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Music and the Transhuman Ear: Ultrasonics, Material Bodies, and the Limits of Sensation

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Music and the Transhuman Ear:
Ultrasonics, Material Bodies, and the
Limits of Sensation
David Trippett
We favor morphological freedom—the right to modify and enhance one’s
body, cognition and emotions.
—Transhumanist declaration, 2012
1
I am apt to think, if we knew what it was to be an angel for one hour, we
should return to this world, though it were to sit on the brightest throne
in it, with vastly more loathing and reluctance than we would now de-
scend into a loathsome dungeon or sepulchre.
—George Berkeley, 1732
2
I
The Materialist Turn
When Voyager probes 1 and 2 left Earth’s orbit in 1977, the committee
tasked with assembling cultural artifacts followed scientist Lewis Thomas’s
advice to include recordings of J. S. Bach among the many musical sam-
ples. This, it seems, was the best way to open a conversation with an un-
known non-human interlocutor, wherein exchanges may be spaced
hundreds of years apart. Many styles and genres were committed to the
golden discs, but Thomas worried that by broadcasting Bach, the human
race might be guilty of bragging to aliens: “We would be bragging, of
course,” he admitted in 1972, “but it is surely excusable to put the best
possible face on at the beginning of such an acquaintance.”
3
His statement
doi:10.1093/musqtl/gdy001 100:199–261
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makes telling assumptions. To take one example, the three-voice C-major
fugue Glenn Gould recorded (WTC, Book II) matches humans’ ability at
auditory streaming, which, as David Huron has shown, tends to max out
at around three streams, after which “confusions [over contrapuntal lines]
become commonplace.”
4
It would seem that part of the effect of Bach’s
polyphony depends on precisely that limitation, but there is no reason to
suppose that a hypothetical alien would have the same limitation (if it
were sensitive to this frequency range); the alien might just as easily find
Bach’s fugue elementary, even trivial.
Extrapolating from this distancing exercise, this article is about trans-
humanism and hearing. It takes a lateral approach to writings in the history
of materialism to plot a course for the human ear between two reciprocal
paradigms: a receptacle of vibrational force and an augmentable prosthesis
creating new sensory feedback. These two paradigms structure the article’s
two parts: Part I sets out the materialist context, including—briefly—a study
of empirical sense augmentations (and their illusions) in the nineteenth cen-
tury; Part II extrapolates from this a critique of hearing–enhancing technol-
ogies that exist today under the tenets of transhumanism.
The past decade has witnessed entwined debates over listening and
media, in which contributors have sought to place both the sonic phenome-
non and the experience of performed music at the heart of the matter.
5
I
would like to begin with two—I hope uncontroversial—claims: perfor-
mance acts necessitate a witness, however remediated they become; and
music, as something that is perceived, is a sensible phenomenon. Ears and
eyes structure our relation to music, while at the same time being constitu-
tive of our sense of self within an environment; as apparatus for mediating
sound and light they attest to the body as “the pivot of the world” in
Maurice Merleau-Ponty’s memorable phrase.
6
Approaches to sound as vi-
brational event imply a need to relativize hermeneutic or metaphysical
knowledge with a theory of matter. Despite a long tradition of philo-
sophical materialism in the West, such disciplinary reorientation is po-
tentially unsettling. After all, music can animate matter, and as Carolyn
Abbate reminds us, it “can ban logos or move our bodies without our
conscious will.”
7
Without reifying sonic communication, such a condi-
tion defines sound’s communicative agency itself as animate matter—a
delicate dance of vibration and physiology.
Historically, this view first gained credence in the mid-nineteenth
century when Hermann von Helmholtz posited the ear as a mechanism for
sympathetic vibration: “a peculiar apparatus, partly elastic, partly firm,
which may be put in sympathetic vibration under the influence of external
vibration.”
8
Stemming from this, and adapting Brian Massumi’s formulation
of affect, we may say the vibrations of the haptic environment touch us
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manifestly and without prejudice, impacting listeners with a “prepersonal in-
tensity corresponding to the passage from one experiential state of the body
to another.” In this reading, the communication network is primarily be-
tween bodies: “an encounter between the affected body and a second, af-
fecting body.”
9
It applies as much to the plucking of a monochord as to a
subwoofer’s vibrations that palpably shake us. This is not to deny the life of
the mind—from what is phenomenologically given to the mind, to the tru-
ism that even during absorption in performance we may reflect momentarily
on formalist or hermeneutic meanings
10
—only that once music as sounding
experience becomes an object of study, the sensory means by which we reg-
ister that experience are also implicated as structural constituents of the
identity of that music.
11
So far so good. But there are already compositions whose sound
exceeds human sense capacity. The totality of their performance is
unavailable to us, in other words, which is to say: literally non-sensical.
12
Two examples concern pitch and duration:
(1) There are ultrasonic dog whistles in Per Nørga˚rd’s Fifth Symphony
(1994), and seemingly inaudible harmonics in Schoenberg’s Violin
Concerto (b0000 at mm. 544 and 567, given in ex. 1), which Andre´
Mangeot declared “beyond the musical range of any ear” because at 3,951
Hz their pitch and relative consonance become impossible to discern.
13
(2) Consider the inhuman length of John Cage’s “As SLow aS Possible”
for organ (1987), whose ongoing performance in Halberstadt—lasting
639 years—will exceed an average American life span by a ratio of
8:1. As Alexander Rehding notes, there can be “no performer in the
ordinary sense” for this work, and indeed the work concept itself falters
“for the simple reason that it is humanly impossible to hear the piece
from beginning to end.”
14
If we accept the view that musical performance is to be understood as
lived experience, bodies that could conceivably perceive the totality of
these works are not ordinarily human. In the context of Bach’s alien we
may ask: For whom are such super-sensory effects intended? Who, in such
contexts, is the listener?
15
To an extent, this line of inquiry recontextualizes a familiar
eighteenth-century empiricist debate about reality: George Berkeley’s imma-
terialist proposition that “the objects of sense exist only when they are
perceived” (which finds parlance today as the old adage about a tree falling
in a wood).
16
For present purposes, it is a related, potential blind spot of se-
miotic approaches to music that reveals common assumptions about the
“normal” body at the dawn of the twentieth century. We recall that Charles
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S. Peirce, in 1909, saw a triadic relation between sign, object, and interpre-
tant wherein the latter becomes an active witness to the sign, and actively
makes the bond between sign and object. Signs nevertheless retain their ab-
solute character in this bonding, for what Peirce grandly calls the “final inter-
pretant” constitutes nothing less than “the effect the Sign would produce in
any mind upon which the circumstances should permit it to work out its full
effect.”
17
The totalizing nature of such a sign is like “a light wave”—in
Massumi’s words—whose spectrum-rich vibrations emit more “than any
necessary perception of it picks up on.”
18
With a similar rationale,
Wolfgang Ernst calls acoustic sound “the deceptive [tip] of an iceberg”
vis-a-vis the vast, inaudible electromagnetic spectrum.
19
By definition,
music insensible to us does not work out its full effect, reminding us that
Peircean semiotics presupposes a known receptor apparatus in the (hu-
man) interpretant. Semiotic approaches to music have arguably been en-
thralled by this Berkeleyian complement: signs or signals only become
such—that is, tangibly received stimulation—upon contact with a wit-
ness’s means of perception.
20
Hearing Ultrasonics ca. 1876
Historically, the realization that one’s reality depends on what a limited
sensory perception can register came to a head most clearly in the last quar-
ter of the nineteenth century, shortly before Pierce’s “final interpretant,”
when German scientists debated the upper threshold of human hearing
within the triangulated framework of physiology, emergent phenomenology,
and empirical psychology. It caused a minor scandal that is worth recalling
here for the startling readiness with which sensory limits were rewritten.
During the 1870s, the Hanau-based German instrument maker Anton
Appunn produced a series of thirty-one high-pitched tuning forks. These
were listed as corresponding to the 4.5 octaves of the diatonic scale, from c
4
Example 1. Schoenberg’s violin concerto, mm. 544 and 567, showing a bowed b00 00 and
its subsequent harmonic, whose frequency of 3,951 Hz exceeds the “musical” hearing
range for some listeners.
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to e
8
. After empirical studies based on these unprecedented objects, the
Anglo-German physiologist Wilhelm Preyer issued a striking claim in 1876:
Thus we can lay to rest the doubt, repeated all too often, as to whether or
not it is possible to hear from 24,000 up to 40,000 double vibrations per
second. It appears we can not only perceive tones in this omitted eighth
octave, but also differentiate them.
21
Empirical work with Preyer’s listening subjects appeared to prove the up-
per threshold for hearing was somewhat higher than previously thought.
To look at a chain of prior acousticians researching the same phenome-
non, he infers, is to plot a rising auditory threshold for humankind. Joseph
Sauveur (6,400 Hz, g
5
), Ernst Chladni (8,192 Hz, c
6
), and Jean Baptiste
Biot (8,198 Hz, c
6
) were seemingly cut adrift by William Hyde Wollaston
(25,000 Hz, g
7
) and Ce´sar-Mansue`te Despretz (36,864 Hz, d
8
), the latter
of whom only refrained from venturing higher, we learn, because he was
unable to make a smaller fork resonate.
22
By autumn 1875, Preyer had pipped his immediate rival by a whole
tone, achieving what he gave as an audible e
8
at 40,960 Hz with a midget
fork 13 mm long, 14 mm wide, with prongs 3 mm thick. Human hearing
had not been rising in convenient synchrony with each researcher, he con-
cluded, so the new threshold too was quite possibly limited only by the
ability to engineer a suitably resonating fork rather than the physiology of
the ear, which continued to recognize relative pitch:
I and several others have heard all 31 tones often, and, if they resound along
the row from c
6
, I recognize quite clearly that they rise up to e
8
[40,960 Hz].
Until c
7
we hear the scale without difficulty. To be sure, pitches in the 7
th
and 8
th
octaves are close to being very painful; nevertheless we recognize
they always rise and we hear the octaves very well until e
8
....Onecannot
claim, though, that it is impossible to bring forth even higher tones just be-
cause the e
8
fork becomes silent when shortened further. For it must be
proven whether it still vibrates at all after shortening, and indeed encounters
sufficiently strong vibrations, before we conclude the ear falls short.
23
The exact pitch of Appunn’s highest fork was debated, and Preyer appears
to have been unaware that for different commentators this “exceedingly
diminutive” object resonated at either 49,152 Hz or 50,880 Hz.
24
Nevertheless, his eye-widening claim that a bowed fork was audible to
humans at 40,960 Hz and that our physiological limit may be higher still re-
ceived a supreme endorsement when Helmholtz repeated it uncritically in
the fourth edition of Die Lehre von den Tonempfindungen (1877).
25
This aug-
mented auditory range “shows what a great variety of different pitch
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numbers can be perceived and distinguished by the ear,” he remarked of
the eleven octaves between 20 Hz and 40,000Hz. “In this respect the ear is
far superior to the eye,” he concluded in a countercultural opinion that
would hold little sway over the visualist bias of the age.
26
Helmholtz had no reason to doubt Preyer’s science, which also
examined the lowest perceivable frequencies, and identified silence as
“a true, positive sensation ... different from deafness.”
27
The Appunn
family had long supplied tuning forks to Helmholtz, and Georg Appunn
(pe`re) had lectured in Leipzig during the 1860s, supporting Helmholtz’s
work and helping to popularize it in print. There was a mutual bond of
trust, it seems.
28
Other endorsements of Preyer’s work ensued, owing
partly to the knowledge that it was based on a new, more accurate method
of tuning the highest forks.
29
Before 1876, forks above c
7
were tuned by
means of the ear alone, typically by locking into the overtones of lower
octaves, but Rudolph Ko¨nig had demonstrated as early as 1858 that from
the range c
6
c
7
this method was highly inaccurate even with the best
trained musicians.
30
Between 1874 and 1876, Ko¨nig first effected the tun-
ing of high-pitched rods (professing audibility up to 20,480 Hz) according
to their beats; Preyer followed suit with his forks, and appeared to trump
his fellow instrument maker by some 20,000 Hz.
Ko¨nig was skeptical from the outset.
31
It fell to physicist Franz Emil
Melde to prove in 1894—the year of Helmholtz’s death—that Appunn’s
forks and corresponding pitch pipes were mistuned by between a minor
third (c
6
fork) and a full octave (c
7
fork). “The highest pipe was only ca.
11,000 rather than ca. 50,000 vibrations,” explained one commentator,
continuing that the “forks too showed errors of up to ca. 36,000
vibrations.”
32
It was Carl Stumpf and Max Meyer who finally put a stop to
Preyer’s auditory inflation when, in 1897, they verified Melde’s assertion
using a proof based on difference tones.
33
When Stumpf returned to the
fray in 1899, he refuted Preyer’s protest that a visual proof (optischer
Nachweis) of his ultrasonic pipes and forks may be at hand: “Our results
have been confirmed by experiments,” Stumpf explains, referring to visual
experiments by his assistant Friedrich Schulze.
34
In fact it was Ko¨nig who
delivered visual evidence of the behavior of inaudible tones later that
year. This included sound figures made by the movement of cork dust
within a tube vibrating at frequencies of up to 90,000 Hz, that is, photo-
grams of ultrasonic frequencies. Figure 1 shows the ghostly traces of c
9
to
f
9
alongside two figures depicting 90,000 Hz. Ko¨nig professes to have mea-
sured the frequencies according to beat tones, hence the cryptic dotted
lines reveal little to the eye, but serve as an emblem of the empirically in-
audible: captured, real “sound” that exists beyond our physiological sense
capacity.
35
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That serious acousticians—Helmholtz included—believed for
eighteen years that our auditory range was twice the size previously thought
suggests a collective contemporary skepticism toward the limits of human
sensory perception. While there need be no direct link here to
Figure 1. Rudolph Ko¨nig’s creation of Kundt acoustic figures at ultrasonic frequencies.
In Ko¨nig, “Ueber die ho¨chsten ho¨rbaren und unho¨rbaren To¨ne,” Annalen der Physik und
Chemie 69 (1899): 649.
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aNietzschean
Ubermensch,
36
a certain restless anthropocentrism is evident.
Crudely put, if nature equipped us even more handsomely than we thought,
and we continue to evolve, who or what has the authority to limit human-
ity? One contemporary example of such an attitude is the German entomol-
ogist Karl Ernst de Baer, who was confident humans could hear up to
48,000Hz sixteen years before Preyer “verified” it. In a lecture from May
1860 he blends fantasy with rationalism to present listeners with a thought
experiment concerning sensory limits. It goes as follows: if a human life
span of eighty years consists of 29,200 days, and this were to pass by 1,000
times faster giving a compressed life span of twenty-nine days, which could
again be sped up by a factor of 1,000, it would result in a total life span of
4042 minutes, and the corresponding rate of perception would be a mil-
lion times faster than usual. For such a person, the organic world would
probably appear disappointingly static, but other experiences currently
unavailable to us would be accessible, de Baer suggests. “All the sounds we
hear would certainly be inaudible to such people, if their ears remain mor-
phologically similar to ours; but perhaps they would perceive sounds that
we do not hear, indeed perhaps they would even hear light that we see.”
37
Returning to the first temporal compression (one-thousandth of a full life),
he calculates that the highest sounds we perceive, vibrating at 48,000 times
between two pulsations, would vibrate only 48 times between pulsations for
people of shortened life span, hence they would sound low.
38
At the upper
end, even the second compression, resulting in a 42-minute life, would not
quite open up our perceptual apparatus to an ether vibrating at “several
hundred billion times a second,” he argues,
but we could take the idea of shortening a real life further, until these vibra-
tions of the ether, which we currently experience as light and color, actually
become audible. And might there yet be in nature quite different vibrations
which are too fast for us to experience as sound, and too slow to appear to us
as light? ... It is not at all preposterous to believe so.... Is there not perhaps
a sounding of outer space ... that is audible to ears quite different to ours?
39
The quasi-scientific postulate of alien auditory realities, and the appar-
ently simple manner of calculating their relation to lived experience, sug-
gest the degree of fascination that limited perception held for those
ambitious for human nature.
It is indicative, then, that only a few years after Preyer’s ultrasonic
claims were rubbished, Ezra Pound would speculate on “new organs” for
the body of the artist, whose brain constitutes largely undischarged chemi-
cal potential, “a great clot of genital fluid held in suspense or reserve,” stat-
ing, “I believe that the species changes as suddenly as a man makes a song
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or a poem.... It is not even proved that man is at the end of his physical
changes.”
40
Pound had been trying to understand acts of creativity as the
material outcome of body processes, particularly the capacity of humans
through chemical impulses in the brain to detach from their corpus inter-
nal bodily tools such as the production of heat (from internal digestion to
external fire): “All sorts of extravagances in nature may be taken as the re-
sult of a single gush of thought. A single out-push of a demand, made by a
sea of sufficient energy.”
41
In the wake of evolutionary biology, Pound
acknowledges that aptitudes of auditory “genius” developed without physi-
cal change to the ear—“from the faculty of hearing four parts in a fugue
perfectly, to the ear for money”
42
—and proceeds to speculate: “The ‘next
step,’ as in the case of the male organ of the nautilus, is to grow a tool and
detach it.... Let us suppose man capable of exteriorizing a new organ,
horn, halo, Eye of Horus. Given a brain of power, comes the question,
what organ, and to what purpose?”
43
However bizarre this and de Baer’s
imaginative pressing on biological limits may seem, they were not alone
for the period, and arguably make explicit what was implicit in the collec-
tive readiness to entertain Preyer’s ultrasonic claims. For his part, Pound
regarded the idea of expanded sense capacity as normative in 1921—
“lying on the study table of any physician or philosopher.”
44
Leaving futurist speculations to one side for the moment, the debacle
over higher pitch perception effectively marks the emergence of biosemiotics:
the study of sensory signification within living organisms. The concomitant
epistemology of sound based on sense acuity undermines contemporary doc-
trines of the ontology of art.
45
Afterall,aflutesonatasoundsandatsome
level is—different for you before and after you might suffer hearing loss.
Several recent theorists have sought to embrace this perspective: Mark
Reybrouck redefined music simply as “a collection of sound/time phenomena
which have the potential of being [mentally] structured,” where any meaning
of heard music derives not from ontological categories but from a listener’s
disposition to react to stimuli;
46
and Gary Tomlinson’s concept of the
“parahuman” listener emphasizes in part the extent to which listeners labor
in acts of listening, actively participating in the creation of musical sound by
setting“inmotiontheprocessesofsignification” that define—in this case—
the “techno-semiotic exchange” of Wagner’s operas.
47
In effect, this definition of music has long been applicable at a cogni-
tive level through the idea that the “music” a listener identifies with perfor-
mance acts is highly dependent on the perceptual acts they are able to
accomplish.
48
“Like all communication,” Milton Babbitt argued back in
1958, theoretically complex music “presupposes a suitably equipped
receptor.”
49
But this is not easily reducible to a two-way street between
sound object and listener. The radical theory at issue here sees musical
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experience assessed not just cognitively, in this way, but sensorially—it
becomes an affordance of the body, effectively created through the matrix
of received stimuli generated by sense organs. This defines the limits of, as
well as enables, the listener’s sonic experience (much like the Jena poets of
Wackenroder’s generation felt constrained as their poetry “created the
world” through the artificial grid of the German language).
