The evolution of popular music: USA 1960–2010

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Research
Cite this article: Mauch M, MacCallum RM,Levy M, Leroi AM. 2015 The evolution ofpopular music: USA 1960–2010. R. Soc. opensci. 2: 150081.http://dx.doi.org/10.1098/rsos.150081
Received: 17 February 2015Accepted: 9 April 2015
Subject Category:
Biology (whole organism)
Subject Areas:
evolution/cognition/acoustics
Keywords:
popular music, diversity, stylistic revolutions,cultural evolution
Author for correspondence:
Matthias Mauche-mail: m.mauch@qmul.ac.uk

The evolution of popularmusic: USA 1960–2010
Matthias Mauch1, Robert M. MacCallum2, Mark Levy3and Armand M. Leroi2
1School of Electronic Engineering and Computer Science, Queen MaryUniversity of London, London E1 4NS, UK2 Division of Life Sciences, Imperial College London, London SW7 2AZ, UK3 Last.fm, 5-11 Lavingdon Street, London SE1 0NZ, UK
MM, 0000-0002-4352-68091. Summary
In modern societies, cultural change seems ceaseless. The fluxof fashion is especially obvious for popular music. While muchhas been written about the origin and evolution of pop, mostclaims about its history are anecdotal rather than scientific innature. To rectify this, we investigate the US Billboard Hot100 between 1960 and 2010. Using music information retrievaland text-mining tools, we analyse the musical properties ofapproximately 17 000 recordings that appeared in the charts anddemonstrate quantitative trends in their harmonic and timbralproperties. We then use these properties to produce an audio-based classification of musical styles and study the evolutionof musical diversity and disparity, testing, and rejecting, severalclassical theories of cultural change. Finally, we investigatewhether pop musical evolution has been gradual or punctuated.We show that, although pop music has evolved continuously, itdid so with particular rapidity during three stylistic ‘revolutions’around 1964, 1983 and 1991. We conclude by discussing howour study points the way to a quantitative science of culturalchange.

  1. Introduction
    The history of popular music has long been debated byphilosophers, sociologists, journalists, bloggers and pop stars[1–7]. Their accounts, though rich in vivid musical lore andaesthetic judgements, lack what scientists want: rigorous testsof clear hypotheses based on quantitative data and statistics.Economics-minded social scientists studying the history of musichave done better, but they are less interested in music thanthe means by which it is marketed [8–15]. The contrast withevolutionary biology—a historical science rich in quantitativedata and models—is striking, the more so because culturaland organismic variety are both considered to be the result of
    2015 The Authors. Published by the Royal Society under the terms of the Creative CommonsAttribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricteduse, provided the original author and source are credited.

Electronic supplementary material is availableat http://dx.doi.org/10.1098/rsos.150081 or viahttp://rsos.royalsocietypublishing.org.

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Figure 1. Data processing pipeline illustrated with a segment of Queen’s Bohemian Rhapsody, 1975, one of the few Hot 100 hits to featurean astrophysicist on lead guitar.
modification-by-descent processes [16–19]. Indeed, linguists and archaeologists, studying the evolutionof languages and material culture, commonly apply the same tools that evolutionary biologists do whenstudying the evolution of species [20–25].
Until recently, the single greatest impediment to a scientific account of musical history has been a wantof data. That has changed with the emergence of large, digitized, collections of audio recordings, musicalscores and lyrics. Quantitative studies of musical evolution have quickly followed [26–30]. Here, we usea corpus of digitized music to investigate the history of American popular music. Drawing inspirationfrom studies of organic and cultural evolution, we view the history of pop music as a ‘fossil record’ andask the kinds of questions that a palaeontologist might: has the variety of popular music increased ordecreased over time? Is evolutionary change in popular music continuous or discontinuous? And, if it isdiscontinuous, when did the discontinuities occur?
To delimit our sample, we focused on songs that appeared in the US Billboard Hot 100 between 1960and 2010. We obtained 30-s-long segments of 17 094 songs covering 86% of the Hot 100, with a small biastowards missing songs in the earlier years. Because our aim is to investigate the evolution of populartaste, we did not attempt to obtain a representative sample of all the songs that were released in the USAin that period of time, but just those that were most commercially successful.
Like previous studies of pop-music history [28,30], our study is based on features extracted fromaudio rather than from scores. However, where these early studies focused on technical aspects ofaudio such as loudness, vocabulary statistics and sequential complexity, we have attempted to identifymusically meaningful features. To this end, we adopted an approach inspired by recent advances intext-mining (figure 1). We began by measuring our songs for a series of quantitative audio features,12 descriptors of tonal content and 14 of timbre (electronic supplementary material, M2–3). Thesewere then discretized into ‘words’ resulting in a harmonic lexicon (H-lexicon) of chord changes, anda timbral lexicon (T-lexicon) of timbre clusters (electronic supplementary material, M4). To relate theT-lexicon to semantic labels in plain English, we carried out expert annotations (electronic supplementary

