Text mixing shapes the anatomy of rank-frequency distributions: A modern Zipfian mechanics for natural language
This addresses a fundamental issue in quantitative linguistics by challenging the core-non-core lexicon hypothesis, offering a universal explanation for rank-frequency distributions in natural language.
The study tackled the problem of explaining the two scaling regimes observed in Zipf's law for large corpora, proposing that text aggregation causes these regimes, and found strong empirical support across 10 languages.
Natural languages are full of rules and exceptions. One of the most famous quantitative rules is Zipf's law which states that the frequency of occurrence of a word is approximately inversely proportional to its rank. Though this `law' of ranks has been found to hold across disparate texts and forms of data, analyses of increasingly large corpora over the last 15 years have revealed the existence of two scaling regimes. These regimes have thus far been explained by a hypothesis suggesting a separability of languages into core and non-core lexica. Here, we present and defend an alternative hypothesis, that the two scaling regimes result from the act of aggregating texts. We observe that text mixing leads to an effective decay of word introduction, which we show provides accurate predictions of the location and severity of breaks in scaling. Upon examining large corpora from 10 languages in the Project Gutenberg eBooks collection (eBooks), we find emphatic empirical support for the universality of our claim.