50
This is not to
say that the emergent reality of music in the scientific age is nothing but
sonic/somatic sensations, Massumi’s “prepersonal intensities,” only that ma-
terial realities of sound have a bearing within an ecological approach to per-
formance. Nor does it imply a return to frail ontologies—“the music itself”
etc. Rather, it asserts that the concept of sensory acuity is formative for our
subject identity in ways empirical as well as phenomenological.
In this article, I seek not only to substantiate existing moves toward
an ecological theory of listening, but also to throw into relief the organizing
frame of the body that such theories have relied upon. The history of
debates over technology and the body raise questions about the authenticity
of our perceptual means, the potential utility of sense augmentation, and
the degree to which our identities (as listeners) may depend in a broader
sense on the perceptual apparatus we control. This approach tends to re-
gard sound as a material object, stripped of applied meanings, rather than a
sign rooted in schemes of mimesis and representation. A turn of this kind
toward materialist epistemologies challenges some of the basic assumptions
that have underpinned our understanding of sound in recent decades, in-
cluding perhaps even our “normative sense of the human and our belief
about human agency” wherein performance and listening—practices for-
ever in contact with sensible objects—beg a corresponding inquiry into how
matter itself can animate and define experience.
51
Jakob von Uexku¨ll
A touchstone for this approach to materialist epistemologies is J. J.
Gibson’s theory of ecology, whose central thesis famously relates organism
to environment, and whose unifying principle between disciplines has
been “the question of what can stimulate a sentient organism.”
52
Historically this view found expression in the fields of both psychology
and theoretical biology in the decades surrounding the First World War.
53
When, in 1923, Freud formalized his division of the psyche into Es (id),
Ich (ego), and
Uber-Ich (super-ego), he identified the ego, the seat of our
self-identifying conscious awareness, as “first and foremost a bodily ego.”
54
His footnote to the later English translation clarified that:
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The ego is ultimately derived from bodily sensations, chiefly from those
springing from the surface of the body. It may thus be regarded as a mental
projection of the surface of the body, besides ... representing the superfi-
cies of the mental apparatus.
55
In fact, Freud was adapting biological research to “the mental
apparatus”—much as Helmholtz had adapted physiological research to
what he termed the “mental ear.”
56
Fourteen years earlier the Baltic
German biologist Jakob von Uexku¨ll had effectively grounded Freud’s
claim empirically in relation to cell structure. He argued that each sen-
tient organism has a peculiar, limited sphere of perception, and that this
exists in dialogue with the objects of that organism’s environment. His
theory emerged a decade after Preyer’s claims of hearing 40,960 Hz had
been overturned; it cries out for reinspection amid recent moves toward
the listening subject. My interest here is to suggest the extent to which it
relates disproportionately to contemporary understandings of sound and
otology, and, as such, would become foundational for twenty-first-century
debates over auditory prosthesis.
Uexku¨ll introduced the concept of Umwelt to describe this bubble of
perceivable space within which we live; it combines an individual’s
Merkwelt (everything an organism perceives physically) and its Wirkwelt (ev-
erything it acts upon mentally or produces through the use of its perceptual
tools). Another way to put this would be that it combines physiological lim-
its with directed or learned perceptual attentiveness that abstracts some
sounds—in the case of listening—in preference over others, a practice
Jonathan Sterne recently conceived as “audile technique [that] problemat-
izes the shape ... [and] content of audile space.
57
These two elements, in-
nate physiology and mental honing, remain conceptually separate for
Uexku¨ll. Acknowledging his nourishment on Kant,
58
Uexku¨ll effectively
articulates a new noumenal realm: “The space that surrounds us is always
bounded. We can perhaps imagine an unbounded space in our thoughts,
but our sensory tools have no knowledge thereof. They teach us that we re-
main constantly surrounded by a bubble—breakable perhaps, but for us just
as inaccessible as impenetrable.”
59
Figure 2 presents the chain of significa-
tion schematically, using Uexku¨ll’s terms of reference from 1920.
His main thesis, first set out in Umwelt und Innenwelt der Tiere (The
Outer and Inner World of Animals; 1909), is that each sentient organism
creates its unique environment by its capacity to receive only signals that
register on its peculiar sense organs.
60
Hence, these perceptual limits de-
fine the nature of all that is, materially speaking, for the organism.
Uexku¨ll’s classic example is the tick: blind and deaf, it smells the butyric
acid of its prey, so knows when to jump onto the passing animal; the
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warm skin confirms this as a source of nutrition, and on sensing a patch of
hairless skin, the tick begins boring for blood. It will feed only once before
dying, so can neither learn nor refine the procedure.
Just as the tick’s concept of an environment relates to only three
“perception signs”—smell of acid, detection of temperature, touch of
skin—so our human environment is multiplied by the complexity of our
sensory apparatus:
All animal subjects, from the simplest to the most complex, are inserted
into their environments to the same degree of perfection. The simple ani-
mal has a simple environment; the multiform animal has an environment
just as richly articulated as it is.
61
Different “perception signs”—things that living animals notice—create
the significance of different experiences of the same objective space: the
night sky differs for an astronomer, a commercial pilot, a child dreaming,
an astrologer, a poet, a UFO-spotter. In other words, the night sky does
not exist as a fixed object. Nor does sound. For Uexku¨ll, the animal-
environment axis explains a familiar disconnect between different disci-
plinary approaches to sound: “The environment of a researcher of air-
waves and of a musicologist show the same opposition. In one, there are
only waves, in the other, only tones.”
62
If the perspective of sound studies
is weakening this divide today, Roger Scruton underscores its resilience by
Figure 2. Jakob von Uexku¨ll’s diagram for the rule-governed functional cycle that cre-
ates an animal’s inner perceptual world, Theoretische Biologie (1920), 117; Eng. trans.
(1926), 155. This illustrates, for Uexku¨ll, the two interdependent parts of an inner world:
that receiving impressions (“world as sensed”/Merkwelt) and that distributing effects
(“world of action”/Wirkungswelt), between which lies the “whole function cycle.” The
“mark organ” (Merkorgan) and “action organ” (Handlungsorgan) each follow a rule: the
one arranges the impressions in the mark-organ, thereby creating indications; the other
arranges effects produces by the action-organ, thereby creating actions.
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emphasizing, in mirrored fashion, the incommensurability of perspectives
from an acoustician who hears frequencies and durations and a music the-
orist who hears harmonic tension and voice leading in the opening theme
of Beethoven’s Third Piano Concerto:
Each way [of apprehending what is heard] is cognitively complete—that is
to say, it apprehends and orders everything that is there.... The reducti-
vist would argue that ... the music is nothing but the sequence of pitched
sounds, since if you reproduce the sequence, you reproduce the music....
But to hear the music it is not enough to notice the sounds. Music is inau-
dible, except to those with the cognitive capacity to hear movement in
musical space, orientation, tension and release, the gravitational force of
the bass notes, the goal directedness and action-profile of melodies, and
so on.
63
Uexku¨ll’s musical reference—unwittingly elaborated by Scruton—is indica-
tive of sound’s special capacity to draw attention to what the biologist called
“constitutional differences” (konstitutionelle Unterschiede) between the envi-
ronments of different people, to split apart simultaneous realities. For these
differ from one another as a result of combining an individual’s sensory
means of perception (the Merkwelt) with the actions, attentiveness, and ha-
bitual uses to which they are regularly put (the Wirkwelt). Examples are de-
fensively qualitative,
64
but the principle is clear:
Since the perceptual capacity of humans varies enormously, so their per-
ceptual worlds [Merkwelten] must differ from one another. The individual
human is connected to his environment not only by means of his sensory
tools that enable him to notice [things], but also thanks to his actively
used perceptual “tools” [Handlungswerkzeuge], which connect him to his
effect world [Wirkungswelt]. Together perceptual world and effect world
create the environment.... The environments [of different individuals]
are constituted so very differently that we can even speak of occupational
worlds.
65
It would seem odd to ignore the applicability this has for different listeners
witnessing the same performance.
66
Different human environments are
challenging for Uexku¨ll to exemplify, but between species the parameters
of variance concern the experience of time (speed of cognition), the sensi-
ble electromagnetic spectrum, sound frequency range, and spatial aware-
ness.
67
Uexku¨ll’s visual illustration of a street scene perceived by a human,
a fly, and a mollusk, given in figures 3a–c, is artful in its supposition, but
may nevertheless be helpful as an ocular analogue to the varying “skill” of
different listeners’ experience of complex music, envisioned by the likes of
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Figure 3a. A photograph of a village scene, given in Uexku¨ll, Streifzu¨ge durch die
Umwelten von Tieren und Menschen (1934), 2627; Eng. trans. (2010), 6465.
Figure 3b. The same scene visualized through the eyes of a fly, created by reducing
photographic resolution against a fixed grid according to the number of visual elements in
the fly’s eye.
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Babbitt and Scruton. The hierarchy implied compares to the ranking of
sentient organisms by their perceptual acuity within the single world of
classical biology. By contrast, for Uexku¨ll each organism’s relation to the
environment is equally perfect, from amoeba to elephant, their perceptual
worlds reciprocally exclusive and uncommunicating, corresponding as
an ensemble to the world composed by the totality of its perceptive
inhabitants. In the end, however, all matter within this totality remains
unknowable in itself. Animals “never enter into relation with an object as
such,” Uexku¨ll concluded, which is to say all sensory relations remain
representational.
68
Musical
Umwelten
Accepting Uexku¨ll’s argument means accepting the existence of an
infinite variety of perceptual worlds. Hence the task he set himself was
speculative—to find a way of “thinking himself into” other perceptual
worlds.
69
Some musicologists have followed suit in the service of decon-
structing the Western canon. Bruno Nettl adopted the same strategy
when he hypothesized how “an ethnomusicologist from Mars” might listen
Figure 3c. The same scene visualized through the eyes of a mollusk, created by reducing
photographic resolution against a fixed grid according to the number of visual elements in
the mollusk’s eye.
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to Mozart, and Nicholas Cook recently crystalized the perceptual gains,
positioning “Western music as world music.”
70
As these illustrate, any
strategy of distancing oneself is of course not exclusively physiological. (In
answer to the question “What is it like to be a bat?” philosopher Thomas
Nagel pointedly argued that materialist theories of mind omit what is es-
sential to consciousness, that there is a state that it feels like to be a partic-
ular conscious thing, a subjective character of experience.)
71
But
physiologically, the direction of travel for any distancing operation is nec-
essarily reductive, from greater to lesser acuity, as figure 3 demonstrates:
humans with unimpaired sight could simulate color blindness but not vice
versa, Uexku¨ll explains; “[j]ust as little can the unmusical man conjure up
the world of melody in which lives the man who has a musical sense,” he
adds.
72
For skeptics, this amounts to little more than a metaphor for “getting
outside yourself” and seeing another point of view. But a lateral glance
reveals related intellectual enquiries during the early twentieth century,
which help corroborate Uexku¨ll’s theories as part of a broader impulse to
destabilize the monopoly of human perception. Nietzsche, in disparaging
the hubris of anthropocentrism in 1873, anticipated the singularity of an
animal perspective in stark terms:
There have been eternities when [human intellect] did not exist; and
when it is done for again, nothing will have happened. For this intellect
has no further mission that would lead beyond human life. If we could
communicate with the mosquito, then we would learn that it floats
through the air with the same self-importance, feeling within itself the fly-
ing center of the world.
73
If this relativizes human perspective, Edmund Husserl massified it two deca-
des later when he defined the aim of phenomenology as unprecedented
“epistemological clarity” (erkenntnistheoretische Klarheit und Deutlichkeit)
whereby philosophers were to hold their assumptions about the world’s exis-
tence in abeyance in order to reach a higher state in which they could ana-
lyze the contents of their own perception. The resulting state of heightened
self-consciousness, the so-called phenomenological reduction, seeks unmedi-
ated perception, knowing the particular appearance of objects for “me” as
such. Though distinct, both seek to interrupt perception and estrange cus-
tomary associations—to break the spectacles through which we normally
look at reality. If this often takes effect at the level of tactility (figured as the
“interplay of the senses, rather than isolated contact”),
74
here sensory labor
is precisely the point: the linchpin around which a philosophy of materialism
pivots.
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Amid these developments it seems uncontroversial, methodologi-
cally, to argue that a musician’s perceptual “world” relates both to the
art he or she produces, and his or her way of perceiving it. Writers of all
stripes have interpreted known mental or physical conditions determinis-
tically in this manner. A recent analysis of such determinism is given in
Joseph Straus’s application of disability theory to the analysis of
Formenlehre principles, where harmonic “abnormalities” in sonata form
movements by Schubert and Beethoven become explicable by the dis-
ease and aberrant physical conditions of their composers.
75
Such
approaches are grounded in a theory of embodied cognition wherein
individuals experience and interpret the world differently through the
idiopathology of their bodies;
76
correspondingly, everything from spatial
metaphor to the visual spectrum is experienced as an interpretation
thereof. Yet the point is rarely made that if the mind–body complex
becomes a means of understanding music by deviation from a posited,
problematic “normal,” the obverse was equally true: at the turn of the
century, music was seen by some as a phenomenon uniquely suitable for
studying the mind–body complex. Carl Stumpf’s two-volume
Tonpsychologie (1883, 1890) set a precedent for positing musical sounds
as the ideal material for scientific scrutiny of the mind: “Perhaps no-
where will the collected tools of psychological research allow for the
same combination—self-observation and external data, statistical collec-
tion and data sets, physiological facts and hypotheses, comparison of
peoples and times, biographical factors etc.”
77
This interlocking condi-
tion suggests an emergent, special role for sound as a tool in the study of
human perception at the turn of the century, one whose cultural work
continues under the rubric of sound studies, but whose history has argu-
ably been overlooked.
Given the influence of Stumpf’s beliefs and the subsequent tradition
of connecting perceptual world and artistic production, it is surely no co-
incidence that music turns out to be central to Uexku¨ll’s way of thinking.
Indeed, his investigation is shot through with musical allusion. He uses
musical paradigms—from the spatial organization of the diatonic scale to
the perceived unity of individual works—to illustrate principles of cellular
organization and function. It seems sounding music, as an invisible, appar-
ently self-organizing phenomenon in three-dimensional space, provided
him with a double analogue: for the unseen patterning of biological com-
position and for experiencing music and environmental sound in dialogue
with that composition.
78
To take one example, Uexku¨llaskshisreaderstoimaginea
Russian choirmaster tasked by Peter the Great with imitating European
choral music at court, but who is only able to draw singers from army
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ranks, where voices are untrained and often musically illiterate. To solve
this problem each soldier is taught to sing only a single pitch irrespective
of the stimulus he receives, so that the choir can be “played” like a pipe
organ. Since multiple singers are assigned the same pitch, each note con-
stitutes “objective energy” (a predefined frequency) but with subjective
quality (it is performed by several individuals, what philosophers call
joint collective action). Following this compound analogy in which each
singer—primed to sing only one pitch—represents an organ pipe, which
in turn represents a human cell, Uexku¨ll concludes: “Our entire corpo-
real organization is built according to the principle of hearing and sound-
ing organ pipes. That means we consist entirely of individual totalities,
each of which possesses its own law.”
79
In other words, music’s internal
logic becomes a cipher for unseen biological processes and cellular
ontogeny.
At first blush this serves as a check against materialism. “To find in
the properties of living matter nothing more than the expression of a
dance of atoms,” Uexku¨ll remarked in 1930, “is not only to be hard of
hearing but to be stone deaf.”
80
Hence “melody” is the organizing princi-
ple for an organism’s cellular structure; the sensory stimuli an animal
receives constitutes “rhythmically arranged melodies of impulses”; the pro-
cess of cellular division arranges each body “into a resounding carillon
according to a certain formative melody”; and “every organism ... is a
melody that sings itself.”
81
What significance should we accord such
analogies? As Derrida reminds us, verbal surfaces are not superficial:
“Metaphor is never innocent. It orientates research and fixes results,”
82
so
it seems reasonable to ask whether there may be an anchoring effect at
play, wherein the idea of music is creating a value for its position within
Uexku¨ll’s theory before that theory was formulated.
83
We may never
know, but the sustained metaphors lend credence to the view that a lis-
tening environment may be the theory’s purest exemplification, its natural
telos.
II
Transhumanism and the Posthuman
If Uexku¨ll’s achievement was to map the biological limits of each species
schematically, the recent discourse of transhumanism calls these limits
into question. Specifically, transhumanism regards biology itself as the lim-
itation. “We extropians don’t want just to be normal,” futurist Max More
exhorts, “we want to be supernormal, superhealthy, superstrong,
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superintelligent.”
84
Of course, the technological context of the past few
decades differs radically from that of Preyer’s ultrasonic pretensions and
Uexku¨ll’s Umwelten. Both espoused a reversible proposition we might ex-
trapolate concisely as “sound defines human,” yet both also characterize
a readiness to press at the physiological boundaries of what was under-
stood at the time to constitute Homo sapiens. By contrasting this turn-
of-the-century German discourse with Anglo-American affirmations of a
transhuman subject a century later, I seek to demonstrate that despite
differences of context and of certain framing epistemologies, a difference
of technological capacity has not fundamentally altered attitudes toward
the biological limits of sentient bodies. My second claim is that this dis-
course has previously played out, and continues to play out, in a conspic-
uously auditory context. As well as decentering a dominant visualist
tradition in scientific hermeneutics, such an approach offers a historical
foundation on which to reconsider the fundamental role of sound in
understanding sense perception, what Stumpf back in 1883 dubbed
“ensounding revelations” (herausto¨nend[e] Offenbarungen) about human
nature.
85
First, a clarification of terms. A certain confusion haunts discussions
of transhumanism, the posthuman, and posthumanism, each of which
denotes a separate category. I cannot settle definitions for the array of dis-
ciplines implicated in this article, but a summary of my usage of the terms
in the context of music and the humanities will be helpful.
In brief:
Transhumanism: An optimistic belief in the enhancement of the
human condition through technology in all its forms.
Posthuman: The new condition attained after stages of technologi-
cal enhancement render the subject no longer normatively “human.”
Posthumanism: A discursive web of philosophical positions defined
against, and seeking to supplant, the autonomous liberal human sub-
ject and its concomitant anthropocentric bias.
Transhumanism (H+) encompasses a futurist-orientated intellectual
and cultural impulse pertaining to human–technology relations, shared
between the literary humanities, computer science, and the biomedical
sciences. Its advocates believe in fundamentally enhancing the human
condition through applied reason and a corporeal embrace of new tech-
nologies. It is rooted in the belief that humans can and will be enhanced
by the genetic engineering and information technology of today as well
as anticipated advances, such as bioengineering, artificial intelligence,
and molecular nanotechnology. The result is an iteration of Homo
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sapiens that is enhanced or augmented, but still fundamentally human.