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material, M5). The musical words from both lexica were then combined into 8 + 8 = 16 ‘topics’ usinglatent Dirichlet allocation (LDA). LDA is a hierarchical generative model of a text-like corpus, in whichevery document (here: song) is represented as a distribution over a number of topics, and every topicis represented as a distribution over all possible words (here: chord changes from the H-lexicon, andtimbre clusters from the T-lexicon). We obtain the most likely model by means of probabilistic inference(electronic supplementary material, M6). Each song, then, is represented as a distribution over eightharmonic topics (H-topics) that capture classes of chord changes (e.g. ‘dominant-seventh chord changes’)and eight timbral topics (T-topics) that capture particular timbres (e.g. ‘drums, aggressive, percussive’,‘female voice, melodic, vocal’, derived from the expert annotations), with topic proportions q. These topicfrequencies were the basis of our analyses.

  1. Results3.1. The evolution of topics
    Between 1960 and 2010, the frequencies of the topics in the Hot 100 varied greatly: some topics becamerarer, others became more common, yet others cycled (figure 2). To help us interpret these dynamics, wemade use of associations between the topics and particular artists as well as genre-tags assigned by thelisteners of Last.fm, a web-based music discovery service with approximately 50 million users (electronicsupplementary material, M8). Considering the H-topics first, the most frequent was H8 (mean ± 95% CI:q ̄ = 0.236 ± 0.003)—major chords without changes. Nearly two-thirds of our songs show a substantial(>12.5%) frequency of this topic, particularly those tagged as CLASSIC COUNTRY, CLASSIC ROCK andLOVE (online tables). Its presence in the Hot 100 was quite constant, being the most common H-topic in43 of 50 years.
    Other H-topics were much more dynamic. Between 1960 and 2009, the mean frequency of H1 declinedby about 75%. H1 captures the use of dominant-seventh chords. Inherently dissonant (because of thetritone interval between the third and the minor-seventh), these chords are commonly used in Jazz tocreate tensions that are eventually resolved to consonant chords; in Blues music, the dissonances aretypically not resolved and thus add to the characteristic ‘dirty’ colour. Accordingly, we find that songstagged BLUES or JAZZ have a high frequency of H1; it is especially common in the songs of Blues artistssuch as B.B. King and Jazz artists such as Nat ‘King’ Cole. The decline of this topic, then, represents thelingering death of Jazz and Blues in the Hot 100.
    The remaining H-topics capture the evolution of other musical styles. H3, for example, embracesminor-seventh chords used for harmonic colour in funk, disco and soul—this topic is over-representedin FUNK and DISCO, and artists such as Chic and KC & The Sunshine Band. Between 1967 and 1977,the mean frequency of H3 more than doubles. H6 combines several chord changes that are a mainstayin modal rock tunes and therefore common in artists with big-stadium ambitions (e.g. Mötley Crüe,Van Halen, REO Speedwagon, Queen, Kiss and Alice Cooper). Its increase between 1978 and 1985, andsubsequent decline in the early 1990s, marks the age of Arena Rock. Of all H-topics, H5 shows the moststriking change in frequency. This topic, which captures the absence of identifiable chord structure, barelyfeatures in the 1960s and 1970s when, a few spoken-word-music collages aside (e.g. those of DickieGoodman), nearly all songs had clearly identifiable chords. H5 starts to become more frequent in the late1980s and then rises rapidly to a peak in 1993. This represents the rise of Hip Hop, Rap and related genres,as exemplified by the music of Busta Rhymes, Nas and Snoop Dog, who all use chords particularly rarely(online tables).
    The frequencies of the timbral Topics, too, evolve over time. T3, described as ‘energetic, speech,bright’, shows the same dynamics as H5 and is also associated with the rise of Hip Hop-related genres.Several of the other timbral topics, however, appear to rise and fall repeatedly, suggesting recurringfashions in instrumentation. For example, the evolution of T4 (‘piano, orchestra, harmonic’) appearssinusoidal, suggesting a return in the 2000s to timbral qualities prominent in the 1970s. T5 (‘guitar,loud, energetic’) underwent two full cycles with peaks in 1966 and 1985, heading upward once morein 2009. The second, larger, peak coincides with a peak in H6, the chord changes also associated withstadium rock groups such as Mötley Crüe (online tables). Finally, T1 (‘drums, aggressive, percussive’)rises continuously until 1990, which coincides with the spread of new percussive technology suchas drum machines and the gated reverb effect famously used by Phil Collins on In the air tonight,1981. Accordingly, T1 is over-represented in songs tagged DANCE, DISCO and NEW WAVE and artistssuch as The Pet Shop Boys. After 1990, the frequency of T1 declines: the reign of the drum machinewas over.

