic these cores. I’ll give you a preview of these hard cores in the next section, when I introduce the central tenets of the theory—that is, when I first reveal the big secrets.

  The Reveal

  At this point, we have discussed the possibility that language’s and music’s mimicry of nature could be what enabled us humans to acquire language and music. We also took up why, if this were so, it would not be obvious to us. And in the section just above, I made myself clearer about the role that “nature” will play in understanding the origins of language and music: the goal is to find fundamental principles underlying the structure of nature (as opposed to a catalog of savanna paraphernalia), so that we’ll be in a strong position to ask whether these fundamental principles underlie language and music.

  What I have not yet done is give you any specifics on what the hard cores in nature are that are being mimicked by language and music. That is, I haven’t revealed what any of the “ancient secrets” might actually be. Let’s rectify that, and simultaneously summarize the book’s two main theses, concerning speech and music.

  Chapter 2 of the book is about the secret code underlying speech. Here’s the secret: human speech sounds like solid-object physical events. Notice that this secret makes no mention of rustling leaves or rhino grunts. Instead, the “nature” that speech mimics encompasses a very broad class of events, namely those among solid objects. The main observation is that events involving solid objects bumping and crashing about have a signature core auditory structure, and I will provide evidence that human speech has this signature structure. Speech can thereby get into our brains by harnessing auditory-recognition mechanisms we have long possessed for processing the “pinball” sounds of nature. This secret code gives us hominids the power to recognize speech without having speech-recognition mechanisms.

  And here is the deep secret underlying music, which is the topic of Chapters 3, 4, and 6: music sounds like humans moving and behaving (usually expressively). Notice how general the notion of “nature” is here. It isn’t the sounds of people’s heartbeats, or heavy breathing, or missionary-style sex, or skipping—it is the sounds of humans behaving. When we carry out behaviors we tend to make noise, and our auditory system can infer a lot about each other’s behavior from the noise. Music has the signature auditory structure of humans doing stuff, and can thus get into our brains by tapping into our auditory recognition mechanisms for identifying the actions of other people. No music-processing mechanisms are required. This secret code of sounding like expressive human movers is what allows music to flow into our auditory system and be understood by it, even though we possess no special brain gears for processing music.

  Although it is the ancient secret codes lying beneath speech and music that I’ll be whispering about in this book, this is not the first time I have written about deep secrets of this kind. In my previous book, The Vision Revolution, I wrote about (among other topics) another ancient secret, the one explaining how we hominids came to have a written history. And the secret is this: writing looks like three-dimensional scenes with opaque objects. Writing looks like nature, but as before, nature of a very general kind—no images of acacia trees or termite mounds are needed. Writing has come to mimic the contour combinations occurring in natural scenes with opaque objects, and in such a way that written words mimic the structure of visual objects. Writing gets into our brains by harnessing our visual object-recognition mechanisms. The secret code of looking like nature is what allows writing to be read by us hominids without any reading mechanisms in our brains.

  The “nature” stories of the origins of speech, music, and writing are, then, not in the least about acacia trees or the other particulars in the rummage shop of our ancestors, but rather about solid-object physical events, human movement sounds, and opaque objects in a three-dimensional world. “Nature” is a highly general notion, just what is needed to make theoretical headway and empirical testing possible and practical.

  And although the notions of “nature” I will rely on are very general, they are not so general that they include everything. For example, “solid-object physical events” covers a wide swath, but it doesn’t cover sounds made by air and water. And “opaque objects in a three-dimensional environment” is fundamental, but a habitat with semitransparent objects (like clouds at high altitudes) would not be included.

  Distinguishing between the surface features of habitats (which vary wildly from habitat to habitat) and the core features (found in most or all habitats) is helpful in understanding why, even if writing, speech, and music have underlying core similarities, they nevertheless come in such tremendous variety. If nature were all core—if it had little or no variability across habitats—then our visual and auditory systems would have evolved to be competent at processing just the very specific kinds of stimuli in the world. Language and music that harnessed such a brain would be expected to have a very specific and consistent surface structure, something they do not, in fact, have. If, instead, as is the case, there is a small core of invariant structure to nature, yet loads of variability across habitats, one would expect us to end up with brains that are more open-minded about what they’re willing to accept. Our brains would be most competent at processing stimuli that have the core signature, but in other respects, our brains would be open to many variants. Language and music that harnessed this kind of open-minded brain would be expected to take widely varying shapes across cultures, but to share certain similarities. This is a much more accurate description of language and music as found on Earth: subject to large differences across cultures, but sharing certain core structural characteristics across cultures.

  You have now gotten a peek at the ancient secret codes hidden inside speech and music. Hopefully you can appreciate their generality, and appreciate why it might be that the natural structure in speech and music has stayed hidden from us. In the next and final section of this chapter, I will be as clear as I can about how my nature-harnessing theory differs from other stances on the origins of language and music, and I will justify why we should expect language and music to have nature instincts (i.e., designed to mimic nature) rather than just brain instincts (i.e., designed to be well shaped for the brain).