Using devices to compensate for natural functions that have become
deficient, for example wearing glassesorimplantingapacemaker,would
not count as transhuman under such terms. To date, areas of change in-
clude natural aging (including, for die-hards, the cessation of
“involuntary death”) as well as physical, intellectual, and psychological
capacities.
86
As such the tenets of transhumanism bear genealogical
traces to earlier discourses of embodied identity and the machinic body,
including notably Donna Haraway’s cyborg and its call to expose the
production of universals such as Nature or human: “What counts as
nature—a source of insight and promise of innocence—is undermined,
probably fatally.”
87
A central premise of transhumanism is that biological evolution will
eventually be overtaken by advances in genetic, wearable, and implantable
technologies that artificially expedite the evolutionary process. This was
the kernel of More’s founding definition in 1990,
88
and Article 2 of the
multi-authored “Transhumanist Declaration” (2012) continues to assert
the point:
We believe that humanity’s potential is still mostly unrealized. There
are possible scenarios that lead to wonderful and exceedingly worth-
while enhanced human conditions.... We favor morphological
freedom—the right to modify and enhance one’s body, cognition, and
emotions.
89
The very idea of such freedom illuminates Uexku¨ll’s theory of Umwelt
afresh. Now it would seem to emphasize how a totality of all perceivable
existence remains beyond our sensory limits, the ontic nature of what is,
philosophically speaking. Brushing against this postulate are technological
prostheses that enhance our naked sensory knowledge, including sonic
amplification, which appeared in the age of Preyer and Stumpf to offer
privileged access to this ostensibly inaccessible realm. Anticipating later
techniques of sonification, Alexander Graham Bell’s photophone sought
to enable its users to hear the very burning of the sun, for instance, while
advocates of the microphone claimed it allowed one to eavesdrop on the
footsteps of a fly.
90
But this hope for “metaphysics materialized”—as
Abbate eloquently put it—ultimately reinscribes our perceptual limits.
91
For prior to a transhumanist worldview, such technology could not reside
within human bodies.
The posthuman is essentially a state of completed transhumanism,
wherein one’s “basic capacities so radically exceed those of present
humans as to no longer be unambiguously human by our current
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standards,” in futurist Nick Bostrum’s words.
92
Elsewhere he specifies the
bar for entry as a being with “at least one posthuman capacity.”
93
In its
more radical iterations, this condition even does away with the biological
body altogether, where information patterns uploaded to a fantastical su-
percomputer suffice to constitute a posthuman identity. In an extreme
form of noetics, such existence becomes all mind, more powerful than pre-
sent minds, employing “different cognitive architectures or includ[ing]
new sensory modalities.”
94
Despite advocacy from leading scientists such
as Hans Moravec and Raymond Kurzweil, for non-converts such ideas re-
side squarely within the domain of science fiction.
Posthumanism, by contrast, is typically conceived discursively. It
presents a range of philosophical positions that seek to supplant human-
ism, along with its attendant anthropocentrism, excessive valuation of
human achievements, and preoccupation with humanity’s supposed differ-
ences from (and superiority to) the rest of animate life. The first explicit
articulation of a modern posthuman worldview, Ihab Hassan’s article
“Prometheus as Performer” (1977), inaugurated the discourse through the
entertaining spectacle of a “University Masque” among eight symbolically
humanistic characters, wherein his prediction that “five hundred years of
humanism may be coming to an end” has become a touchstone.
95
Indeed,
while posthumanism has been overdetermined across media and scholarly
contexts, its commentators consistently regard an autonomous, self-
determining liberal human subject as no more than an idea with a trace-
able history. Posthumanist attitudes anticipate an increasing incorporation
of artificial technologies into the body not primarily as enhancement of
the human condition (as in transhumanism), but as its anticipated dissolu-
tion. This is seen as part of a more fundamental dissolution of literal
boundaries between subject and object, body and environment, and a cor-
responding recalibration of our sense of self-identity within a world of
objects.
Related theorizing under the rubric of “new materialism” opposes
the separation between human and nonhuman environments, emphasiz-
ing instead the interrelatedness and interdependency of biological and
non-biological forms of agency.
96
This asserts no definite break between
sentient and non-sentient matter in the relational fields of an environ-
ment because matter is no longer conceived as passive or inert, but capa-
ble of “self-transformation, self-organization, and directedness.”
97
At the
radical fringe, it is invested with agency that subsumes nothing less than
human intentionality, freedom, and cognitive ability. The anticipated re-
sult is a move toward models of existence constituted by a distributed cog-
nition, an identity accepting of non-biological thinking parts, one built on
agency distributed non-hierarchically between animate and non-animate,
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sentient and non-sentient parts, where the conscious mind becomes “a
small subsystem running its program of self-construction and self-
assurance while remaining ignorant of the actual dynamics of complex sys-
tems.”
98
The result is an identity defined ever more by its controllable ar-
chitecture rather than its cultural history.
In academic circles, posthumanism has repurposed scholarly trends
persuasively, rationalizing why, for instance, structuralist thought of the
late twentieth century was preoccupied with dissolving the subject, with
obliterating the hard Cartesian ego that distinguishes itself from the world
by turning the world into an object. “Man is an invention,” Foucault
remarks in the closing pages of The Order of Things, “whose recent date,
and whose nearing end perhaps, are easily shown by the archeology of our
thought.”
99
That is, in this instance of posthumanist revisionism, the dis-
cursive networks of metaphysics and epistemology that had universalized
man and his history, notably during the Enlightenment, are revealed to be
increasingly parochial to a time past. Beyond the historicizing of gender
constructions, race studies have also co-opted the liberating tenets of the
debate to highlight what Alexander Weheliye calls an aporetic relation-
ship between “New World black cultures and the category of the
‘human.’”
100
In both cases, “human” becomes a culturally and historically
specific designation. This explosion of antiquated canonical values helps
explain why, for the literary humanities, posthumanism is positioned as a
response to a perceived crisis: in Stefan Herbrechter’s words, “the crisis of
the last remaining metanarrative, namely humanist anthropocentrism,
and its origins.”
101
By evacuating this traditional anthropocentric core,
and capping a more than five-hundred-year-old tradition of studia humani-
tatis, discourses of posthumanism have emerged as a more radical branch
of humanism whose affordances are touted by commentators such as Rosi
Braidotti as a positive resource in countering a perceived malaise inhabit-
ing the humanities.
102
Regardless of whether there may be a whiff of tech-
nological utopianism here, from an academic standpoint, it seems, the
discourse is self-consciously one of renewal and rejuvenation.
For present purposes, it is transhumanist hopes for enhancement
that bear on a listening ear in reach of ultrasonics. If automatic, material
communication was once epitomized by what Helmholtz called the
“material ear” (the mechanism of our inner ear when confronted with vi-
brating air; that is, sympathetic resonance), more recent listening practices
materialized through devices such as cochlear implants indicate that
“automatic” processes are central to the engagement between the ear’s
physiology and technology. Below, this materializing impulse is reassessed
under the rubric of a transhumanist discourse.
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Origins of a Non-Human Ear
The idea of understanding the body as a communication matrix whose
functions are refineable can be traced back to the Macy Conferences in
cybernetics between 1946 and 1953, in which mathematician Norbert
Wiener established so-called first-order cybernetics as “the scientific study
of control and communication in the animal and the machine.”
103
The
origins of a posthuman worldview bear witness to the conceptual
symmetries—human part:object part—that enabled this paradigm shift.
Tracing it reveals afresh our current attitude toward bodies, and not coin-
cidentally, this returns us one last time to the closing decades of the nine-
teenth century. In 1877 Ernst Kapp published his Grundlinien einer
Philosophie der Technik (Principles of a Philosophy of Technology), a wide-
ranging study of the effects on human society of the use of technology.
104
In this text he coined the phrase “philosophy of technology,” and for this
reason it is commonly cited as the originator of this field of inquiry.
105
In
his second chapter, Kapp argued that tools and technologies are projec-
tions of human organs: the eye is the model for the camera obscura, the
teeth provide a formative image of the saw, the forearm with clenched fist
does the same for the stone hammer, the crooked finger becomes a hook,
etc. Such relationships, as Kapp puts it, constitute “a projection of organs
or the mechanical after-image of an organic form.”
106
The ear does not es-
cape Kapp’s purview; he saw the vibrating hairs of the cochlear duct as a
biological model for both the overstrung piano and the wind harp, that
most natural and automatic of instruments.
107
But two aspects of Kapp’s projection of organs need to be separated.
On the one hand, he is concerned with technological genesis, in which
the technical means are seen as unconscious “after-images” (Nachbilder)
of human organs. On the other hand, he thematizes the cultural dimen-
sion of technology, wherein this technical means is posited as a medium
through which we recognize ourselves. Herein lies the conceptual pivot
toward transhumanism. For though the natural human body is primary for
Kapp, and the technological “after-image” secondary, media theorist
Friedrich Kittler grittily reversed this relationship in his pathbreaking
analysis of human referentiality in media for communication and data
storage, arguing in 1986 that media technology is a primary constituent of
identity, the body its conceptual copy. “So-called man” was now the sec-
ondary product of technologies that are conceptually prior.
108
If Marshall McLuhan had already envisaged media in 1964 as pros-
thetic extensions to the human sensorium, Kittler went further.
109
He ef-
fectively envisioned a feedback loop between technical and cerebral data-
processing operations, wherein the one models the other with scant regard
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for the difference between computer circuits and human biology. Or, as
he puts it, “Sensory aphasia (while hearing), dyslexia (while reading), ex-
pressive aphasia (while speaking), agaphia (while writing) bring forth
machines in the brain.”
110
When the technological differentiation of me-
dia channels—optics, acoustics, and writing—broke the monopoly of al-
phabetic writing ca. 1800, he continues,
the fabrication of so-called Man became possible. His essence escapes into
apparatuses.... Machines take over the functions of the central nervous
system, and no longer, as in times past, merely those of muscles. And with
this differentiation ... a clear division occurs between matter and information,
the real and the symbolic.... So-called Man is split up into physiology and
information technology.
111
At a minimum, Kittler is saying that the emergence of analog media in
the late nineteenth century is fatally tied to similar advances in the
analysis of human cognition and perception. Subsequent theorists have
taken a harder line, but his unrelenting focus on data streams obliquely
highlights the “clear division” he asserts “between matter and
information.”
112
This division would underpin a landmark study fifteen
years on, Katherine Hayles’s How We Became Posthuman (1999), which
seeks to undo the concept of embodiment, or rather, to define a human
being “first of all as [an] embodied being.”
113
For Hayles the central move
posthumanism makes is to separate information from its body, like an ap-
parently amorphous blob of a shellfish plucked not from its structuring
exoskeleton but from its genetic data. Information in the form of data pat-
terns become the ultimate, indispensable reduction of meaning, beyond
which no further substance inheres. (To be sure, pushback against this in-
fatuation with data/information as units of identity has a parallel his-
tory,
114
just as the desire to exceed our biological limitations stretches
back at least four millennia, and for this reason might be considered fun-
damentally human.)
115
After asserting the posthuman “privileges informational pattern over
material instantiation” where consciousness constitutes “an epiphenome-
non ...an evolutionary upstart,” Hayles characterizes the posthuman’s
remaining tenets accordingly:
Third, the posthuman view thinks of the body as the original prosthesis we
all learn to manipulate, so that extending or replacing the body with other
prostheses becomes a continuation of a process that began before we were
born. Fourth, and most important, by these and other means, the posthu-
man view configures human being so that it can be seamlessly articulated
with intelligent machines. In the posthuman, there are no essential
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differences or absolute demarcations between bodily existence and com-
puter simulation, cybernetic mechanism and biological organism, robot
technology and human goals.
116
By viewing prosthesis as part of an ongoing evolutionary process, from the
blank canvas of a congenital body onward, the third and fourth tenets re-
main fundamentally anthropocentric; and ultimately Hayles doesn’t sub-
scribe to them. Why? Because the history of biological evolution cannot
simply be eradicated by devices of artificially intelligent listening/sensing/
cognizing, regardless of whether the body is considered primary (Kapp) or
secondary (Kittler) to technological tools. It is incarnated with a sedi-
mented history, Hayles explains: “a physical structure whose constraints
and possibilities have been formed by an evolutionary history that intelli-
gent machines do not share.” For this reason, humans may enter into
“symbolic relationships with” or be “displaced by” intelligent machines,
she concludes, but the discursive difference between machines and
humans in their embodiment means “there is a limit to how seamlessly
humans can be articulated with intelligent machines.”
117
For present pur-
poses, this postulated limit point is exemplified by the case of auditory
prosthesis and augmented auditory sensation, to which we now turn.
Musical Listening and Transhumanism
So what is at stake for a theory of musical listening? We have already seen
that individuals reside in empirically different perceptual worlds.
Transhumanist attitudes destabilize the idea that an individual inhabits a
singular Umwelt. If even the biological given of our bodies becomes poten-
tially changeable, what multiplied complexities would result for our per-
ception? Meaning would no longer be guaranteed by a coherent origin in
the (purely) human body. How would this affect music aesthetics?
Aesthetics itself—as the (human) study of the beautiful—may no longer
even be applicable.
Amid such alarm, possibilities also lurk. To date, music-orientated
discussions of transhumanism and the posthuman have focused principally
on simulations of the human voice as signifier of human/cyborg identity.
118
Moving beyond this, the music potentially implicated is numerous and var-
ied. It incorporates algorithmic composition and artificial intelligence, mu-
sic generated by somatic feedback
119
and data audialization in general, as
well as machine-led musical training, computer-aided performance of com-
plex music, and the imitation of inhumanly complex sound configurations
that occur in nature (such as the irregular rhythm of pedestrians on a
bridge or the polyphony of beating wings as a flock of pigeons takes off).
Music and the Transhuman Ear 223
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In a material theory of communication, the ear—unclosable and inert—is
perhaps the most profoundly implicated sense organ for theorizing histori-
cally the limits of human sensation. Hence I delimit the remainder of this
article to developing the material theory of listening with which we started,
and music conceived in relation to auditory thresholds.
Musical sounds situated at the boundaries of our sense perception
play on Uexku¨ll’s theory of Umwelt. When the ear is no longer restricted
by biology and becomes a site of potential technological augmentation,
the very idea of normal auditory perception becomes inherently vulnera-
ble; it follows that what is at stake in the dance with technology is nothing
less than sound as music. Two examples can help to ground this bold
claim.
Our Sonic
Umwelt
1: Sciarrino
In 1979, the Sicilian composer Salvatore Sciarrino (b. 1947) advanced an
explicit manifesto that future developments of modern music should in-
vestigate “the boundaries of auditory perception.”
120
Music itself is the
medium par excellence for cultivating an aesthetic of perceptual limits, he
asserts:
Music inhabits a threshold region. Like dreams, where something both
exists and does not yet exist, and exists as something else as well. And
where these sensations, the most fleeting of them, cross the threshold of
unconsciousness with the blink of an eye: outside, they are prolonged,
sharp and clear, having survived the passages from drowsiness. These are
the sounds found close to the horizon of the sense.
121
Sciarrino’s Sei capricci for solo violin (1976) play on a very particular
“horizon of sense,” the threshold of audibility, including both upper fre-
quencies and minimal sound intensity. Though this fact cannot circum-
scribe the sum value of Sei capricci, I would like to explore the claim that
the six caprices, distantly modeled on Paganini’s Opus 1, can be read as
transhumanist for reveling in human limits, for pushing beyond our natu-
ral capacity, sensory as well as technical. It is a fitting genre for transhu-
man exploration because, historically, the roles and activities of the
virtuoso reside within a set of paradoxes, one of which is the contradictory
embodiment of human and other. The tension between the identities of
mechanical executant and inspired supra-human leave unspecified the ori-
gins of the non-human agent.
122
Just as certain early nineteenth-century
listeners accepted that Paganini was possessed by the devil because of his
uncanny mastery of his instrument, so the virtuosity and de facto
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unrealizability of Sciarrino’s late twentieth-century caprices potentially in-
voke the need for extra-human means.
Situated in the instrument’s uppermost range, the six caprices utilize
artificial harmonics almost exclusively (producing distortion, in contrast
to natural harmonics). They outline a fragile tissue of sound that—in the
present context—can function as a metaphor for the fragility of our per-
ceived reality itself. The notation indicates where to place fingers on the
fingerboard rather than a sounding pitch; the resulting pitches depend on
how firmly the finger depresses the string and any distortion produced
from the bow contact, hence it is illegible for the purposes of silent reading
(the historical archetype for which is surely Brahms’s comment on reading
Don Giovanni in 1887). Unlike traditions of nineteenth-century virtuosity,
the totality of these works remains genuinely unplayable and inaudible as
written; the artificial harmonics resulting from Sciarrino’s extended tech-
niques are effectively indeterminate distortions whose configurations on
the fingerboard do not fit under the ordinary human hand. The playing
techniques themselves draw attention to the artificiality of producing mu-
sical sounds. The rapid switching between tasto and ponticello in No. 3 is
typical in foregrounding the bow-as-medium, producing almost pitchless
noises as the hairs brush against the string. A transhuman reading would
see the (prescriptive) notation as a challenge to biological limits: by ensur-
ing a performer deals in the residue of musical materials rather than in
musical pitches as such, it becomes less a critique of notation, more a
threshold aesthetic that goads us with what we cannot quite perceive and
cannot quite execute.
At the level of notation, the first caprice is modeled on Paganini’s
E-major caprice (No. 1) in its brilliant rising and falling ricochet bowings
across broken chords. This texture is interrupted by a chromatic glissando
figure, either ascending or descending, that co-opts the broken chords in
sequences of between six and twelve chordal iterations. There are seven
such “glissando interruptions” in total. As example 2 shows, the first of
these uses the perfect fifths of the violin’s open strings, though later inter-
ruptions deviate into sixths and sevenths. The highest notated pitches are
beyond the auditory threshold of musical pitch: g-sharp0000 (just beyond the
88-key piano) occurs five times. Its sounding frequency is 6,644.876 Hz in
equal temperament, but the likely pitch of its harmonic is d-sharp00000
(19,912 Hz), which, if detected at this sub-PPP level, would be perceived
as infinitesimal noise: what Helmholtz in 1863 called sensations (sense
impressions we become conscious of only as conditions of our body, espe-
cially of our nervous apparatus) as opposed to perceptions (sense impres-
sions from which we form a mental image of an external object).
123
The
same strategy is revisited in more truncated fashion at the close of the fifth
Music and the Transhuman Ear 225
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caprice, which proceeds into upper auditory limits through a rising har-
monic on the G string marked: “Glissando without tightening the hand
position! Until the end of the string!”
124
This is given in example 3.
But as the data in figures 4a and 4b show, according to the
American National Standards Institute, Sciarrino’s d-sharp at 19,912 Hz,
played sub-PPP, is officially inaudible for humankind.
125
As such, the as-
cending glissandi effectively mimic a threshold test, not unlike those of
Ko¨nig, Stumpf, and Preyer, ca. 1890, probing the correlation of sound
pressure (volume) with frequency (pitch).
Frequency and sound pressure are of course interdependent parame-
ters, and each of the glissandi in Sciarrino’s first caprice begins and ends
with silence framed by minute dynamic increments.