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ambiguoustonality

/ay/, male voice,vocal

/oh/, rounded,mellow

female voice,melodic, vocal

major chords,no changes

guitar, loud,energetic

Figure 2. Evolution of musical topics in the Billboard Hot 100. Mean topic frequencies (q ̄) ±95% CI estimated by bootstrapping.
3.2. The varieties of music
To analyse the evolution of musical variety, we began by classifying our songs. Popular music is classifiedinto genres such as COUNTRY, ROCK AND ROLL, RHYTHM AND BLUES (R‘N’B) as well as a multitude ofsubgenres (DANCE-POP, SYNTHPOP, HEARTLAND ROCK, ROOTS ROCK, etc.). Such genres are, however,but imperfect reflections of musical qualities. Popular music genres such as COUNTRY and RAP partiallycapture musical styles but, besides being informal, are also based on non-musical factors such as the ageor ethnicity of performers (e.g. CLASSIC ROCK and K[OREAN]-POP) [5]. For this reason, we constructed ataxonomy of 13 styles by k-means clustering on principal components derived from our topic frequencies(figure 3 and electronic supplementary material, M9). We investigated all k < 25 and found that the bestclustering solution, as determined by mean silhouette score, was k = 13.
In order to relate Last.fm tags to the style clusters, we used a technique called enrichment analysisfrom bioinformatics. This technique is usually applied to arrive at biological interpretations of sets ofgenes, i.e. to find out what the ‘function’ of a set of genes is. Applying the GeneMerge enrichment-detection algorithm [31] to our style data, we found that all styles are strongly enriched for particulartags, i.e. for each style some Last.fm tags are significantly over-represented (electronic supplementarymaterial, table S1), so we conclude that they capture at least some of the structure of popular musicperceived by consumers. The evolutionary dynamics of our styles reflect well-known trends in popularmusic. For example, the frequency of style 4, strongly enriched for JAZZ, FUNK, SOUL and related tags,declines steadily from 1960 onwards. By contrast, styles 5 and 13, strongly enriched for ROCK-relatedtags, fluctuate in frequency, whereas style 2, enriched for RAP-related tags, is very rare before the mid-1980s but then rapidly expands to become the single largest style for the next 30 years, contracting againin the late 2000s.
What do our styles represent? Figure 3 shows that styles and their evolution relate to discretesubgroups of the charts (genres), and hierarchical cluster analysis suggests that styles can be groupedinto a higher hierarchy. However, we suppose that, unlike organisms of different biological species,all the songs in the charts comprise one large, highly structured, metapopulation of songs linked by anetwork of ancestor–descendant relationships arising from songwriters imitating their predecessors [32].Styles and genres, then, represent populations of music that have evolved unique characters (topics), orcombinations of characters, in partial geographical or cultural isolation, e.g. COUNTRY in the SouthernUSA during the 1920s or RAP in the South Bronx of the 1970s. These styles rise and fall in frequencyover time in response to the changing tastes of songwriters, musicians and producers, who are in turninfluenced by the audience.
3.3. Musical diversity has not declined
Just as palaeontologists have discussed the tempo and mode of evolutionary change in the fossil record[33], historians of music have discussed musical change and the processes that drive it. Some haveargued that oligopoly in the media industries has caused a relentless decline in cultural diversity ofnew music [1,2], whereas others suggest that such homogenizing trends are periodically interrupted bysmall competitors offering novel and varied content resulting in ‘cycles of symbol production’ [8,12]. Forwant of data, there have been few tests of either theory [9–11,14].
To test these ideas, we estimated four yearly measures of diversity (figure 4). We found that althoughall four evolve, two—topic diversity and disparity—show the most striking changes, both declining to a