  Purps vs. Quirks

  In the Introduction, I touched upon two standard, contrasting viewpoints on origins, the first being that we evolved brains specialized for language and music (i.e., we have instincts for these things), and the second that, on the contrary, we evolved to be general-purpose, universal learning machines that handle these artifacts because we can learn lots of unusual stuff. I suggested that language and music seem unlikely to be instincts because writing, too, reeks of instinct, but is definitely not an instinct. But I also intimated that there is a wealth of data and argument—summarized and argued convincingly in Pinker’s books, for example—that we do not possess blank-slate brains. How, then, are predisposed brains like ours able to learn any human language and comprehend music—among the most complex and sophisticated computational tasks on Earth—if we’re neither designed specifically for it nor particularly impressive general learners?

  The answer is that once culture got up and running, there was a new blind watchmaker in town. Cultural evolution could, over comparatively short periods of time, fit language and music into the shapes our grooved (non-blank-slate) brains are able to learn. It is not so much that our brains learn language and music, but rather that culture learned how to package language and music so that they fit right into our brains. Culture learned how to harness us.

  Despite the title of this book, there is nothing new about the idea that we are harnessed by culture, that cultural artifacts may have been selected to be str
uctured well for our brains. What is new here is that I am putting forth specific proposals for how culture actually goes about harnessing us. Saying that language and music might be shaped for the brain doesn’t take us very far in understanding the shape of language and music, because we don’t have a good understanding of the brain. What we need is a general theory of harnessing. And nature-harnessing is the theory I am proposing.

  Earlier I said that language and music have evolved to possess a brain instinct, rather than the brain having evolved to possess language and music instincts. But in a sense, in this book I am arguing that language and music have, not a brain instinct, but a nature instinct. Language and music carry in them the structure not of the brain so much as of nature, which of course is just right for the brain—because the brain is just right for nature (see Figure 1).

  Figure 1. (a) The brain was shaped by natural selection for nature, and culture was shaped by cultural selection for the brain. (b) By shaping culture to look like nature, culture will tend to end up shaped well for the brain. And, importantly, we scientists can hope to get a handle on this without having to understand the detailed brain mechanisms. The arrow cutting through the brain and going from culture to nature is meant to symbolize my nature-harnessing theoretical approach, which drives this book. It means that my theory will pretend there is a single arrow like this, where culture has been selected to be shaped like nature. This is a simplification of the more detailed picture in (a), and the greater simplicity is a boon to a scientist because the most complicated object in the universe—the brain—has been removed from the “equation.”

  We have to be more careful, however, because brains optimized for nature can sometimes like nonnatural things as well. Our mechanisms have been selected for because they work very well on the inputs our ancestors would have experienced. When those natural stimuli are the input, our mechanisms work as they are supposed to—it’s their purpose (or “purp”).

  But those same mechanisms don’t typically just sit quietly when nonnatural stimuli are inputted into them. They do something. And what they do depends entirely on the implementation details of the mechanism. Because the mechanism wasn’t designed to handle that kind of input, who knows what the mechanism might do? Mechanisms have quirks. For example, it is presumably a quirk that certain flashing lights have a propensity to induce seizure.

  Brains were selected for their purps, but they end up with lots of quirks as well. When language and music culturally evolved to be structured for our brains, it didn’t matter whether it was the purps or the quirks that were harnessed, so long as the process worked. But if language and music actually came to harness our quirks more than our purps, then the strategy that culture uses would not be nature-harnessing so much as quirk-harnessing. And if that were the case, I wouldn’t have much of a book left! That is, in this book I am claiming that the principal strategy culture used to harness our brains for language and music is not quirk-harnessing, but purp-harnessing . . . and that culture did its purp-harnessing by mimicking nature, just the thing to ensure that our brain mechanisms run as “purposely” designed.

  So, is harnessing about the purps or the quirks? Does culture harness the brain by looking and sounding like nature and thus making the brain function as intended, or does it harness the brain by shaping itself in a way that elicits the brain to function in some quirky accidental manner? Because, as I just said, cultural evolution doesn’t care what it harnesses so long as it works, both purps and quirks are surely both part of the full story of how language and music fit themselves to us. There’s no reason, then, to expect that the quirks should completely dominate the story of harnessing. And if that’s the case, then there’s a role for the purps, and for nature-harnessing. Whew!

  Actually, I can say more than just that nature-harnessing is unlikely to be completely useless for understanding harnessing. On the contrary, I expect nature-harnessing to be the key to how cultural evolution harnessed us, and quirks to be just a small side story. There are two reasons why I don’t think the quirks are the main driver. The first reason is that quirks are not smart enough, and the second reason is that I am not smart enough.