126
As example 4
shows, two-thirds of the way through the work the opening broken chord
is simply repeated seven times at different dynamic levels while a cre-
scendo/diminuendo frame the passage in silence; it is a kind of intensity
test, as though a messa di voce were being extended into the lower dynamic
threshold. It presents an artistic vision of music hovering between what
Aristotle called actual and potential sounds. Perception of actual sound
requires “a certain form or power in a magnitude.” The need to control
magnitude at the upper extreme is commonly understood; it helps us un-
derstand why excessive stimulations destroy the organs of sense:
If the movement set up by an object is too strong for the organ, the form
which is its sensory power is disturbed; it is precisely as concord and tone
are destroyed by too violently twanging the strings of a lyre.
127
Sciarrino’s music resides at the opposite end of the spectrum—too deli-
cately “twanging” the strings for human perception. If our auditory system
cannot detect sound being produced, it becomes “potential” sound, philo-
sophically speaking, and a politics of posthuman difference deals precisely
in “potential becomings that call for actualization.”
128
That is, actualizing
Example 2. An early rising chromatic sequence in Salvatore Sciarrino’s first caprice,
Sei capricci (1976), not barred. Copyright V
C1976 Casa Ricordi S.r.l., Milan, Italy. All
rights reserved. Reproduced by permission of Hal Leonard MGB S.R.L.
226 The Musical Quarterly
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the potential, or what Salome´ Voegelin calls the possibility of the “sonic
impossible.”
129
But to reiterate an earlier question: what kind of listener
does such music imply?
Example 3. The rising glissando that closes Sciarrino’s fifth caprice. Copyright V
C1976
Casa Ricordi S.r.l., Milan, Italy. All rights reserved. Reproduced by permission of Hal
Leonard MGB S.R.L.
Audibility threshold for a binaural listening in a free field
(American Naonal Standards Instute [ANSI], 3.6-2004
Specificaon for Audiometers)
Frequency (Hz) Binaural listening,
free-field (dB, SPL)
125 22
200 14.5
250 11
400 6
500 4
750 2
800 2
1000 2
1250 1.5
1500 0.5
1600 0
2000 -1.5
2500 -4
3000 -6
4000 -6.5
5000 -3
6000 2.5
8000 11.5
10,000 13.5
12,500 11
16,000 43.5
Figure 4a. Audibility threshold for binaural listening in a free field given by the
American National Standards Institute; specification for audiometers. It shows the re-
sponse of individuals listening to pure (sinusoidal) tones through speakers, using both
ears while facing the sound source at one meter’s distance. The measurements, between
125 Hz and 16,000 Hz, are the accepted standard for human hearing tests and instru-
ment building.
Music and the Transhuman Ear 227
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To say the music resides at the extremities of sound itself is also to
say it depends on the listener’s perceptual apparatus, the Umwelt they cre-
ate. For there can be no concept of silence, in the sense of what cannot be
heard, without limited auditory perception. Sciarrino explores the spec-
trum between silence and sound, but the poles are not absolute, biologi-
cally speaking.
130
The composer himself cites auscultation to deny the
existence of silence, where heartbeats and breath remain audible in any
sealed chamber: “As long as one is human there is no silence: and where
there is perception, there is music.” We tend not to adopt a transhuman
position that sees the physiology of listening as a performative factor in
this context. “Is there a metaphysics of silence?” Sciarrino asked in 1990:
I don’t know.... Certainly silence, a “zero-sound” ... presents unsuspected
theoretical problems. How does one decide the frontier, the point of
Figure 4b. The audibility curve for humans, resulting from ANSI’s data in fig. 4a,
potted as frequency against sound pressure. The white areas are officially inaudible to
humans.
Example 4. An “intensity test” on constant pitches in Sciarrino’s first caprice.
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passage? There is a sort of reversal in my music, in that the sounds preserve
traces of the silence from which they come and into which they return, a
silence which itself is an infinite rumbling of microscopic sonorities.
131
Here, silence becomes a word for sounds for which we have no ears. And
Sciarrino’s bridging of sound and silence arguably implies a desire to hear
into what is ordinarily silent, what is ordinarily beyond human nature.
In the end, this approach may seem reductive: a merely biological-
scientific reading of musical listening, voided of the cognitive activity of
expectation, fulfillment, denial, and patterning that we identify with musi-
cal experience. An alternative, transcendental interpretation is to hear
the music melting into a noumenal realm, one increasingly inaccessible
without technological assistance. Sciarrino’s caprices effectively make art
by ensounding this process.
Our Sonic Umwelt 2:Nørga˚rd
If these caprices inhabit a threshold region, other works categorically ex-
ceed it. Composed between 1986–90 for Danish Radio (and revised in
1991), Per Nørga˚rd’s Fifth Symphony is a single-movement work lasting
thirty-five minutes. It requires six percussionists and a battery of high-
pitched percussion, including mouth sirens, Peking Opera Gongs, sleigh-
bells, metal chimes, swanee flutes, and ultrasonic dog whistles. The music
explicitly plays with our lens of perception, as Nørga˚rd recalls:
What has fascinated me in the Fifth Symphony is the way a particular
hearing range is made possible to our imagination as something analogous
to what we see in our surroundings—where we usually see only one side of
things. Our imagination is therefore already attuned to the fact that we see
in parts, so why should this not apply to our listening experiences too?
132
Like Uexku¨ll thinking himself into other perceptual worlds, the hope here
is that imagining other auditory ranges encourages us to accept the exis-
tence of other environments, what Voegelin has called the “aesthetic
inaudible”—what is imagined to exist as sonic materiality but for which
we lack the “sensibility, will, and wherewithal to hear.”
133
If this compari-
son of visual and auditive regimes appears insufficiently critical, it arguably
finds a more stable footing through empirical research: recall Rudolph
Ko¨nig’s visualization of sound at 90,000 Hz (see fig. 1), and the “deceptive
...signal transductions such as the imaging of ultrasound” that create
images from time-based sonic articulations far above human hearing.
134
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Musically, Nørga˚rd’s symphony presents geysers and avalanches of
pitched sound that ascend into inaudibility then descend to muffled tim-
bres of muted double bass and bass drum. Whereas previous ascents had
risen to the uppermost register of the three piccolos, supported by rising
glissandi in the harp, glockenspiel, and piano, Nørga˚rd’s sound images
hover above human thresholds through the use of two dog whistles at the
apex of the highest ascent. In such a context, they literalize the poetic
metaphor of inaudible music. As example 5 shows, two such whistles are
blown ff and the resulting difference tone is intended to be heard.
135
What is inaudible in such passages cannot advocate the morphologi-
cal freedom sought by transhumanists to hear higher frequencies. But it
raises the question, even if the symphony’s play with thresholds of auditory
sensation could just as easily be viewed as reliant on biological limits as
protesting against them.
Promethean Dreams: Expanding the Auditory Range
As noted above, transhumanism’s embrace of morphological freedom—
“one’s right to one’s body”
136
— includes augmenting our auditory system:
replacing some of our biological apparatus with prostheses, the better to
connect to other sounds, including Sciarrino’s and Nørga˚rd’s music. Self-
identifying transhumanists such as Anders Sandberg and Max More have
already broached a range of ways in which to augment or “enhance” the
biology of living people, and companies such as Cyborg Nest and
Cochlear
V
R
are marketing artificial senses.
137
More, in an audacious
“Letter to Mother Nature,” explicitly seeks an amendment to the human
condition in these terms: “We will expand our perceptual range through
biotechnological and computational means. We seek to exceed the per-
ceptual abilities of any other creature and to devise novel senses to expand
our appreciation and understanding of the world around us.”
138
Counterintuitively, musicians may already have an affinity with this im-
pulse. Theorist Mark Reybrouck once argued that it is in the nature of
composition to push beyond perceptual limits, that composers construct
an “internal model” that allows them to “go beyond the constraints of
perceptual bonding and to carry out mental operations on virtual ele-
ments.”
139
That is, where the reality of sensory input is impossible, it is
replaced by representation and the universe of a symbolic order. But new
sensory input is critical, as Reybrouck acknowledges. This need not imply
the improbable growth of antennae, sensitive to hitherto unnoticed trem-
blings in the ether, as Pound imagined in 1921, and de Bear quantified in
1860. Changes to our auditory reality already occur in those who suffer
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Example 5. The first appearance of two dog whistles in Per Nørga˚rd’s Fifth Symphony,
figs. 5253. V
C1990 Edition Wilhelm Hansen AS, Copenhagen. Reprinted by permission.
Music and the Transhuman Ear 231
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hearing loss; and following this logic, augmenting unimpaired hearing
need be no different in principle to correcting impaired hearing.
140
But there are two problems with this: first, that it may be impossible;
second, that few if any medical professionals have asked the question be-
fore, and hence no empirical research into this field has been funded. It is
indicative that a recent article for the World Economic Forum predicts
five human enhancements that “could be commonplace by 2020” but
makes no mention of the ear; the skin, vision, memory, and decision mak-
ing assume priority.
141
There is nevertheless evidence that existing tech-
nologies provide the means by which ears may potentially become
sensitive to sounds below 20 Hz and above 16–20,000 Hz. These include:
Transposing algorithms would shift frequencies from above 16,000 Hz
to a perceivable range, in just the manner a hearing aid operates for
individuals who may have “dead regions” in the cochlea. The band-
width in high-end hearing aids can produce effective gain up to about
10,500 Hz, though most stop at 6,000 Hz (g0000). Shifting frequencies
distorts the sound, however, so this is currently a poor option for music.
Cochlear implants (auditory nerve) would use a potentially enhanced
speech processor capable of transposing an extended range of sounds,
and which is connected to the auditory nerve, though the limited signal
channels of implants were not designed for the spectrum-rich sounds of
music, and the transposing algorithm again results in considerable dis-
tortion. In response, work to mitigate this effect through compositions
adjusted or written specifically for cochlear implant users is tentatively
underway.
142
Cochlear implants (brain stem) would use a similarly enhanced pro-
cessor, but connected directly to the brain stem, bypassing the auditory
nerve by inserting iridium microelectrodes into the stem.
143
The prob-
lems of distortion and a limited signal channel also remain valid here.
Bone conduction of ultrasonic frequencies is possible using a
piezo-electric “buzzer” (a piezo disc glued to a metal disc). Methods of
ultra-high audio-frequency stimulation are typically used in treatment
for tinnitus where residual neuronal function exists in the range 10–14
KHz, or for absorbing medicine through the skin. Ultrasonic frequen-
cies become perceptible via bone conduction only with much higher
sound pressure levels (typically between 80 and 100 dB for a sound at
8 KHz), with data indicating that no absolute threshold operates for
this method.
144
Though bone conduction fulfills the criterion of sensing
ultrasonic sound frequencies, it offers mere buzzing, with no way of re-
ceiving meaningful sound communication, as in speech or music.
145
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Cilia regeneration in stem cell and gene therapy can be used to repair
damaged structures of the auditory system, where the principal focus
has been regenerating hair cells (cilia) within the cochlear duct. The
possibility of engineering organic hairs sensitive to ultrasonic frequen-
cies cannot be ruled out. For advocates, such methods represent “the
future treatments for hearing loss” but at present such treatments are
“years if not decades away.”
146
In all but the last case, the degree of signal change (distortion) introduced
to sounds received is so considerable that the methods initially appear
non-viable for music.
Phenomenologically, however, this simply transforms vibrations into
electrical impulses in a different way to that which occurs naturally in the
auditory nerve; in this sense, it is only a different kind of sonic representa-
tion, or virtuality.
147
For writer and implant wearer Michael Chorost,
there is nothing inherently truthful about sensory organs’ representation
of the universe: “Reality is ultimately a matter of software” he argues,
“people with normal ears are not off the epistemological hook, because
their ‘software’ was written haphazardly by millions of years of evolution
and has no greater claim to reality.”
148
As Mara Mills has shown, signal
processing within the auditory nerve has been researched through patient
response since 1957, and continues to be “the major site of cochlear im-
plant development today.”
149
She foregrounds Graeme Clark’s work on
implant processors during the 1970s, wherein he explicitly took decisions
about what elements from the sonic environment to filter into coded sig-
nals for the auditory nerve; prioritizing speech led him to seek “a more
limited number of stimulus channels [that would] still adequately stimu-
late the physiology,” as he puts it, and to extract “only the essential speech
information that can be processed by the auditory nervous system.”
150
Music was simply deemed less important than speech for those early
patients seeking to go about their daily lives, but implants could equally
well be optimized for music. For Mills, the selected competencies of such
processors are “political” to the extent they encapsulate a “range of cul-
tural and economic values ... deliberately ‘scripted’ into the design.”
151
Apparatus for other sense modalities, such as the “hearing glove” (attrib-
utable to Norbert Wiener), which stimulates the finger of a deaf person
with electromagnetic vibrations, or the implanted color sensor that—for
its color-blind recipient, Neil Harbisson—converts the color spectrum
into sounds, including ultraviolet and infrared signals, present comparable
instances.
152
As do the media through which humans increasingly hear or
otherwise “tune in” haptically to auditory vibrations underwater, from
oceanic recordings to the Wet Sounds Festival.
153
Technology transforms
Music and the Transhuman Ear 233
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signals for perception, in other words, and all sentient signals operate
through analogy in this sense, which is why Hayles can plausibly summa-
rize the principle historically, via the founder of cybernetics: “For Wiener,
analogy was communication, and communication was analogy.”
154
Turning from the abstract to the concrete, Eisuke Yanagisawa’s CD
Ultrasonic Scapes (2011) offers one illustration of ultrasonic analogy. His
frequency-modulated field recordings of bats, cicadas, and streetlight
drones transpose a motley array of sounds from beyond our auditory
threshold.
155
As indicated above, this technology could be adapted to
hearing aids or implants, giving the wearer a positional advantage over
“normal” listeners. Yet two potential flaws in the proposals above are: (1)
the overlaying of transposed sounds onto those perceived “naturally” at
target frequencies, leading to a new challenge of streaming auditory input
simultaneously from multiple sources; and (2) the tonotopic mapping be-
tween the cochlea and auditory cortex. That is, specific nerve fibers of the
cortex have evolved to be most sensitive to specific frequency inputs from
the specific cilia hairs of the inner ear. This spatial correlation between
perceiving brain area and stimulated cochlea area implies that the range
of sounds we recognize as sound is limited by an interdependence of the
auditory cortex and cochlea, not by the latter’s physiology alone.
156
One
implant wearer frames any changes to this in terms of an insurmountable
learning curve: “I probably get more total information from the implant,
because it triggers nerve endings that hadn’t had hair cells before. But I’m
limited by having an auditory cortex that’s not developed enough to use
the additional information.”
157
While further research would be needed to
begin to draw conclusions on the matter, brain plasticity is a proven char-
acteristic; if the brain receives unfamiliar auditory stimuli, it would almost
certainly adapt to accommodate those stimuli, which is to say new stimu-
lation would drive change in the auditory cortex over time.
158
For some,
this may epitomize an expedited evolution, but the challenge of educating
users to make use of any new sense capabilities remains indeterminate. At
this stage, then, the idea of auditory sense augmentation amounts to little
more than a thought experiment, one in which, for skeptics, “music” in
the strong sense would have nothing to gain.
Current futurist predictions for cochlear implants in non-disabled
listeners bypass aesthetics altogether, focusing on applications for the
military and information-intensive business.
159
Admittedly, Yanagisawa’s
transposed sounds are but irregular crackles and blips. To imagine such
sounds in opposition to familiar music immediately makes us opponents of
the idea, as per reactions to Stockhausen’s compression of a Beethoven
symphony into half a second—“then you have a new sound”—or to
Dustin Carr’s music for a microscopic guitar where strings fifty nanometers
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thick vibrate at 10,000,000 Hz, both unplayable by human fingers and in-
audible to human ears.
160
More broadly, the implications of virtually
extending our Umwelt are unknown. Such an extension may be intriguing
but appears at present unnecessary and potentially undesirable: it has an
uncertain aesthetic claim, serves no current utility, and—in the extreme
instance of surgical alteration—may be unethical. Critics of the view that
“morphological freedom” is a basic right cite the need for protection from
any such coercive biomedicine. Were established musicians to adopt a
postulated surgical auditory extension technology, it may pressurize others
to do likewise. As Isaiah Berlin once put it: “Freedom for the wolves has
often meant death to the sheep.”
161
There remains, then, an unanswered
question about why such an innovation would be desirable. But such hesi-
tation need not shut down further discussion. After all, wearable hearing
aids and headsets can simply be taken off. On the one hand, any advocacy
of auditory augmentation would need to respect the preferences, auton-
omy, and sensibilities of listener choice; but on the other hand, the unreal-
ized possibilities implied by transhuman discourse bear open-mind
consideration.
Stelarc’s “Extra Ear”
As is well known, prosthetic extensions of our senses already exist, and
not all answer a perceived disability.
162
In 1964 Wiener, the founder of cy-
bernetics we encountered earlier, predicted a “new engineering of prosthe-
ses” involving mixed systems of both human and mechanical parts that
“need not be confined to the replacement of parts that we have lost.
There is a prosthesis of parts ... which we never have had.”
163
The postu-
late of a modified ear is clearly within such parameters. And there is no
need to tamper with existing ears. In 2007 the Cypriot-born Australian
performance artist Stelarc (a.k.a. Stelios Arcadiou) began a series of three
surgical procedures to insert a soft prosthetic ear into his left forearm. The
result is given in figure 5.
164
Far from an act of replacement, this no longer
replicates human hearing as such. As conceived, the Extra Ear’s purpose is
not merely to receive new acoustic signals, but additionally to transmit
them. A miniature microphone was initially implanted within the ear and
functioned for two weeks as a means of transmitting sound signals via
Bluetooth to an external device: “The [surgeon’s] voice was clearly heard
and wirelessly transmitted.” It worked briefly, in other words. But a subse-
quent infection meant the microphone had to be removed; to date it has
not been reimplanted.
165
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It is tempting to read the remaining shell of an ear as subdued, an
object of forlorn silence, a testimony to the inevitable collision between
transhuman optimism and recalcitrant physiology. But ongoing commer-
cial ventures point to this as an advancing frontier. Emphasizing enhanced
connectivity, Apple and Cochlear’s joint processor Nucleus 7 (2017) con-
nects compatible implants directly to the audiovisual services of Apple’s
mass-market devices, meaning that digital auditory data are transmitted
wirelessly to a surgically embedded implant without the need of a func-
tioning congenital ear. Current advertising speaks of enhancing the expe-
rience of “talking on the phone ... enjoying music or watching videos, as
well as audio apps.”
166
If this constitutes “the first mass market cyborg
enhancement,”
167
Stelarc likewise envisages reimplanting a microphone
Figure 5. Stelarc’s “Extra Ear” grafted onto his left forearm. Ear On Arm (London, Los
Angeles, Melbourne, 2006). Photographed by Nina Sellars. V
CStelarc.
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in his third ear to enable a bespoke, “wireless connection to the internet,
making the ear a remote listening device for people in other places. For
example, someone in Venice could listen to what my ear is hearing in
Melbourne.”