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Figure 3. Evolution of musical styles in the Billboard Hot 100. The evolution of 13 styles, defined by k-means clustering on principalcomponents of topic frequencies. The width of each spindle is proportional to the frequency of that style, normalized to each year. Thespindle contours are based on a ±2-year moving average smoother; unsmoothed yearly frequencies are shown as grey horizontal lines.A hierarchical cluster analysis on the k-means centroids grouped our styles into several larger clusters here represented by a tree: anEASY-LISTENING + LOVE-SONG cluster, a COUNTRY + ROCK cluster and SOUL + FUNK + DANCE cluster; the fourth, most divergent, cluster only containsthe HIP HOP + RAP-rich style 2. All resolved nodes have ≥75% bootstrap support. Labels list the four most highly over-represented Last.fmuser tags in each style according to our enrichment analysis; see electronic supplementary material, table S1 for full results. Shaded regionsdefine eras separated by musical revolutions (figure 5).
minimum around 1986, but then rebounding and increasing to a maximum in the early 2000s. Becauseneither of these measures track song number, their dynamics cannot be due to varying numbers of songsin the Hot 100; nor, because our sampling over 50 years is nearly complete, can they be due to the over-representation of recent songs—the so-called pull of the recent [34]. Instead, their dynamics are due tochanges in the frequencies of musical styles.
The decline in topic diversity and disparity in the early 1980s is due to a decline of timbral ratherthan harmonic diversity (electronic supplementary material, figure S1). This can be seen in the evolutionof particular topics (figure 2). In the early 1980s timbral topics T1 (drums, aggressive, percussive) andT5 (guitar, loud, energetic) become increasingly dominant; the subsequent recovery of diversity is dueto the relative decrease in frequency of the these topics as T3 (energetic, speech, bright) increases. Putin terms of styles, the decline of diversity is due to the dominance of genres such as NEW WAVE, DISCO,HARDROCK; its recovery is due to their waning with the rise of RAP and related genres (figure 2). Contraryto current theories of musical evolution, then, we find no evidence for the progressive homogenization ofmusic in the charts and little sign of diversity cycles within the 50 year time frame of our study. Instead,the evolution of chart diversity is dominated by historically unique events: the rise and fall of particularways of making music.