  Stupid quirks first. If I were to open up the “V” of a stapler, hold one end in my hand, and try to hit you with the swinging end, then I would have created a hitting device (and lost a reader). I would thereby have harnessed the stapler for a new function. But I would have harnessed a quirk of the stapler, not a purp. Staplers are not designed to be weapons, or to be swung around like that, at all. They are, accordingly, unlikely to be any good at it; at best, they’ll be nowhere near as efficient as tools designed for hitting. My stapler hitting device is, in essence, the worst pair of nunchucks ever devised. You don’t get powerful functionality by accident. If, instead, I were to use the stapler to fasten a pile of leaves together, that would be a case where I have harnessed the purp. Staplers may not be for stapling leaves, but leaves clearly resemble paper (in the respects relevant for staplers), which is just what staplers were designed for. So, the first reason why quirk-harnessing will be a minimal part of the story of harnessing is that cultural selection will favor the bits of us that are highly engineered masterpieces, not accidental side effects.

  Quirks may be stupid, but cultural evolution may sometimes tap into them anyway. After all, who hasn’t tried to remove a staple with a pen tip, or tried to bang a nail in with the handle of a screwdriver? And this leads naturally to the second problem with quirks, which is that I’m not smart enough to figure them out. First, there’s no general characterization of the quirks. A quirk occurs whenever the brain is confronted with a nonnatural stimulus, and although there may be a “hard core” for natural stimuli, there are no core ways of being unnatural. For example, pens can be used for stabbing, picking your teeth, scratching an itch, eyeliner, penny flicking, donut-hole making . . . clearly this list has no end. But the list of what pens are for is short: pens are for writing on paper.

  And not only are there piles of quirky ways to use a mechanism, but there will typically be no simple characterization of how the mechanism will react in any specific case. Whereas the proper function of a pen can be activated by a mechanism characterized by a description something like this—“a hand holding the pen and lightly moving on the surface of the paper, leaving ink”—the mechanistic descriptions for different quirks will tend to differ wildly, and to refer to physical aspects of the pen that are not part of any description of writing. For example, good penny flicking depends on a pen’s rigidity being in the right range. And the pen I’m holding right now could serve as a container for sand, which depends on how the pen fits together so that it has room left over on the inside. These and many other peculiar characteristics of the mechanism aren’t relevant for understanding the proper function of the pen. And when it comes to the brain, we are woefully ignorant of its mechanisms, and so it is immensely difficult to determine which characteristics are central to its natural operation and which are not. The quirks are difficult to comprehend, but the purps are comparatively simple. I have a hope of wrapping my head around the fundamental core regularities found in nature and characterizing the brain’s likely response (the purps), but practically no hope of doing so for the quirks.

  To sum up, there’s no reason to believe that harnessing is completely dominated by the quirks. On the contrary, because most quirks are not truly useful for anything, whereas focused usefulness is the very essence of purps, purps are far more likely to be harnessed. There will, inevitably, be some facets of language and music that are not mimicking nature, but are, rather, shaping themselves to fit the quirks. But in this book I’ll ignore these quirks, for the reasons I just went over. To the extent that language and music have come to harness quirks despite their deficiencies, I’ll leave that to future scientists to unravel, because it is far above my pay grade.

  Now, with quirks out of the way, the fundamental argument structure of nature-harnessing can be illustrated by Figure 1b. If
the brain in the story “from nature to brain to culture” is covered over, that leaves only nature and culture, highlighting the hypothesis that culture mimics nature.

  Figure 2, on the following page, shows the three cases of nature-harnessing I have examined in my research: writing, speech, and music. It shows the mechanisms in the brain each harnesses, and also the natural stimuli the brain mechanisms were selected to process. Writing was covered in The Vision Revolution. The other two rows in Figure 2 are for speech and music, the cultural artifacts taken up in this book, with nature-harnessing as the overarching theme.

  Figure 2. The structure of the book’s argument. For example, for the first row, writing shaped itself (via cultural selection) for our visual object recognition mechanisms in the brain, and these mechanisms were, in turn, shaped (via natural selection) for recognizing three-dimensional scenes with opaque objects strewn about. Supposing that writing shaped itself mostly for the brain’s “purps” and not the quirks, then writing is expected to principally shape itself to look like three-dimensional scenes with opaque objects. The next two rows are the main topics of this book.

  And now we’re ready for the meat of this book. In Chapter 2, I describe how speech sounds like solid-object physical events, and in Chapters 3, 4, and the Encore (at the end of the book), I describe how music sounds like people moving. In the fourth chapter of my previous book, The Vision Revolution, I described how writing looks like 3-D scenes with opaque objects. With these three cases made, the conclusion I would like the reader to draw is that nature-harnessing—not instinct, and not a general-purpose brain—is the general mechanism by which we came to have these powers.

  Chapter 2

 

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