168
The speaker and receiver will not embed microelectrodes
into the brain stem or auditory nerve, a prospect certain to affect the
artist’s biological hearing. Rather they are to be placed inside his mouth,
creating the illusion for Stelarc that the voices received are in his head,
while offering the possibility of sharing the sounds with others by opening
his mouth in a kind of vicarious speech: a displacement that literalizes the
rhetorical technique of prosopopoeia.
169
The decision not to embed into
the stem or auditory nerve is not addressed in Stelarc’s writing on the proj-
ect, but marks a limit for performance art that pauses at the prospect of ir-
reversible neurological change. “I have 2 good ears to hear with,” he
explains.
170
The consistent preoccupation with the body’s obsolescence in
Stelarc’s work is perhaps unsurprising; it typifies a certain strain of activist
futurism, or “body hacking,” at the sharp edge of the transhumanist de-
bate. As early as 1982, when Stelarc was thirty-six, he declared the body
an evolutionary fossil in need of technological complement.
171
By 1991,
the tone was unapologietic in its provocation: “It is no longer a matter of
perpetuating the human species by REPRODUCTION, but of enhancing
male/female intercourse by human-machine interface. THE BODY IS
OBSOLETE.”
172
His projects reflected this outlook. Prior to the third ear
project, he devised “Third Hand” (1980) in collaboration with engineers
at Waseda University and the Tokyo Institute of Technology. A robotic
arm, mounted on his forearm, could be manipulated by electromyography
signals from his abdominal muscles to draw letters. Detailed discussions of
the project have appeared elsewhere.
173
For present purposes the iconic
image of the three hands writing “evolution” in 1982, shown in figure 6,
captures at once the stubborn alterity of wearable enhancement technol-
ogy, while inscribing the need for harmony and synchrony between “parts”
in any claim for a transhuman evolution. This image constitutes but a mo-
mentary semblance, however, for it is only with the surgical permanence
of the third ear that Stelarc’s performance art begins to tip into the cate-
gory of morphological enhancement with its uncertain claims toward evo-
lutionary change.
By dissociating one’s self from a biological body, self-identity
becomes the lost referential, Freud’s “bodily ego,” and it may be no coinci-
dence that, in a performance as early as 1970, Stelarc explicitly modeled
the basic question Uexku¨ll asked of Umwelt theory—whether it is possible
to experience the perceptual world of other organisms—by donning a
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helmet designed to scramble binocular vision, superimposing fragmented
rear and side views onto the usual frontal view in an attempt to replicate
for his two eyes the compound eye of the insect. The Extra Ear accom-
plishes a similar task but its environment is the transhuman (enhanced
body) rather than the non-human (insect), though both result from a
drive to alter the body’s architecture, thereby “adjusting and extending its
awareness of the world.”
174
While this does not yet include transposing
algorithms or implants for accessing ultrasonic ranges, it theoretically
could.
In the end, the Extra Ear along with existing devices for sensory aug-
mentation from the sphere of virtual reality can inform our estimate of
how auditory frequency augmentation might effect musical perception.
The materialized twittering blips and scratchy white noise of Yanagisawa’s
Ultrasonic Scapes elicit no auditory pleasure bound to familiarity, form, or
harmonic proportion. As such we would not judge them aesthetically
beautiful, though the inappropriateness of measuring such noise against
nineteenth-century aesthetics is old. As Eduard Hanslick put it in 1854,
the scraping of a knife on glass conveys “the physical effects of sound
waves, which pass along to the other nerves through the auditory nerve.
...But this is not music.”
175
Accepting this, access to fuller materialized
sounds within our environment would nevertheless empower our sense of
place, and push against our limitations regarding “the ontic nature of
Figure 6. Stelarc’s “Third Arm” functioning in cooperation with his congenital limbs.
Handswriting (Tokyo: Maki Gallery, 1982). Photographed by Keisuke Oki. V
CStelarc.
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what is.” There would seem to be a certain pleasure in that. So at this ini-
tial stage, one of hypotheses and thought experiments, the pleasure of
extending the range of hearing is best regarded as a kind of virtual play: a
game of giddiness, of looking over the edge, hearing the hyperreal
heights—ilinx in Roger Caillois’s classification. By altering perception,
pleasure is no longer only that of haptic or aesthetic manifestation (seduc-
tio), but becomes sheer fascination and psychotropic distraction
(subductio).
176
Epilogue: Naked versus Mediated Sound
When in 1876 Wilhelm Preyer believed he had proven the natural audi-
bility of sounds at 40,960 Hz, Helmholtz was glad of the gain in perceptual
reach but expressed dismay at the idea that such unmusical sounds were
now part of human physiology. If each nerve fiber registers its own pecu-
liar pitch, he remarked, “we should have to regard the auditory cilia as the
bearers of squeaking, hissing, chirping, crackling sensations of sound, and
to consider their reaction as differing only in degree from that of the co-
chlear fibres.”
177
The noises were not imaginary, la domaine de la fanta-
sie.
178
Preyer and Helmholtz’s ears did hear these actual sound sensations,
but at a frequency closer to 11,000 Hz. As we have seen, such sounds—
conceived as auditory reality defined by the listening subject—are not
atechnological. By hypothesizing the extension of our auditory threshold,
we are confronted with the realization that our relation to music hitherto
depends in large part on the limitation of what transhumanists would call
the “home” body, and what Uexku¨ll theorized as our Umwelt—the recip-
rocal interchange between innate physiology and habitual use. Here ultra-
sonics function merely as an index for the material limits of the body.
While enhancement is palatable as a check against debilitating medical
conditions, it also raises heady questions about subject identity in an ongo-
ing dialogic between body and prosthesis.
On this basis, I propose the need for a new, categorical distinction
between naked and mediated sounds. Between unamplified acoustic
sounds we hear without any form of electronic mediation, and sound that
is artificially converted into electrical signals before we experience it as
sound. Naked sounds are auditory vibrations converted into electrical sig-
nals within the congenital ear, such as listening to the rain thundering on
your roof, unaided by devices; mediated sounds are vibrations transformed
into an electrical signal at least once before reaching the inner ear (or
transformed artificially, via an implanted processor), whether in signal
transmission, amplification, distortion, or other processing operation. We
already fetishize such distinctions in controversies over “live” music,
Music and the Transhuman Ear 239
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simulcasting, and discrete amplification. But such distinctions rarely
matter in experiential terms. Rather than privileging the congenital body
as such, then, the purpose of such a distinction is to clarify a historically
human identity for the perception of sound in light of emerging enhance-
ment technologies. That the vast majority of sounds and popular genres
we encounter are electronically mediated under such terms indicates just
how fluid our relation to the auditory environment is. The concept of na-
ked sound offers a means of anchoring this relation to our biology amid
ongoing technological change.
Finally, a few red flags. Perhaps the central problem of transhuman
enhancement of the ear is that it appears to promise unlimited capacity
yet remains untempered by reality and experience. It is indicative, then,
that Stelarc’s “Extra Ear” rapidly became nonfunctional, and that
Chorost, in his auto-ethnographic reflections on cochlear implants, cau-
tions against unchecked optimism:
Replacing the ear with a metal/ceramic/silicon substitute is akin to fixing a
spider web with yarn. This is no insult to the engineers.... It is rather a
recognition of how exquisitely complex and integrated a normally func-
tioning body is, and how little we understand of it. And that’s just the
ear.... In real life, cyborg body parts need frequent tinkering and constant
battery changes, and they are never as good as the natural organs they
replace.
179
If auditory cilia and the vestibulocochlear nerve are part of an “original
prosthesis” that defines the bubble of our musical-auditory environment,
the story of prosthetic auditory technology teaches likewise that this can-
not be replaced straightforwardly, that it is unrealistic to assume cyborg
technologies “will in themselves lead to expanded human capabilities.”
180
Related to this, tensions between the grounded reality of amputation and
the airborne metaphor of “prosthesis” can give rise to frustrating impreci-
sion, even insensitivity, in enabling a discourse unmoored from firsthand
experience. For Vivian Sobchack, herself an amputee, the metaphor has
becomes a vague “catchword ... for a broad and variegated critical dis-
course on technoculture that includes little of these prosthetic realities....
I’ve no desire for the ‘latest’ in either literal or figural body parts. All I
want is a leg to stand on, a limb to go out on—so I can get about my world
with a minimum of prosthetic thought.”
181
Here one ultimately begins to
reckon with the hubris and—for some—potential futility of an anthropo-
centric drive to enhance the human sensory apparatus.
Further pushback emerges when one asks what index or regulatory
force will establish boundaries for the limits of perception if one’s sense
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capacities were to be extended. Experiential boundaries—whether gravity,
life span, or auditory apparatus—guarantee the concept of reality for each
individual, and are therefore essential for the stable conditions needed for
meaning creation. With sensory enhancement technology, it is the means
by which we shore up identities—our own ego as well as others’—that are
at stake. And what is potentially frightening, as Bernard Williams once
put it, is not so much the “evil uses of technology as the evil consequences
of its good uses, [whose] results ... we are afraid to dream about.”
182
We
glimpse such anxieties in comments by Charles Graser, one of the first
patients to receive a portable implant, who reflected on his alien vulnera-
bility: “This electric cochlea testing does bother you. It’s like having some-
one say, ‘Have a seat in the electric-chair while I fiddle with controls.’ It
may not hurt, but it is sometimes frightening in its intensity and your in-
ability to control it.”
183
By integrating a definition of self with the environ-
ment in this way, one view would be to say this condition ultimately leads
to an indeterminate self, a distributed ego that is no longer conceptually
autonomous; another would be to say it expands the self by redefining the
ego-body axis according to the sensory apparatus we control. After all, it is
precisely the lack of control (and concomitant rupture of identity) that
gave rise to Graser’s anxiety in early implant testing.
In this context, agency is negotiated. The least stable act here is the
dissociation of the body from a sense of self. The body remains our bastion
of ego and—for many—continues to assert alterity relations with technol-
ogy. Emmanuel Levinas coined the term alterity to capture the radical dif-
ference posed to any human by another, rather than by the machinic.
Extrapolating drastically from the tradition’s emphasis on the non-
reducibility of the human either to an object (in epistemology) or to a
means (in ethics), he positions the otherness of humans as a kind of infinite
difference, one that is expressed concretely in face-to-face encounter.
Adapting his term to the present discussion tacitly requires us to efface
conceptual differences—no less—between biological and non-biological
parts as a first principle. In some respects, anthropologists and biologists
have been doing this for years,
184
meaning that any conceptual leap is per-
haps beside the point, and Levinas’s concept still provides the discursive
framework within which “users” may in the future come to terms with the
technological other.
Within the slew of quasi-scientific speculations that pepper the
transhumanist literature, depictions of evolution through technology often
proceed too quickly to be palatable. When Darwin first defined evolution,
its key characteristic was incremental change: “If it could be demonstrated
that any complex organ existed, which could not possibly have been
formed by numerous, successive, slight modifications,” he proclaimed,
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“my theory [of evolution] would absolutely break down.”
185
Put another
way, successive slight modification celebrates human frailty, and perhaps
the simplest reading of Umwelt theory is precisely that of gradually shifting
characteristic limitations that “make us human.” Is it not the straining
against the possible in performance that elicits empathy (or envy)? If so,
to what extent can this view remainintactinatranshumancontext?
The dilemma appears intractable if one adheres to an alterity relation
between human and other, for a machine’s version of the Chopin-
Godowsky
Etudes is considerably less arresting than David Saperton’s,
just as a “human” performance of Conlon Nancarrow’s rhythmic
Studies for Player Piano excites our empathy in a way quite different
to that of its intended mechanical performance. But alterity is not the
only way of conceiving oppositional identity, as noted above. And a
similar mediating logic underscores Tomlinson’s argument in the con-
text of prehuman sonic cultures that “humanists will have a central
role to play” in the debate over biological emergence “insofar as [this]
concerns human cultural attainments, even across evolutionary time
scales.”
186
Such arguments return us to the underlying matter of what status
the biological body has in music perception and performance for a century
saturated in ongoing technological endeavor. Apple-Cochlear now trans-
mit digitally captured music and voices directly to the nervous system of
hearing-impaired listeners, and against the cautionary red flags above,
such conspicuous innovations cannot easily be ignored. As we have seen,
the discourse of transhumanism sees the body as an assemblage subject to
variation. Viewing the body as upgradable technology carries the startling
corollary that music need not always be conceived and composed accord-
ing to our biological limits; and that new perceptual tools may eventually
help us to hear, or otherwise experience, existing repertories afresh.
187
Naked listening may itself become ever more quaint vis-a-vis the creative
largesse of mediated listening (casting listeners out of a kind of otological
Eden?). Transhumanism in this sense offers a new intellectual framework
for measuring the connection and compatibility between listeners and
their environment. One need not buy into the relentless linear
narrative—that we must become cyborgs or risk extinction—in order to
create the intellectual elbow room within which to conceive of musical
sound as a mediation of environment, listener physiology, cognition, tech-
nology, and sense mechanism. Rather, this assemblage of agencies, its dis-
tribution across multiple platforms, and our capacity for physical change
mark the beginnings of what we might usefully call a transhuman under-
standing of the musical ear.
242 The Musical Quarterly
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Notes
David Trippett is Senior Lecturer in the Faculty of Music, University of Cambridge.
His research interests focus on nineteenth-century cultural and intellectual history.
Following an edited translated of Carl Stumpf’s The Origins of Music (2012), his sec-
ond book, Wagner’s Melodies (2013), examines the cultural and scientific history of
melodic theory in relation to Wagner’s writings and music. His latest project, funded
by an ERC starting grant, examines the dialogue between natural science and music
during the nineteenth century, and he is currently working on a monograph arising
from this. He is the recipient of several awards, including the Einstein and Lockwood
Prizes of the American Musicological Society, the Nettl Prize of the Society for
Ethnomusicology, an ASCAP Deems Taylor award, and a Philip Leverhulme Prize.
Email: djt31@cam.ac.uk.
This article has developed over several years and has accrued a number of intellectual
debts along the way: I wish to thank in particular the anonymous readers and editors
for this journal, as well as Nicholas Cook, Alexander Rehding, and Anne Shreffler for
feedback on earlier drafts. Earlier stages of this research were presented at the
Universities of Cork, Bern, and Cambridge, as well as at the Max Planck Institute for
the History of Science, Berlin. I also thank the ERC and the Leverhulme Trust for
their support of this research project.
1. Various, “Transhumanist Declaration,” The Transhumanist Reader, ed. Max More
and Natasha Vita-More (Oxford: Wiley-Blackwell, 2013), 54–56, at 55.
2. George Berkeley, The Works of George Berkeley, ed. Alexander Campbell Fraser, 4
vols. (Oxford: Clarendon Press, 1901), 2:190.
3. Lewis Thomas, A Long Line of Cells: Collected Essays (New York: Book-of-the-
Month Club, 1990), 36. The golden disc contains performances by Glenn Gould,
Prelude and Fugue, WTC II, C Major, Arthur Grumiaux, “Gavotte en rondeau” from
the solo violin Partita No. 3 in E, and Karl Richter, Brandenburg Concerto No. 2 in
F, first movement. The selection committee was chaired by Carl Sagan. For details,
see http://web.mit.edu/lilybui/www/.
4. David Huron found that “for musical textures employing relatively homogenous
timbres, the accuracy of identifying the number of concurrent voices drops markedly
at the point where a three-voice texture is augmented to four voices.” Huron, “Voice
Denumerability in Polyphonic Music of Homogeneous Timbres,” Music Perception 6
(1989): 361–82, at 361.
5. Within musicology, discursive approaches to performance and sensation include
Carolyn Abbate, “Music: Drastic or Gnostic?” Critical Inquiry 30, no. 3 (Spring 2004):
505–36; Nicholas Cook, Beyond the Score (New York: Oxford University Press, 2014);
and Elizabeth Le Guin, Boccherini’s Body: An Essay in Carnal Musicology (Berkeley and
Los Angeles: University of California Press, 2006). Within sound studies, Nina
Eidsheim proposes a “vibrational theory of music” and reframes the concept of sound
as “merely a trope” of understanding music, one that neglects the wider phenomenon
Music and the Transhuman Ear 243
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of vibrational force. See Sensing Sound: Singing and Listening as Vibrational Practice
(Durham, NC: Duke University Press, 2015), 6, 9. Non-music-centric texts include
Shelley Trower, Sense of Vibration: A History of the Pleasure and Pain of Sound (New
York: Continuum, 2012), and empirical studies include Christian Gaser and Gottfried
Schlaug, “Brain Structures Differ Between Musicians and Non-Musicians,” Journal of
Neuroscience 23 (2003): 9240–45; Niall Griffith and Peter M. Todd, eds., Musical
Networks: Parallel Distributed Perception (Cambridge, MA: MIT Press, 1999); and Rolf
Bader, ed. Sound—Perception—Performance (Cham and New York: Springer, 2013).
6. Maurice Merleau-Ponty, Phenomenology of Perception, trans. Donald A. Landes
(1945; London and New York: Routledge: 2013), 84.
7. Abbate, “Drastic or Gnostic,” 532.
8. Helmholtz, On the Sensations of Tone [1863/1875], trans. Alexander J. Ellis
(Cambridge: Cambridge University Press, 2011), 142. By positing an automatic mech-
anism that could not be ignored—we lack “ear lids”—Helmholtz required a discrete
role for auditory perception, beyond the causal mechanism of stimulus and specific
sensation identified by Johannes Mu¨ller in 1835.
9. Brian Massumi, Foreword to Gilles Deleuze and Fe´lix Guattari, A Thousand
Plateaus, trans. Massumi (1980; Minneapolis: University of Mineapolis Press, 1987),
xvi.
10. On this point, see particularly Karol Berger, “Musicology According to Don
Giovanni, or: Should We Get Drastic?,” Journal of Musicology 22 (2005): 490–501, at 497.
11. Such an argument stretches back at least to David Hume’s empiricism and the
theory of primary and secondary sense qualities.
12. Merleau-Ponty stands in a long line of theorists aligning the identity of art with
its physically embodied existence. “The meaning of a work of art or of a theory is as
inseparable from its embodiment as the meaning of a tangible thing—which is why
the meaning can never be fully expressed.” Merleau-Ponty, Sense and Non-Sense,4.
13. Mangeot seeks to verify the inaudibility of the super B by arguing that “this can
be proved by striking a major seventh with the top C of a piano that has the two extra
notes; it will sound exactly like an octave.” If this verdict is debatable for a pitch still
within the 88-key span of the piano, it is worth recalling that the overtones of any
acoustic instrument continue beyond our auditory threshold. See Andre´ Mangeot,
“Arnold Schoenberg’s Concerto for Violin and Orchestra, Op. 36,” The Strad 50, no.
599 (March 1940): 420–24, and 50, no. 600 (April 1940): 450–56, at 450. Emphasis
added.
14. Alexander Rehding, “The Discovery of Slowness in Music,” in Thresholds of
Listening, ed. Sander van Maas (New York: Fordham University Press, 2015), 211–12.