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hip hop/rap/gangsta rap/old schooleasy listening/country/love song/piano

love song/slow jams/soul/folk

country/classic country/folk/rockabilly

classic rock/country/rock/singer-songwriter

rock/classic rock/pop/new wave

rock/hard rock/alternative/classic-rock

female-vocal/pop/R’n’B/Motown

funk/blues/jazz/soul

dance/new wave/pop/electronic

funk/blues/dance/blues rocknorthern soul/soul/hip hop/dance

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200 400 6009 10 11 12 6.8 7.2 7.6 –2 0 2DN DS DT DY
Figure 4. Evolution of musical diversity in the Billboard Hot 100. We estimate four measures of diversity. From left to right: song numberin the charts, DN , depends only on the rate of turnover of unique entities (songs), and takes no account of their phenotypic similarity. Classdiversity, DS , is the effective number of styles and captures functional diversity. Topic diversity, DT , is the effective number of musical topicsused each year, averaged across the harmonic and timbral topics. Disparity, DY, or phenotypic range is estimated as the total standarddeviation within a year. Note that although in ecology DS and DY are often applied to sets of distinct species or lineages they need not be;our use of them implies nothing about the ontological status of our styles and topics. For full definitions of the diversity measures, seeelectronic supplementary material, M11. Shaded regions define eras separated by musical revolutions (figure 5).
3.4. Musical evolution is punctuated by revolutions
The history of popular music is often seen as a succession of distinct eras, e.g. the ‘Rock Era’, separatedby revolutions [3,6,14]. Against this, some scholars have argued that musical eras and revolutionsare illusory [5]. Even among those who see discontinuities, there is little agreement about when theyoccurred. The problem, again, is that data have been scarce, and objective criteria for deciding whatconstitutes a break in a historical sequence scarcer yet.
To determine directly whether rate discontinuities exist we divided the period 1960–2010 into 200quarters and used the principal components of the topic frequencies to estimate a pairwise distancematrix between them (figure 5a). This matrix suggested that, while musical evolution was ceaseless,there were periods of relative stasis punctuated by periods of rapid change. To test this impression, weapplied a method from Music Information Retrieval, Foote Novelty, which estimates the magnitude ofchange in a distance matrix over a given temporal window [35]. The method relies on a kernel matrixwith a checkerboard pattern. Because a distance matrix exposes just such a checkerboard pattern atchange points [35], convolving it with the checkerboard kernel along its diagonal directly yields thenovelty function (electronic supplementary material, M11). We calculated Foote Novelty for all windowsbetween 1 and 10 years and, for each window, determined empirical significance cut-offs based onrandom permutation of the distance matrix. We identified three revolutions: a major one around 1991and two smaller ones around 1964 and 1983 (figure 5b). From peak to succeeding trough, the rate ofmusical change during these revolutions varied four- to six-fold.
This temporal analysis, when combined with our style clusters (figure 3), shows how musicalrevolutions are associated with the expansion and contraction of particular musical styles. Usingquadratic regression models, we identified the styles that showed significant (p<0.01) change infrequency against time in the 6 years surrounding each revolution (electronic supplementary material,table S2). We also carried out a style-enrichment analysis for the same periods (electronic supplementarymaterial, table S2). Of the three revolutions, 1964 was the most complex, involving the expansion ofseveral styles—1, 5, 8, 12 and 13—enriched at the time for SOUL- and ROCK-related tags. These gainswere bought at the expense of styles 3 and 6, both enriched for DOOWOP among other tags. The 1983revolution is associated with an expansion of three styles—8, 11 and 13—here enriched for NEW WAVE-,DISCO- and HARD ROCK-related tags and the contraction of three styles—3, 7 and 12—here enriched forSOFT ROCK-, COUNTRY-related or SOUL + R‘N’B-related tags. The largest revolution of the three, 1991, isassociated with the expansion of style 2, enriched for RAP-related tags, at the expense of styles 5 and 13,here enriched for ROCK-related tags. The rise of RAP and related genres appears, then, to be the single