15. In many cases, such effects may simply be the unintended consequences of nota-
tional decisions that need not be taken too seriously. After all, such moments are
anomalous in Western art music. Yet anomalies clarify what is consistent in non-
anomalous phenomena, presenting the possibility of difference, and of other
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categories. Thomas Kuhn famously argued that it was anomalies—becoming the insis-
tent focus of practitioners—that lead to paradigm changes. Kuhn, The Structure of
Scientific Revolutions (Chicago: University of Chicago Press, 1970).
16. George Berkeley, A Treatise Concerning the Principles of Human Knowledge, rpt
ed. Jonathan Dancy (Oxford: Oxford University Press, 1998), §45.
17. Charles S. Peirce to Lady Welby, 14 March 1909, in Semiotics and Significs: The
Correspondence between Charles S. Peirce and Victoria Lady Welby (Bloomington:
Indiana University Press, 1977), 110. Emphasis added.
18. Brian Massumi, Parables for the Virtual:Movement, Affect, Sensation (Durham,
NC: Duke University Press, 2002) 92.
19. Wolfgang Ernst, Sonic Time Machine (Amsterdam: Amsterdam University Press,
2016), 21.
20. This precedes even the basic assumption from structural linguists that all com-
munication rests on a principle of common coding. See Roman Jakobson, Language in
Literature, ed. Krystyna Pomorska and Stephen Rudy (Cambridge, MA: Harvard
University Press, 1987), 451ff.
21. “Sodann werden die allzuoft wiederholten Zweifel beseitigt, ob es mo¨glich sei,
24000 bis gegen 40000 Doppelschwingungen in der Secunde zu ho¨ren. Es ergab sich,
dass man noch To¨ne der achtgestrichenen Octave nicht allein wahrnehmen, sondern
auch von einander unterscheiden kann.” Wilhelm Preyer,
Uber die Grenzen der
Tonwahrnehmung (Jena: Hermann Dufft, 1876), iii.
22. Ibid., 19.
23. “Ich und mehrere Andere haben alle 31 To¨ne oft geho¨rt, und, wenn sie von c
6
an der Reihe nach erklingen, vollkommen deutlich erkannt, dass sie bis zum e
8
immer
ho¨her werden. Bis zum c
7
ho¨rt man auch ohne Schwierigkeit die Tonleiter. Die 7 und
8-gestrichenen To¨ne sind zwar in der Nahe sehr schmerzhaft; man erkennt jedoch,
dass sie immer ho¨her werden und ho¨rt auch sehr gut bis e
8
die Octaven.... Man
kann jedoch nicht behaupten, es sei unmo¨glich, noch ho¨here To¨ne hervorzurufen,
weil die e
8
-Gabel bei weiterer Verku¨rzung tonlos wird. Denn ob sie nach der
Verku¨rzung u¨berhaupt noch in Schwingungen, und zwar genu¨gend starke
Schwingungen gerath, muss nachgewiesen werden, bevor man den Schluss zieht, dass
das Ohr versagt.” Ibid., 21, 23.
24. See John Zahm, Sound and Music (Chicago, IL: A. C. McClurg and Co., 1892),
83; and Carl Stumpf, “Ueber die Bestimmung hoher Schwingungszahlen durch
Differenzto¨ne,” Annalen der Physik und Chemie: Neue Folge 68 (1899): 105–16, at 105.
25. Hermann von Helmholtz, Die Lehre von den Tonempfindungen als Physiologische
Grundlage fu¨r die Theorie der Musik, 4th ed. (Brunswick: Friedrich Vieweg and Son,
1877), 30.
26. Helmholtz, Sensations of Tone, 18, 151.
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27. “eine wahre positive Empfindung und ebenso verschieden ist von dem
Nichtho¨ren.” Preyer, Ueber die Grenzen, iv.
28. Georg Appunn, Ueber die Helmholtz’sche Lehre von den Tonempfindungen als
Grundlage fu¨r die Theorie der Musik, nebst Beschreibung einiger, zum Theil ganz neuer
Apparate welche zur Erl
auterung und zum Beweis dieser Theorie geeignet sind (Hanau,
1867). See also Benjamin Steege, Helmholtz and the Modern Listener (Cambridge:
Cambridge University Press, 2012),37–39.
29. John Augustine Zahm writes that “no one can doubt the skill of Herr Appunn
as a mechanician.... We are consequently, by the very necessities of the case, com-
pelled to accept Herr Appunn’s estimate as that of an expert and that he is an expert
in his speciality no one can gainsay.” Zahm, Sound and Music, 83–84. As late as 1925,
Alexander Wood copied Helmholtz in citing Preyer’s work before proclaiming, “It
may be safely asserted that our ears are sensitive to sounds having frequencies lying
between about 30 vibrations per second and 40,000 vibrations per second.” See
Alexander Wood, The Physical Basis of Music (Cambridge: Cambridge University
Press, 1922), 22.
30. See James Loudon, “A Century of Progress in Acoustics,” Science, New Series 14
(1901): 987–95, at 994.
31. For an account, see David Pantalony, Altered Sensations:Rudolph Koenig’s
Acoustical Workshop in Nineteenth-Century Paris (Dordrecht: Springer, 2009), 158–59.
32. “Die ho¨chste Pfeife hat nur ca. 11,000 statt ca. 50,000 Schwingungen.... Auch
diese Gabeln zeigten Fehler bis zu ca. 36,000 Schwingungen.” In M. Schaefer,
“Literaturbericht,” Zeitschrift fu¨r Psychologie und Physiologie der Sinnesorgane 21 (1899):
141–43, at 142.
33. In chronological order, the principal texts referring to Preyer’s claims are Franz
Melde, Akustik: Fundamentalerscheinungen und Gesetze einfach to¨nender Ko¨rper (Leipzig:
Brockhaus, 1883); Carl Stumpf and Max Meyer, “Schwingungszahlbestimmungen bei
sehr hohen To¨nen,” Annalen der Physik und Chemie, Neue Folge 61 (1897): 760–79;
and Stumpf, “
Uber die Bestimmung hoher Schwingungszahlen durch Differenzto¨ne,”
Annalen der Physik und Chemie, Neue Folge 68 (1899): 105–16.
34. “Wie man sieht, sind durch seine [Friedrich Schulzes] Versuche unsere
Ergebnisse bestatigt worden.” Stumpf, “Ueber die Bestimmung,” 105, 115.
35. Rudolph Ko¨nig, “Ueber die ho¨chsten ho¨rbaren und unho¨rbaren To¨ne,” Annalen
der Physik 69 (1899): 626–60, 721–38.
36. The first translation of the term, by Alexander Tille in 1896, was “beyond-
man,” whereas Nietzsche’s preeminent twentieth-century English translator Walter
Kaufmann opted for “overman,” both of which could be harnessed to the present dis-
cussion of what exceeds human capacity. See Thus Spake Zarathustra, trans.
Alexander Tille (London: Macmillan, 1896); and Thus Spoke Zarathustra, trans.
Walter Kaufmann (New York: Penguin, 1978).
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37. “Alle To¨ne, welche wir ho¨ren, wu¨rden freilich fu¨r solche Menschen unho¨rbar
sein, wenn ihr Ohr ahnlich organisirt bleibe wie das unrrige, dagegen wu¨rden sie viel-
leicht To¨ne vernehmen, die wir nicht ho¨ren, ja vielleicht wu¨rden sie sogar Licht,
welches wir sehen, nur ho¨ren.” Karl Ernst de Baer, Welche Auffassung der lebenden
Natur ist die richtige? (Berlin: August Hirschwald, 1862), 30.
38. “Ein Ton, der fu¨r uns zwischen 2 Pulsschlagen 48,000 Schwingungen macht
und der ho¨chste ist, den wir vernehmen ko¨nnen, wu¨rde fu¨r diese verku¨rzt lebenden
Menschen nur 48 mal zwischen 2 Pulsschlagen schwingen und zu den sehr tiefen
geho¨ren.” Ibid., 30–31.
39. “Aber wir ko¨nnten die Zeitverku¨rzung des eigenen Lebens in Gedanken noch
weiter treiben, bis diese Aether-Schwingungen, die wir jetzt als Licht und Farben
empfinden, wirklich ho¨rbar wu¨rden. Und ko¨nnte es in der Natur nicht noch ganz
andere Schwingungen geben, die zu schnell sind, um von uns als Schall empfunden zu
werden, und zu langsam, um uns als Licht zu erscheinen? ... Es ist keinesweges wider-
sinning, so etwas zu glauben.... Giebt das nicht vielleicht ein To¨nnen des
Weltraumes ...ho¨rbar fu¨r ganz andere Ohren als die unsrige?” Ibid., 31–32.
40. Ezra Pound, “Postscript” to Remy de Gourmont, The Natural Philosophy of Love
(New York: Boni and Liveright, 1922), 206, 212.
41. Ibid., 214.
42. Ibid., 215.
43. Ibid., 213–14.
44. Ibid., 207.
45. By this I mean artworks as immanent objects that subsist as part of the universe,
which are enfranchised by the work concept. Philosopher C. E. M. Joad, for one, pos-
ited Shakespeare’s Hamlet as a “subsistence object”—an entity, neither material nor
mental, that cannot be identified with its script or any individual production, and that
constitutes part of the universe, and possess a special quality of being in its own right.
Joad, Guide to Philosophy (1936; New York: Dover, 1957), 266–70.
46. Mark Reybrouck, “Musical Sense-Making and the Concept of Affordance,”
Biosemiotics 5 (2012): 391–409, at 392.
47. Gary Tomlinson, “Parahuman Wagnerism,” Opera Quarterly 29, nos. 3–4
(2013): 186–202, at 192–93.
48. Most prominently, Eric Clarke describes the experience of musical meaning as
“fundamentally—though not exclusively—a perceptual experience ... [within] a
highly structured environmentsubject to both the forces of nature ...and the pro-
found impact of human beings and their cultures.” Clarke, Ways of Listening (New
York: Oxford University Press, 2005), 8, 17.
49. Milton Babbitt, “Who Cares If you Listen?” High Fidelity 8 (February 1958): 38–
40, 126–27; reprinted as “The Composer as Specialist,” The Collected Essays of Milton
Babbitt, ed. Stephen Peles (Princeton: Princeton University Press, 2003), 50. This
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attitude has perhaps been most extensively delineated in the context of analytical
training from the theorists historically linked to notions of “structural hearing” (in
which an understanding of prolongation and fundamental laws helps the ears form
mental models of sonic relationships, leading—for Carl Schachter—to “hearing that
is incomparably clearer and more comprehensive that it had been before”) to dis-
courses of the “ideal” listener modeled in different contexts, from Carl Dahlhaus’s
“ideal” listener as the assumed perception of a composer’s intentions, and Nicholas
Cook’s “ordinary listener,” as one who hears without the apparatus of music-
theoretical knowledge, to composer Frank Cox’s “ideal perception,” which measures
the information a listener grasps aurally in performance compared to its complex no-
tation. In all cases the perceptual acts a listener accomplishes are determined by their
learning experience and cultural situatedness. See Felix Salzer, Structural Hearing
(New York: C. Boni, 1952), viii; Carl Schachter, Unfoldings, ed. Joseph Straus (New
York: Oxford University Press, 1999), 35; Nicholas Cook, Music, Imagination, and
Culture (Oxford: Oxford University Press, 1990), 158; and Frank Cox, “Notes
Toward a Performance Practice for Complex Music,” in Polyphony & Complexity, ed.
Claus-Steffen Mahnkopf, Frank Cox, and Wolfram Schurig (Hofheim: Wolke, 2002),
70–132, at 72.
50. If you believe that language can contain and circumscribe reality, it follows that
what cannot be said—or in our case, heard—does not exist. The point is linked prima
facie to Herder’s critique of language in which thought is bounded in scope by lan-
guage, and meaning becomes concerned with identifying the usage of words. See par-
ticularly “Fragments on Recent German Literature” (1767–68), in Herder:
Philosophical Writings, ed. and trans. Michael N. Forster (Cambridge: Cambridge
University Press, 2012), 33–65. The broader debate between language that
“expresses” and that which “regulates” the world in the late eighteenth century has
been summarized by Charles Taylor, in “Language and Human Nature,” Philosophical
Papers, 2 vols. (Cambridge: Cambridge University Press, 1985), 1:215–47, esp. 228.
51. Diana Coole and Samantha Frost, “Introducing the New Materialisms,” in New
Materialisms, ed. Diana Coole and Samantha Frost (Durham, NC: Duke University
Press, 2010), 4.
52. James Jerome Gibson, The Senses Considered as Perceptual Systems (Boston:
Houghton Mifflin, 1966), 29.
53. In this context the First World War has been read by Peter Sloterdijk, among
others, as a cultural event predisposed toward annihilation of the liberal subject, after
which the concept of ego rings hollow even before it was named, as “an inheritance
without testament.” Sloterdijk, Critique of Cynical Reason, trans. Michael Eldred
(London: Verso, 1987), 386.
54. Sigmund Freud, “The Ego and the Id” (1923), in The Standard Edition, ed. J.
Strachey et al., trans. J. Rivie`re, 24 vols. (London: Hogarth Press, 1953–74), 19:26.
55. Ibid. This footnote is appended to Freud’s line: “Das Ich ist vor allem ein ko¨r-
perliches, es ist nicht nur ein Oberflachenwesen, sondern selbst die Projektion einer
Oberflache.” (The ego is first and foremost a bodily ego; it is not merely a surface
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entity, but is itself the project of a surface).The Standard Edition explains that it first
appeared in the 1927 English translation where it is described as “having been autho-
rized by Freud.” It does not appear in the German edition.
56. In its narrowest meaning, Helmholtz’s concept of a “mental ear” (geistige Ohr)
connotes how directed attention alters the perception of what is empirically given via
the senses. Benjamin Steege contextualizes Helmholtz’s terms in Helmholtz and the
Modern Listener, 73–79; and Veit Erlmann offers a nuanced account of how he came
to terms with “the growing sense of distance between interior and exterior” where an-
atomical science is “blind” without “some sort of philosophical guidance” in Reason
and Resonance (New York: Zone, 2010), 217–70, at 220.
57. Jonathan Sterne, The Audible Past (Durham: Duke University Press, 2003), 94.
58. “The task of biology consists in expanding in two directions the results of Kant’s
investigations: (1) by considering the part played by our body, and especially by our
sense-organ and central nervous system, and (2) by studying the relations of other
subjects (animals) to objects.” See Uexku¨ll, Theoretical Biology [1920] (New York:
Harcourt, Brace & Company, 1926), xv.
59. “Immer ist der Raum, der uns umgibt, begrenzt. Einen unbegrenzten Raum
kann man sich vielleicht in Gedanken vorstellen, unsere Sinneswerkzeuge kennen
ihn nicht. Sie lehren uns, dass wir stets umgeben bleiben von einer vielleicht
zerbrechlichen, aber fuer uns gleich unerreichbaren wie undurchdringlichen
Seifenblase.” Uexku¨ll, “Wie sehen wir die Natur und wie sieht sie sich selber?,” Die
Naturwissenschaften 12–14 (1922): 265–71, 296–301, 316–22, at 265. On the relation
to Kant’s argument about how we perceive the world, see Ernst von Glasersfeld,
Radical Constructivism (London: Falmer, 1995), 55; and John Deely, “Semiotics and
Jakob on Uexkull’s concept of Umwelt,” Sign Systems Studies 32 (2004): 11–34.
60. Uexku¨ll, Umwelt und Innenwelt der Tiere (Berlin: Springer, 1909).
61. Jakob von Uexku¨ll, A Foray into the Worlds of Animals and Humans, trans.
Joseph O’Neil (Minneapolis: University of Minnesota Press, 2010), 50.
62. Ibid., 135. This was not in fact a new observation; Uexku¨ll merely inserted it
into an argument about biological determinism. Back in 1852, the writer and
Wagner-advocate Richard Pohl made much the same point when questioning utopian
claims for an equal artistic-scientific culture: “the physicist concerned with sensory
impression fails to ask where he is going ... the composer with facts of harmony fails
to ask where he is coming from.” Pohl, “Akustische Briefe: Erster Brief,” Neue
Zeitschrift fu¨r Musik 2 (1852): 13. The history of species-specific perception was itself
anticipated in early nineteenth-century phrenology. Johann Spurzheim declared that
“the world is different to every species of animal, and even to every individual of the
same species.... It is evident that every sentient being perceives impressions in pro-
portion to the number and energy of its sentient faculties.” See Spurzheim, The
Physiognomical System (London: Baldwin, Cradock & Joy, 1815), 528–29.
63. Roger Scruton, The Soul of the World (Princeton: Princeton University Press,
2014), 38–39.
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64. Two examples concern differing degrees of myopia among people, and different
common environments: “The stars are still more different [than the sun, for different
viewers]. A person with medically flawless eyesight looking at the night sky sees small,
shiny discs while another sees themselves illuminated by small bright lamps sur-
rounded by a corona.... All those who spend long periods of time in the countryside
discern many more things [among nature] than city dwellers.” Uexku¨ll, “Wie sehen
wir die Natur und wie sieht sie sich selber?,” 265–66.
65. “Da die Merkfahigkeit der Menschen ausserordentlich wechselt, mu¨ssen auch
ihre Merkwelten voneinander abweichen. Mit seiner Umwelt steht der einzelne
Mensch nicht nur mittels seiner Sinneswerkzeuge, die eben das Merken ermo¨glichen,
in Verbindung, sondern auch dank seiner Handlungswerkzeuge, die ihn mit seiner
Wirkungswelt verbinden. Merkwelt und Wirkungswelt bilden gemeinsam die
Umwelt.... Dadurch warden die Umwelten so entscheidend umgestaltet, daß man
von Berufswelten reden kann.” Ibid., 266.
66. For Uexku¨ll the critical difference to Helmholtz’s sensory qualities—“signs of an
external phenomenon ... [which] remains forever unknown to us”—was that of ma-
terialism to transcendentalism: received sensation for him constitutes itself the real of
an external object rather than its sign: “Helmholtz indeed acknowledged that all
objects must appear different to each subject,” he qualifies, “but he was seeking the re-
ality behind appearances.” By analogy, Helmholtz’s position would imply the work
concept as the neo-Platonic “reality behind [the] appearance” of performance. See
Uexku¨ll, Theoretical Biology, xiv, xv; and Stefan Helmreich “Remixing the Voyager
Interstellar Record: Or, As Extraterrestrials Might Listen,” Journal of Sonic Studies
8 (2014).
67. Although for Uexku¨ll the cinematograph offers proof that the smallest concep-
tual moment of human perception lasts an eighteenth of a second, a tick is capable of
waiting eighteen years without eating before the signal of butyric acid from a passing
mammal stimulates it to activity. “Time stands still in the tick’s waiting period,” con-
cludes Uexku¨ll, who assumes an unchanging environment could only be endured by
perceptual hibernation, “not just for hours but for years.” Uexku¨ll, A Foray into the
Worlds of Animals and Humans, 52.
68. Timo Maran, Dario Martinelli, and Aleksei Turovski, eds., Readings in
Zoosemiotics (Berlin: De Gruyter Mouton, 2011), 62. Translation adapted.
69. That is, perceiving the world of a bee or a bat, for instance, by seeing the polari-
zation of light or by seeing into the ultraviolet range of the spectrum. Though he clari-
fies that “the observer can advance in no way other than on the basis of the picture
offered to him on the inside of his own bubble.” (Der Beobachter kann gar nicht an-
ders vorgehen, als durch Zugrundelegung des Bildes, das sich ihm auf der Innenseite
seiner eigenen Seifenblase bietet.) Uexku¨ll, “Wie sehen wir die Natur und wie sieht
sie sich selber?,” 266.
70. Bruno Nettl, “Mozart and the Ethnomusicological Study of Western Culture,”
in Disciplining Music, ed. Katherine Bergeron and Philip V. Bohlman (Chicago:
University of Chicago Press, 1992), 137–55, at 138. And Nicholas Cook, “Western
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Music as World Music,” in The Cambridge History of World Music, ed. Phillip V.
Bohlman (Cambridge: Cambridge University Press, 2013), 75–100.
71. Thomas Nagel, “What Is It Like to Be a Bat?,” in his Mortal Questions (New
York: Cambridge University Press, 1979/2012), 165ff. See also Ian Bogost, Alien
Phenomenology (Minneapolis: University of Minnesota Press, 2012).
72. Uexku¨ll, Theoretical Biology, 76.
73. Friedrich Nietzsche, “On Truth and Lie in an Extra-Moral Sense,” in The
Portable Nietzsche, ed. and trans. Walter Kaufmann (1873; London: Viking Penguin,
1982), 42.
74. Marshall McLuhan, Understanding Media (Cambridge, MA: MIT Press, 1994),
314.
75. Joseph Straus, “Normalizing the Abnormal,” JAMS 59 (2006): 113–84. Straus,
in his pioneering work of disability studies and music, emphasizes the historicity of the
concept of physical normality, and its emergence in the early nineteenth century from
which disability became understood as a deviation: “neither natural nor permanent,
and thus subject to possible remediation” (114). This is set against the broader view
within disability studies that any concept of normal is relative to a given culture,
within which it represents a statistically predominant physical condition. Impairment,
by contrast, represents an empirical deviation therefrom. The most cogent historical
account to date is Michel Foucault, Abnormal (Picador, 2007), 26ff. For a comprehen-
sive overview of this burgeoning field, see The Oxford Handbook of Music and Disability
Studies, ed. Blake Howe, Stephanie Jensen-Moulton, Neil Lerner, and Joseph Straus
(New York: Oxford University Press, 2015).
76. For an overview, see R. Pfeifer and J. Bongard, How the Body Shapes the Way We
Think (Cambridge, MA: MIT Press, 2006); and Francisco Varela, Evan Thompson,
and Eleanor Rosch, The Embodied Mind (Cambridge MA: MIT Press, 1991).
77. Carl Stumpf, Tonpsychologie (Leipzig: Hirtel, 1883), 1:vi.
78. See for instance Uexku¨ll’s comparison of two-part counterpoint and “factors [in
Nature] that together form a unit,” in A Foray into the Worlds of Animals and Humans,
172,
79. “Unsere ganze Ko¨rperorganisation ist nach dem Prinzip ho¨render und to¨nender
Orgelpfeifen aufgebaut. Das will besagen, dabwir aus lauter individuellen Ganzheiten
bestehen, von denen jede ihr eigenes Gesetz besitzt.” Uexku¨ll, Die Lebenslehre
(Potsdam and Zurich: Mu¨ller, Kiepenheuer and Fu¨ssli, 1930), 71.
80. Uexku¨ll, Theoretical Biology, 205.
81. Uexku¨ll, A Foray into the Worlds of Animals and Humans, 48, 171, 202–3.
82. Jacques Derrida, Writing and Difference (1967; Abingdon: Routledge, 2001), 19.
83. This principle of experimental psychology—when people “consider a particular
value for an unknown quantity before estimating that quantity”—applies typically to
numerical values in experiments, but there is no reason to restrict the principle it
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espouses to numbers. See Daniel Kahneman, Thinking Fast and Slow (London:
Penguin, 2011), 119–28.
84. “Wir Extropianer wollen nicht normal sein, wir wollen supernormal sein, super-
gesund, superstark, superintelligent.” From Max More’s interview with Gundolf
Freyermuth, in Cyberland: Eine Fu¨hrung durch den High-Tech-Underground (Reinbek:
Rowohlt, 1998), 201.
85. Stumpf, Tonpsychologie, 1:viii. See also Don Ihde’s argument for a philosophy of
listening as the “hope to find material for a recovery of the richness of primary experi-
ence,” in Listening and Voice: Phenomenologies of Sound, 2nd ed. (Albany: State
University of New York, 2007), 13.
86. Robert Ranisch and Stefan Sorgner, eds., Post- and Transhumanism: An
Introduction (Frankfurt: Peter Lang, 2014), 7.
87. Donna Haraway, “A Cyborg Manifesto” (1983), in Posthumanism, ed. Neil
Badmington (1987; Hampshire: Palgrave, 2000), 73.
88. He defined transhumanism as “philosophies of life ... that seek the continua-
tion and acceleration of the evolution of intelligent life beyond its currently human
form and human limitations by means of science and technology, guided by life-
promoting principles and values.” Max More, “The Philosophy of Transhumanism,”
in The Transhumanist Reader,3.
89. “Transhumanist Declaration,” The Transhumanist Reader, 54–55.
90. See Sean Cubitt, “The Sound of Sunlight,” Screen 51, no. 2 (2010): 118–28;
and John M. Picker, “The Tramp of a Fly’s Footsteps,” American Scholar 71, no. 2
(Spring 2002): 85–94. I am grateful to Carolyn Abbate for drawing these articles to
my attention.
91. Carolyn Abbate, “Sound Object Lessons,” talk given at the 4th Music and
Philosophy Conference, 2014, Kings College, London, revised for JAMS 69 (2016):
793–829.
92. Nick Bostrum, “The Tranhumanist FAQ,” Readings in the Philosophy of
Technology, ed. David Kaplan, 2nd ed. (Plymouth, UK: Rowman & Littlefield, 2009),
346.
93. Bostrum, “Why I Want to Be Posthuman When I Grow Up,” in The
Transhumanist Reader, 28.
94. Bostrum, “The Transhumanist FAQ,” 347.
95. The eight characters have absurdly humanistic names: text, pretext, context,
heterotext, mythotext, paratext, metatext, and postext. Ihab Hassan, “Prometheus as
Performer,Georgia Review 21 (1977): 830–50, at 843. Hassan acknowledged the term
posthumanism as a “dubious neologism,” but anticipated the transhumanizing process
not as a sudden change but as a natural part of being human, a condition that combines
“Imagination and Science, Myth and Technology.” It began with the discovery of fire
by prehistoric “man,” he asserts; that is, with the mind of Prometheus (835).
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96. Among the scholarly literature, two representative contributions would be
Donna Haraway’s seminal essay “A Cyborg Manifesto” (1983); and Jane Bennett,
Vibrant Matter (Durham, NC: Duke University Press, 2010).
97. Coole and Frost, “Introducing the New Materialisms,” 10.
98. N. Katherine Hayles, How We Became Posthuman (Chicago: University of
Chicago Press, 1999), 286.
99. Translation adapted from Foucault, The Order of Things, 387.
100. Alexander G. Weheliye, “‘Feenin’: Posthuman Voices in Contemporary Black
Popular Music,” Social Text 20, no. 2 (2002): 21–47, at 21. My thanks to Griff
Rollefson for bringing this to my attention.
101. Herbrechter, Posthumanism: A Critical Analysis (London: Bloomsbury, 2013),
76.
102. Braidotti optimistically anticipates a “technologically mediated post-
anthropocentrism [that] can enlist the resources of bio-genetic codes, as well as tele-
communication, new media and information technologies, to the task of renewing the
Humanities.” Rosi Braidotti, The Posthuman (Cambridge: Polity, 2013), 145.
103. Norbert Wiener, Cybernetics (Cambridge, MA: MIT Press, 1948).
104. Ernst Kapp, Grundlinien einer Philosophie der Technik (Brunswick: Westermann,
1877).
105. Accounts that cite Kapp as the originator of the field of Philosophy of
Technology include Friedrich Rapp, Analytical Philosophy of Technology, trans. Stanley
Carpenter and Theodor Langenbruch (Doderecht and Boston: D. Reidel, 1981), 4;
Frederick Ferre´, Philosophy of Technology (Athens: University of Georgia Press, 1995),
10; Peter Fischer, “Zur Genealogie der Technikphilosophie,” in Fischer, ed.,
Technikphilosophie (Leipzig: Reclam, 1996), 309; Thomas Zoglauer, “Einleitung,” in
Zoglauer, ed, Technikphilosophie: Texte (Freiburg: Karl Alber, 2002), 9; Marc J. de
Vries, Teaching About Technology (Doderecht, Berlin, and Heidelberg: Springer,
2005), 68; Gu¨nter Ropohl, Allgemeine Technologie (Karlsruhe: University of Karlsruhe
Press, 2009), 13.
106. “eine Organprojektion oder die mechanische Nachformung einer organischen
Form.” Kapp, Grundlinien, 71. The book drew broadly on an Aristotelian techne—the
ability to make (something) that depends on correct awareness of, or reasoning about,
the thing to be made—and more specifically on Democritus’s view of technology as
the imitation of nature, in which human house-building and the craft of weaving were
first invented by imitating swallows building their nests, and spiders weaving their
webs, respectively.
107. Kapp, Grundlinien, 93. The most widely accepted instance of organ projection,
one that Kapp cites simply as “obvious,” is that between the nervous system and net-
works of telegraphic communication that were established throughout Europe and
North American during the middle decades of the nineteenth century. This
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parallel—asserted by such respected academic physiologists as Du Bois Reymond,
Helmholtz, and Werner Siemens—serves to authenticate Kapp’s substantialist con-
ception of organ projection: “Nerves are cable installations of the animal body, tele-
graph cables are human nerves. And, we might add, so must they be, for the
characteristic feature of organ projection is the unconscious occurrence.” (Die
Nerven sind Kabeleinrichtungen des tierischen Ko¨rpers, die Telegraphkabel sind
Nerven der Menschheit! Und fu¨gen wir hinzu, sie mu¨ssen es sein, weil das charakter-
istische Merkmal der Organ projection das unbewußte Vorsichgehen ist) (141). For a
detailed discursive study of the parallelism between nerves and networked telegraphic
cables in nineteenth-century Germany, see Laura Otis, Networking (Ann Arbor:
University of Michigan Press, 2001).
108. Friedrich Kittler, Gramophone, Film, Typewriter, trans. Geoffrey Winthrop-
Young and Michael Wutz (1986; Stanford, CA: Stanford University Press, 1999).
109. The classic text is McLuhan, Understanding Media: The Extensions of Man
(1964), where he argues that with electronic communication technology “we are
extending our central nervous system itself in a global embrace.” Media, he continues,
are effectively metaphors that “translate experience into new forms” and he prophe-
sies a dominant culture of electronic data transfer accordingly: “By putting our physi-
cal bodies inside our extended nervous systems, by means of electric media, we set up
a dynamic by which all previous technologies that are mere extensions of hands and
feet and teeth and bodily heat-controls ... will be translated into information systems”
(3 and 57).
110. Kittler, Gramophone, Film, Typewriter, 189.
111. Ibid., 16. Emphasis added
112. Brian Massumi, for one, proposes that “things and objects are literally, materi-
ally prosthetic organs of the body” in Parables for the Virtual, 96.
113. Hayles, How We Became Posthuman, 283.
114. Six years before Claude Palisca published his famously positivistic definition of
“American Scholarship in Western Music” (1963), the American intellectual Dwight
Macdonald launched a related critique: “We want to know how, what, who, when,
where, everything but why.” Rolling his eyes at the practice of weighing criminals be-
fore and after execution, he saw in its quest for different weights an emphasis on data
and a lack of theory: “We are obsessed with technique, hagridden by Facts, in love
with information ... our scholars—or more accurately, our research administrators—
erect pyramids of data to cover the corpse of a stillborn idea.” See Macdonald,
Masscult and Midcult (New York: New York Review of Books, 2011), 208, 203. More
recent resistance to a posthuman philosophy include complaints from computer scien-
tist David Gelernter, for whom a “roboticist” worldview has well-nigh become “a so-
cial disease” that adheres to a “fatally flawed” analogy between mind and software.
See Gelernter, “The Closing of the Scientific Mind,” Commentary Magazine, 1 January
2014, https://www.commentarymagazine.com/article/the-closing-of-the-scientific-
mind/.
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115. Nick Bostrum locates its origin in the Sumerian Epic of Gilgamesh, ca. 1800
BCE, in which King Gilgamesh learns of, and seeks, a natural means for attaining
immortality—via a seabed dwelling herb—but is thwarted by a snake. It is thereafter
traceable across a densely spun web of historical documents, from Giovanni Pico della
Mirandola and Frances Bacon to Nietzsche and Aldous Huxley. See Bostrum, “A
History of Transhumanist Thought,” see http://www.jetpress.org/volume14/bostrom.
pdf. Tendencies toward genealogy are ever present, and though Bostrum avoids
asserting specific links between Nietzsche’s
Ubermensch and transhumanism, others
have affirmed continuities. See, most prominently, Stefan Sorgner, “Nietzsche, the
Overhuman, and Transhumanism,” Journal of Evolution & Technology 20 (2009):
29–42.
116. Hayles, How We Became Posthuman, 3.
117. Ibid., 284. Emphasis added.
118. In 2003, Joseph Auner diagnosed how vocoder and computer simulations of
voices play on the associations of mechanical and organic sounds in songs by
Radiohead and Moby. Far from deconstructing the human, these present songs as “a
sort of cyborg system that attempts to splice the human and technological thus ...
illuminat[ing] its peculiar expressive character.” The ensuing anxiety of identity is
embedded in the manipulation of vocal signifiers within a continuum of human and
synthetic computer sounds. For Auner, the resulting cyborg persona “becomes a way
of reconstructing expression,” which is to say, both a topos of pop culture and a refer-
ential language. Joseph Auner, “‘Sing It for Me”: Posthuman Ventriloquism in Recent
Popular Music,” Journal of the Royal Music Association 128, no. 1 (2003): 98–122, at
110–11. See also Frances Dyson, The Tone of Our Times (Cambridge MA: MIT Press,
2014), 70ff; and Stefan Sorgner’s loose composition-based speculations, “Music” in
Ranisch and Sorgner, Post- and Transhumanism, 299–314; and Sorgner, “Music,
Posthumanism and Nietzsche,” The Agonist 5 (2012): 1–26.
119. This extends from Alvin Lucier’s Music for Solo Performer (1965) and
Raymond Kurzweil’s Brain-Generated Music to the Brain-Computer Music Interface
developed at Plymouth University, UK. Whereas Lucier’s approach was to amplify al-
pha waves, creating a signal to excite loudspeakers attached to percussion instru-
ments, Brain Generated Music Interface analyses the electrical activity in the Brain
(via electroencephalography) and converts the signal into music played on a MIDI
keyboard. An overview is given in Eduardo R. Miranda and J. Castet, Guide to Brain-
Computer Music Interfacing. Kurzweil describes BGM as a “brain-wave biofeedback sys-
tem” whose stated purpose is to encourage “the generation of alpha waves [associated
with meditative states] by producing pleasurable harmonic combinations upon detec-
tion of alpha waves, and less pleasant sounds and sound combinations when alpha de-
tection is low.” See his description in The Age of Spiritual Machines, 152. An analysis
of Lucier is given in Volker Straebel and Wilm Thoben, “Alvin Lucier’s Music for Solo
Performer,” Organised Sound 19 (2014): 17–29.
120. Salvatore Sciarrino, “Di una musica d’oggi,” Chigiano. Rassegna annual di studi
musicologici 33 (1979): 371–75, at 371.
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121. Sciarrino, notes from Hermes in L’Operer per Flauto (Milan: Ricordi, 1984), 7.
122. The literature on virtuosity has grown considerably over the last decade. On
the question of paradoxical identities, see particularly Susan Bernstein, Virtuosity of
the Nineteenth Century (Stanford: University of California Press, 1998); Dana Gooley,
The Virtuoso Liszt (Cambridge: Cambridge University Press, 2004); Richard Leppert,
“Cultural Contradiction, Idolatry, and the Piano Virtuoso,” in Three Hundred Years
of Life with Piano, ed. James Parakilas (New Haven: Yale University Press, 2000),
252–81.
123. Helmholtz, On the Sensations of Tone, 94.
124. “Gliss. senza stringere la posizione! Sino alla fine della corda!” Salvatore
Sciarrino, Sei capprici (Milan: Ricordi, 1976), 11.
125. Officially, thresholds of audibility are calculated in laboratory conditions as the
smallest level of sound pressure needed for an individual to perceive a certain fre-
quency. They are plotted as the thresholds in decibels (sound pressure level: SPL) ver-
sus frequency (Hz). Of course, the auditory system remains insensitive to some
frequencies no matter how intense the sound. Values are calculated through psycho-
metric testing where subjects are deemed to have heard a tone if they correctly detect
it 75 percent of the time. The American National Standards Institute (ANSI) pub-
lishes data for the audibility thresholds of “ontologically normal persons” 18–25 years
old. See document ISO 28961:2012 here https://webstore.ansi.org/RecordDetail.aspx?
sku¼ISOþ28961%3a2012 http://webstore.ansi.org/RecordDetail.aspx?
sku¼BSþISOþ28961%3A2012.
126. A crescendo leads to a peak dynamic ranging from PPP to FF, before a diminu-
endo. Typically for Sciarrino, the passage into silence is specified by a circle at the
head or tail of each pair of lines, as the preface explains: “Crescendo dal nulla / dimin-
uendo fino al nulla.” Sciarrino, Sei capprici,1.
127. Aristotle, de Anima, Book 2, 424a, ll. 28–32.
128. Braidotti, The Posthuman, 100.
129. Salome´ Voegelin, Sonic Possible Worlds (New York and London: Bloomsbury,
2014), 167.
130. Brenden P. McConville, “Reconnoitering the Sonic Spectrum of Salvatore
Sciarrino,” Tempo 65 (2011): 31–44, at 32. See also Gavin Thomas, “The Poetics of
Extremity,” The Musical Times 134 (1993): 193–96.
131. Sciarrino, “Entretien avec Salvatore Sciarrino,” Entretemps 9 (1990): 135–42,
at 139.
132. Per Nørga˚rd’s comment cited in Anders Beyer, “Om Nørga˚rd 5. Symfoni,”
Dansk Musik Tidsskrift 3 (1990–91): 75–81, at 81.
133. Voegelin, Sonic Possible Worlds, 170. Imagining inaudible sounds becomes a
metaphor in Voegelin’s reading for political open-mindedness. She moralizes that the
256 The Musical Quarterly
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possibility is always there, and that “we need ... the [idea of the] inaudible, to become
able to imagine the as yet unimaginable and let it infiltrate actuality.”