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Figure 5. Musical revolutions in the Billboard Hot 100. (a) Quarterly pairwise distance matrix of all the songs in the Hot 100. (b) Rateof stylistic change based on Foote Novelty over successive quarters for all windows 1–10 years, inclusive. The rate of musical change—slow-to-fast—is represented by the colour gradient blue, green, yellow, red, brown: 1964, 1983 and 1991 are periods of particularly rapidmusical change. Using a Foote Novelty kernel with a half-width of 3 years results in significant change in these periods, with Novelty peaksin 1963–Q4 (p < 0.01), 1982–Q4 (p < 0.01) and 1991–Q1 (p < 0.001) marked by dashed lines. Significance cut-offs for all windows wereempirically determined by random permutation of the distance matrix. Significance contour lines with p-values are shown in black.
most important event that has shaped the musical structure of the American charts in the period thatwe studied.
3.5. The British did not start the American revolution of 1964
Our analysis does not reveal the origins of musical styles; rather, it shows when changes in stylefrequency affect the musical structure of the charts. Bearing this in mind, we investigated the roles ofparticular artists in one revolution. On 26 December 1963, The Beatles released I want to hold your hand inthe USA. They were swiftly followed by dozens of British acts who, over the next few years, flooded theAmerican charts. It is often claimed that this ’British Invasion’ (BI) was responsible for musical changesof the time [36]. Was it? As noted above, around 1964, many styles were changing in frequency; manyprincipal components of the topic frequencies show linear changes in this period too. Inspection ofthe first four PCs shows that their evolutionary trajectories were all established before 1964, implyingthat, whereas the British may have contributed to this revolution, they could not have been entirelyresponsible for it (figure 6a). We then compared two of the most successful BI acts, The Beatles and The

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otherThe BeatlesThe Rolling Stones
B versus O: p = 0.03RS versus O: p = 0.0004
B versus O: p=7.1×10–7RS versus O: p = 8.9 × 10–5
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H1: dominant 7th chordsH3: minor 7th chords

H5: no chordsH3: minor 7th chords

T7: /oh/, rounded, mellowT5: guitar, loud, energetic

T3: energetic, speech, bright

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Figure 6. The British Invasion in the American revolution of 1964. Top to bottom: PC1–PC4. (a) Linear evolution of quarterly medians offour PCs in the 6 years (24 quarters) flanking 1963–Q4, the peak of the 1964 revolution. The population medians of all four PCs decrease,and these decreases begin well before the start of the British Invasion (BI) in late 1963, implying that BI acts cannot be solely responsiblefor the changes in musical style evident at the time. For each PC, the two topics that load most strongly are indicated, with sign ofcorrelation—high, red to low, blue—indicated (electronic supplementary material, figure S2). (b) Frequency density distributions offour PCs for the Beatles, The Rolling Stones and songs by all other artists around the 1964 revolution. For PC1 and PC2, but not PC3 and PC4,The Beatles and The Rolling Stones have significantly lower median values than the rest of the population, indicated by arrows, implyingthat these BI artists adopted a musical style that exaggerated existing trends in the Hot 100 towards increased use of major chords anddecreased use of ‘bright’ speech (PC1) and increased guitar-driven aggression and decreased use of mellow vocals (PC2). Vertical linesrepresent medians; p-values based on Mann–Whitney–Wilcoxon rank sum test; The Beatles (B): n = 46; The Rolling Stones (RS): n = 20;other artists (O): n = 3114.


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Rolling Stones, with the rest of the Hot 100 (figure 6b). In the case of PC1 and PC2, the songs of both bandshave (low) values that anticipate the Hot 100’s trajectory: for these musical attributes, they were literallyahead of the curve. In the case of PC3 and PC4, their songs resemble the rest of the Hot 100: for thesemusical attributes, they were merely on-trend. Together, these results suggest that, even if the British didnot initiate the American revolution of 1964, they did exploit it and, to the degree that they were imitatedby other artists, fanned its flames. Indeed, the extraordinary success of these two groups—66 Hot 100hits between them prior to 1968—may be attributable to their having done so.