134. Ernst, Sonic Time Machine, 30.
135. The ultrasonic pitches, though calculable, are not determined as such.
Directions in the score explain: “2 ‘dog whistles,’ poss. high pitched (together produc-
ing deep difference tone by ff).” Nørga˚rd further requests that players take “great care
... to maximize the ‘overall production’ of difference-(beat)-tones” by adopting stable
tone quality, before the two whistles outlast the chord proper and a general pause on
the rest clears the altitudinous sound. The second and final appearance of the whistles
hears their difference tones emerge as the sole sound from within a sustained chord of
dissonant semitones, struck fff and slowly detuned via quarter tones in a descending
glissando. Nørga˚rd, Fifth Symphony (Copenhagen: Wilhelm Hansen, 1991), 53, 57.
136. Anders Sandberg, “Morphological Freedom: Why We Not Just Want It, But
Need It,” in The Transhumanist Reader, 56–64, at 56.
137. Enhancements already underway include an implantable compass that vibrates
when facing magnetic north; see http://www.cyborgnest.net and the auditory stream-
ing of digital sound to a Nucleus 7 cochlear implant; see http://www.hearyourway.
com/wps/wcm/connect/uk/n7/adults. Others include decreases in age-related muscular
decline, AIDS and cancer prevention, DNA repair, as well as “possible cognitive
enhancements.” See Sandberg, “Morphological Freedom,” 58. See also Gregory Stock
and John Campbell, eds., Engineering the Human Germline (New York and Oxford:
Oxford University Press, 2000); and in the field of biochemistry, Migliaccio, Giorgio,
Mele, Pelicci, Reboldi, Pandolfi, Lanfrancone, and Pelicci, “The p66shc Adaptor
Protein Controls Oxidative Stress Response and Life Span in Mammals,” Nature 402
(1999): 309–13; Tang, Shimizu, Dube, Rampon, Kerchner, Min Zhuo, and Tsein,
“Genetic Enhancement of Learning and Memory in Mice,” Nature 401 (1999): 63–
69.
138. Max More, “A Letter to Mother Nature” [1999], in The Transhumanist Reader,
449–50, at 450.
139. Mark Reybrouck, “Adaptive Behaviour and Epistemic Autonomy,Musical
Creativity: Multidisciplinary Research in Theory and Practice, ed. Ire`ne Delie`ge and
Geraint Wiggins (Hove, UK: Psychology Press, 2006), 44.
140. The distinction between medical treatment that enhances function rather
than ameliorates an illness, has been regarded as fuzzy by philosophers in this context.
Witness Carl Elliott, who argues that what seem to us like straightforward examples
of medical treatments “will look differently to people from other times and other pla-
ces, and ... the line we often draw between enhancements and treatments is not as
sharp as we would like to think.” Elliott, “What’s Wrong with Enhancement
Technology?,” in Readings in the Philosophy of Technology, ed. Kaplan (Plymouth, UK:
Routledge, 2009), 431–37, at 435.
Music and the Transhuman Ear 257
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141. Joe Myers, “5 Human Enhancements That Could Be Commonplace by 2020,”
https://www.weforum.org/agenda/2016/06/5-human-enhancements-that-could-be-
commonplace-by-2020/.
142. One example is the Interactive Music Awareness Programme (IMAP) based at
Southampton University, UK. See http://morefrommusic.org.
143. Douglas McCreery of Huntingdon Medical Research Institute has pioneered
this method for patients with type 2 Neurofibromatosis (NF2), where a tumour along
the auditory nerve leaves it without function after surgery to remove the tumour. See
McCreery, “Cochlear Nucleus Auditory Prosthesis,” Hearing Research 1 (2008):
64–73.
144. See Figure 1 in Barbara A. Goldstein, Abraham Schulman, and Martin L.
Lenhardt, “Ultra-High-Frequency Ultrasonic External Acoustic Stimulation for
Tinnitus Relief,” International Tinnitus Journal 11(2005): 112. See also K. Fujimoto, S.
Nakagawa, and M. Tonoike, “Nonlinear Explanation for Bone-Conduction
Ultrasonic Hearing,” 210–15; and T. Nishimura, S. Nakagawa, T. Sakaguchi, and
H. Hisoi, “Ultrasonic Masker Clarifies Ultrasonic Perception in Man,” Hearing
Research 175 (2003): 171–77.
145. By contrast, commercial headphone manufacturers have developed bone-
conduction technology for normative hearing ranges as a means of bypassing the ear-
drum, but this ceases to function beyond normative thresholds. One example is
AudioBone: http://www.audioboneheadphones.com.
146. See Mark A. Parker, “Biotechnology in the Treatment of Sensorineural
Hearing Loss: Foundations and Future of Hair Cell Regeneration,” Journal of Speech,
Language, and Hearing Research (2011): 1709–31.
147. For theorists of virtuality such as Massumi, the discovery of aesthetic stimuli in
newly accessible objects would not constitute an “authentic” reach into the world of
supersensible sounds. Adapting his critique of sensation, any technological extension
of the cochlea duct’s acuity points to the virtual: “Sensation and thought, at their re-
spective limits as well as in their feedback into each other, are in excess over experience:
over the actual. They extend into the nonactual [what cannot be perceived]. If the al-
ternative mode of abstraction into which perception extends is the possible, the in-
tense mode of abstraction into which sensation potentially infolds is, at the limit, the
virtual.” Massumi, Parables for the Virtual, 98.
148. Michael Chorost, Rebuilt: How Becoming Part Computer Made Me More Human
(London: Souvenir Press, 2005), 147.
149. Mills, “Do Signals Have Politics,” Oxford Handbook of Sound Studies, ed.
Trevor Pinch and Karin Bijsterveld (New York: Oxford University Press, 2011),
319–39, at 334.
150. Graeme Clark, “The Development of Speech Processing Strategies for the
University of Melbourne/Cochlear Multiple Channel Implantable Hearing
258 The Musical Quarterly
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Prosthesis,” Journal of Speech-Language Pathology and Audiology 16 (1992): 95–107, at
95. See Mills, “Do Signals have Politics,” 331–33.
151. Mills, “Do Signals Have Politics,” 323.
152. See Mills, “On Disability and Cybernetics,” Differences 22 (2011): 74–111; and
Neil Harbisson’s TED talk, “I listen to colour” https://www.ted.com/talks/neil_harbis-
son_i_listen_to_color/transcript?language¼en.
153. A concise summary of aesthetic and scientific approaches to “underwater
music” over the past half century is given in Stefan Helmreich, “Underwater Music:
Tuning Composition to the Sounds of Science.” See particularly Nina Eidsheim’s cri-
tique of underwater singing, “Sensing Voice: Materiality and the Lived Body in
Singing and Listening,” in Sensing Sound, 27–57; and Douglas Kahn’s intellectually
playful Noise—Water—Meat (Cambridge, MA: MIT Press, 2001), 242–89.
154. Hayles, How We Became Posthuman, 99.
155. Eisuke Yanagisawa’s album Ultrasonic Scapes (2011) sold out of its initial re-
lease of fifty copies, but is available as a digital download: http://www.gruenrekorder.
de/?page_id¼5260.
156. See Thomas Talavage, Martin Sereno, Jennifer Melcher, Patrick Ledden,
Bruce Rosen, and Anders Dale, “Tonotopic Organization in Human Auditory Cortex
Revealed by Progressions of Frequency Sensitivity,” Journal of Neurophysiology 91
(2004): 1282–96.
157. Chorost, Rebuilt, 174.
158. In 1999 Rainer Klinke et al. demonstrated a seven-fold increase in the brain
size of congenitally deaf cats whose auditory nerves received electrical stimuli (via
neural implants) from a microphone; the implant was connected to a microphone, ef-
fectively creating a prosthetic ear that allowed the hitherto deaf cats’ functioning au-
ditory nerve to “hear.” See R. Klinke, A. Kral, S. Heid, J. Tillein, and R. Hartmann,
“Recruitment of the Auditory Cortex in Congenitally Deaf Cats by Long-Term
Cochlear Electrostimulation,” Science 285 (1999): 1729–33.
159. Postulated military applications include “implanted computing and communi-
cation devices with new interfaces to weapons, information and communications”
while business applications would seek “expanded information transfer capacity.” See
G. Q. Maguire and Ellen M. McGee, “Implantable Brain Chips? Time for Debate,”
Hastings Report 29 (1999): 7–13, at 9.
160. Stockhausen’s comment is cited in Robin Maconie, Other Planets (Lanham,
MD: Scarecrow Press, 2005), 145; Carr was a graduate student in Physics at Cornell
at the time of the nanoguitar’s invention. See: http://www.news.cornell.edu/stories/
1997/07/worlds-smallest-silicon-mechanical-devices-are-made-cornell.
161. Isaiah Berlin, Four Essays on Liberty (1969; Oxford: Oxford University Press,
1979), xlv.
Music and the Transhuman Ear 259
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162. One example, developed at the Swiss Federal Institute for Technology, is the
“bionic hand” whose neurally embedded electrodes offer a vicarious sensation of touch.
Dennis Aabo Sørensen’s “hand” conducts electrical signals from his prosthetic fingers to
his brain, giving him a replacement sensation of touch in his amputated hand.
Electronic sensors detect tension in the artificial tendons that control his finger move-
ment; this information is converted into an electric current; a computer in the hand
sends an impulse to ultra-thin electrodes that have been surgically implanted into the
nerves in the upper arm, which then relay to signal the brain. See Stanisa Raspopovic
et al., “Restoring Natural Sensory Feedback in Real-Time Bidirectional Hand
Prosthesis,” 1–10, http://biofag.com/files/Sci_Transl_Med-2014-Raspopovic-222ra19.pdf.
163. Norbert Wiener, God and Golem (London: Chapman & Hall, 1964), 75–76.
164. The “Extra Ear” itself is part subcutaneous Medpor scaffold, part organic mat-
ter grown from stem cells and mature adipocytes; it was developed in consultation
with surgeons Malcomb A. Lesavoy, Sean Bidic, and J. William Futrell in Melbourne.
Stelarc had discussed the project with medical consultants as early as 1997, he
explains, and it went through a decade of frustrated attempts—including consider-
ation of various possible locations—before proceeding to a permanent modification of
his body architecture. See http://stelarc.org/?catID¼20242.
165. See Stelarc’s own account on his website, http://stelarc.org/?catID¼20242.
166. An introduction to Nucleus 7 is given here https://cochlearimplanthelp.com/
tag/nucleus-7/.
167. John Koetsier, Forbes, 26 July 2017, https://www.forbes.com/sites/johnkoetsier/
2017/07/26/icyborg-apple-just-announced-the-first-mass-market-cyborg-enhance-
ment/. I am grateful to Alexander Rehding for drawing my attention to this.
168. Stelarc’s own account of the “extra “ear” project is here http://stelarc.org/?
catID¼20242.
169. To an extent, ventriloquizing an illusory voice inside one’s head externalizes
the function of Theodor Reik’s figurative “third ear,” that of unconscious psychoana-
lytical intuition, in Listening with the Third Ear (New York: Farrar, 1948).
170. Comment taken from a private email received on 18 November 2017.
171. Stelarc, 1982 interview, in Obsolete Body, ed. James. D. Paffrath and Stelarc
(Davis CA: JP Publications, 1984), 17.
172. Stelarc, “From Psycho-Body to Cyber-Systems: Images as Post-Human
Entities,” The Cybercultures Reader, 457.
173. Jane Goodall, “The Will to Evolve,” in Stelarc: The Monograph (Cambridge
MA: MIT Press, 2005), 1–32; Andy Clark, Natural Born Cyborgs, 115–42.
174. Stelarc, “From Psycho-Body to Cyber-Systems,” 458.
175. Eduard Hanslick, On the Musically Beautiful, trans. Geoffrey Payzant
(Indianapolis: Hackett, 1986), 52.
260 The Musical Quarterly
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176. Roger Caillois, Man, Play and Games, trans. Meyer Barash (1958; London:
Thames & Hudson, 1962), 112ff.
177. Helmholtz, Sensations of Tone, 18, 151.
178. Rudolph Ko¨nig’s term for imagined ultrasonics at the time.
179. That Chorost’s device only just achieved parity with his earlier auditory envi-
ronment (hearing aids) doubtless colors this cautious conclusion. Chorost, Rebuilt,
175, 177.
180. Ibid., 174.
181. Vivian Sobchack, “A Leg to Stand On,” in The Prosthetic Impulse: From a
Posthuman Present to a Biocultural Future, ed. Marquard Smith and Joanne Morra
(Cambridge, MA: MIT Press, 2006), 21, 38.
182. Bernard Williams, “Two Faces of Science,” Essays and Reviews 1959–2002
(Princeton and Oxford: Princeton University Press, 2014), 48.
183. Cochlear Implants, Charles Graser Papers, 921-HSG, 1961–1995 Collection,
John Q. Adams Center, Quincey, MA; cited in Mills, “Do Signals Have a Politics,”
329–30.
184. For an example of this argument, see Jean-Francois Lyotard, “Can Thought Go
On Without a Body?,” in Posthumanism, ed. Neil Badmington (1987; Hampshire:
Palgrave, 2000), 129–41, at 132.
185. Charles Darwin, On the Origin of Species [1859], 6th ed., ed. Gillian Beer
(Oxford: Oxford University Press, 2008), 142.
186. Gary Tomlinson, A Million Years of Music (New York: Zone, 2015), 296.
187. Don Ihde, speaking of a “postphenomenology” in which digital mediation ren-
ders accessible male mice singing courting songs and the changeable cycles of whale
song, reflects in similar vein that “the possibilities of musics not yet heard ... are far
from exhausted.” Ihde, Listening and Voice, 264.
Music and the Transhuman Ear 261
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Book synopsis: New Materialisms rethinks the relevance of materialist philosophy in the midst of a world shaped by forces such as digital and biotechnologies, global warming, global capital, and population flows. Moving away from modes of inquiry that have prioritized the study of consciousness and subjectivity over matter, the essays in this collection show that any account of experience, agency, and political action demands renewed attention to the urgent issues of our own material existence and our environment. The editors propose “new materialisms” as a way to take matter seriously without falling into the conceptual dualism that posits an opposition between matter and thought, materialism and idealism, and body and mind. They locate new materialisms within post-humanist discourses, explaining that new materialist philosophies do not privilege human bodies, but rather view human bodies as one of many bodies, or agential materialities, in the world. By revealing how emerging accounts of matter, materiality, and corporeality are combining with developments in science and technology to demand radically new conceptions of nature, agency, and social and political relationships, New Materialisms makes a significant contribution to the recent resurgence of interest in phenomenology and materialist philosophy in the humanities.
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Social Text 20.2 (2002) 21-47 —Ishmael Reed, Flight to Canada —Zapp, "It Doesn't Really Matter" This essay takes up N. Katherine Hayles's challenge to seize this critical moment in order "to contest what the posthuman means . . . before the trains of thought it embodies have been laid down so firmly that it would take dynamite to change them," by closely examining her recent text, How We Became Posthuman. I do this because Hayles's volume provides the most elaborate history and theory of the posthuman, even while her framework embodies the "trains of thought" she herself queries. In other words, Hayles's own formulations are on the way to becoming hegemonic, at least in the discrepant disciplines in the humanities and social sciences that make up the postdiscipline of cultural studies. I begin with two contentions. The first concerns the literal and virtual whiteness of cybertheory. The second establishes at the very least an aporetic relationship between New World black cultures and the category of the "human." In addition, this essay also seeks to realign the hegemony of visual media in academic considerations of virtuality by shifting the emphasis to the aural, allowing us to conjecture some of the manifold ways in which black cultural production engages with informational technologies. This is followed by a discussion of the distinct status of the "human" in Afro-diasporic politico-cultural formations. Then my attention turns to the foremost theorist of a specifically black posthumanity: the British music and cultural critic Kodwo Eshun. Eshun's work provides an occasion to imagine alternative stagings of the human and posthuman found in the crosscurrents and discontinuities marking the history of African American music and the informational technologies in which they have been embodied over the course of the twentieth century. To this end, my focus will be on the role of the vocoder, a speech-synthesizing device that renders the human voice robotic, in R&B, since the audibly machinic black voice amplifies the vexed interstices of race, sound, and technology. In contrast to other forms of black popular music (jazz or hip hop, for instance), R&B, especially current manifestations of this genre, has received little critical attention. I would like to amend this neglect by insisting on the genre's importance as a pivotal space for the coarticulation of black subjectivity and information technologies. The interaction between the audibly mechanized and more traditionally melismatic and "soulful" voice in contemporary R&B indicates a different form of posthumanism than the one suggested by cybertheory, a posthumanism not mired in the residual effects of white liberal subjectivity, and a subjectivity located in the sonic arena rather than the ocular. It is obviously nothing new to declare that cybertheory has little if anything to say about the intricate processes of racial formation, whether U.S.-based or within a more global framework. While gender and sexuality have been crucial to theories of both cyberspace and the posthuman, the absence of race is usually perfunctorily remarked and of little consequence to these analyses. Critics such as Joe Lockard and Kalí Tal have dealt with the erasure of race from these studies, but their work remains ghettoized rather than integrated into the mainstream of cybertheory. Hayles is no exception in this regard: while gender takes center stage in much of Hayles's discussion of these cultural and technological constellations, her analysis...
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From the Publisher: In this age of DNA computers and artificial intelligence, information is becoming disembodied even as the "bodies" that once carried it vanish into virtuality. While some marvel at these changes, envisioning consciousness downloaded into a computer or humans "beamed" Star Trek-style, others view them with horror, seeing monsters brooding in the machines. In How We Became Posthuman, N. Katherine Hayles separates hype from fact, investigating the fate of embodiment in an information age. Hayles relates three interwoven stories: how information lost its body, that is, how it came to be conceptualized as an entity separate from the material forms that carry it; the cultural and technological construction of the cyborg; and the dismantling of the liberal humanist "subject" in cybernetic discourse, along with the emergence of the "posthuman." Ranging widely across the history of technology, cultural studies, and literary criticism, Hayles shows what had to be erased, forgotten, and elided to conceive of information as a disembodied entity. Thus she moves from the post-World War II Macy Conferences on cybernetics to the 1952 novel Limbo by cybernetics aficionado Bernard Wolfe; from the concept of self-making to Philip K. Dick's literary explorations of hallucination and reality; and from artificial life to postmodern novels exploring the implications of seeing humans as cybernetic systems. Although becoming posthuman can be nightmarish, Hayles shows how it can also be liberating. From the birth of cybernetics to artificial life, How We Became Posthuman provides an indispensable account of how we arrived in our virtual age, and of where we might go from here.
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In films as disparate as The Garden of Allah (1935), Lawrence of Arabia (1962) and Kingdom of Heaven (2005), sunlight is given an aural presence of considerable distinction. Perhaps only the tradition of the nocturne has acquired such a recognizable audio palette. This paper investigates the types of sounds used to characterize heat and light, with special reference to desert scenes. As the sun is so difficult to film, because it manifests an extreme where vision and blindness, warmth and pain intersect, its image requires a supplement, or indeed a substitution. Among the cinema's repertoire of codes, in general it is sound and music that have most commonly stood alongside, beneath or in place of visual depictions of sunlight in cinema. This case study of a highly recognizable motif illuminates the history of sound design through the sonification of an essentially silent phenomenon.