  1. Discussion and Conclusion
    Our findings provide a quantitative picture of the evolution of popular music in the USA over thecourse of 50 years. As such, they form the basis for the scientific study of musical change. Those whowish to make claims about how and when popular music changed can no longer appeal to anecdote,connoisseurship and theory unadorned by data. Similarly, recent work has shown that it is possibleto identify discrete stylistic changes in the history of Western classical music by clustering on motifsextracted from a corpus of written scores [29]. Insofar that our approach is based on audio, it can alsobe applied to music for which no scores exist, including that from pre-Modern cultures [19,37,38]. Wehave already applied a similar approach to the classification of art music (‘classical music’) into historicalperiods [39]. More generally, music is a natural starting point for the study of stylistic evolution becauseit is not only a universal human cultural trait [40] but also measurable, largely determined by form, andavailable in a relatively standardized format (digital recordings).
    Our study is limited in several ways. First, it is limited by the features studied. Our measures mustcapture only a fraction of the phenotypic complexity of even the simplest song; other measures maygive different results. However, the finding that our classifications are supported by listener genre-tagsgives us some confidence that we have captured an important part of the perceptible variance of oursample. Second, in confining our study to the Hot 100, 1960–2010, we have only sampled a small fractionof the new singles released in the USA; a complete picture would require compiling a database of severalmillion songs, which in itself is a challenge [41]. Given that the Hot 100 is certainly a biased subset of thesesongs, our conclusions cannot be extended to the population of all releases. Finally, we are interested inextending the temporal range of our sample to at least the 1940s—if only to see whether 1955 was, asmany have claimed, the birth date of Rock’n’Roll [42].
    We have not addressed the causes of the dynamics that we detect. Like any cultural artefact—and anyliving organism—music is the result of a variational-selection process [16–19]. In evolutionary biology,causal explanations of organismal diversity appeal to intrinsic constraints (developmental or genetic),ecological factors (competition among individuals or lineages) and stochastic events (e.g. rocks fromspace) [43–45]. By analogy, a causal account of the evolution of music must ultimately contain an accountof how musicians imitate, and modify, existing music when creating new songs, that is, an accountof the mode of inheritance, the production of musical novelty and its constraints. The first of these—inheritance and its constraints—is obscure [46,47]; the second—selection—less so. The selective forcesacting upon new songs are at least partly captured by their rise and fall through the ranks of the charts.Many anecdotal histories of music attempt to explain these dynamics. For example, the rise of rap inthe charts has been credited to the television show Yo, MTV Raps! first broadcast in 1988 [48]. A general,multilevel, selection theory, not restricted to Mendelian inheritance, should provide a means for suchhypotheses to be tested [49–51].
    Finally, we note that the statistical tools used in this study are quite general. LDA can be used tostudy the evolving structure of many kinds of assemblages; Foote Novelty can be used to detect ratediscontinuities in temporal sequences of distances based on many kinds of phenotypes. Such tools,and the existence of large digital corpora of cultural artefacts—texts, music, images, computer-aideddesign (CAD) files—now permits the evolutionary analysis of many dimensions of modern culture. Weanticipate that the study of cultural trends based upon such datasets will soon constrain and inspiretheories about the evolution of culture just as the fossil record has for the evolution of life [52,53].
    Data accessibility. All methods and supplementary figures and tables are available in the electronic supplementarymaterial. Extensive data, including song titles, artists, topic frequencies and tags are available from the Figsharerepository: main data frame 10.6084/m9.figshare.1309953; secondary data frame 10.6084/m9.figshare.1309950.Acknowledgements. We thank the public participants in this study; Austin Burt, Katy Noland and Peter Foster forcomments on the manuscript; Last.fm for musical samples; Queen Mary University of London for the use ofhigh-performance computing facilities.
    Funding statement. M.M. is supported by a Royal Academy of Engineering Research Fellowship.

9

rsos.royalsocietypublishing.org R. Soc. open sci. 2: 150081................................................

Downloaded from http://rsos.royalsocietypublishing.org/ on May 8, 2015

Author contributions. M.L. provided data; M.M., R.M.M. and A.M.L. analysed the data; M.M. and A.M.L. conceived thestudy, designed the study, coordinated the study and wrote the manuscript. All authors gave final approval forpublication.Conflict of interests. We have no competing interests.

10

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