Lexicostatistics

Lexicostatistics is a method of comparative linguistics that involves comparing the percentage of lexical cognates between languages to determine their relationship. Lexicostatistics is related to the comparative method but does not reconstruct a proto-language. It is to be distinguished from glottochronology, which attempts to use lexicostatistical methods to estimate the length of time since two or more languages diverged from a common earlier proto-language. This is merely one application of lexicostatistics, however; other applications of it may not share the assumption of a constant rate of change for basic lexical items.

The term "lexicostatistics" is misleading in that mathematical equations are used but not statistics. Other features of a language may be used other than the lexicon, though this is unusual. Whereas the comparative method used shared identified innovations to determine sub-groups, lexicostatistics does not identify these. Lexicostatistics is a distance-based method, whereas the comparative method considers language characters directly. The lexicostatistics method is a simple and fast technique relative to the comparative method but has limitations (discussed below). It can be validated by cross-checking the trees produced by both methods.

History

Lexicostatistics was developed by Morris Swadesh in a series of articles in the 1950s, based on earlier ideas. The concept's first known use was by Dumont d'Urville in 1834 who compared various "Oceanic" languages and proposed a method for calculating a coefficient of relationship. Hymes (1960) and Embleton (1986) both review the history of lexicostatistics.

Method

Create word list

The aim is to generate a list of universally used meanings (hand, mouth, sky, I). Words are then collected for these meaning slots for each language being considered. Swadesh reduced a larger set of meanings down to 200 originally. He later found that it was necessary to reduce it further but that he could include some meanings that were not in his original list, giving his later 100-item list. The Swadesh list in Wiktionary gives the total 207 meanings in a number of languages. Alternative lists that apply more rigorous criteria have been generated, e.g. the Dolgopolsky list and the Leipzig–Jakarta list, as well as lists with a more specific scope; for example, Dyen, Kruskal and Black have 200 meanings for 84 Indo-European languages in digital form.

Determine cognacies

A trained and experienced linguist is needed to make cognacy decisions. However, the decisions may need to be refined as the state of knowledge increases. However, lexicostatistics does not rely on all the decisions being correct. For each pair of lists the cognacy of a form could be positive, negative or indeterminate. Sometimes a language has multiple words for one meaning, e.g. small and little for not big.

Calculate lexicostatistic percentages

This percentage is related to the proportion of meanings for a particular language pair that are cognate, i.e. relative to the total without indeterminacy. This value is entered into a N x N table of distances, where N is the number of languages being compared. When complete this table is half-filled in triangular form. The higher the proportion of cognacy the closer the languages are related.

Create family tree

Creation of the language tree is based solely on the table found above. Various sub-grouping methods can be used but that adopted by Dyen, Krustal and Black was:

  • all lists are placed in a pool
  • the two closest members are removed and form a nucleus which is placed in the pool
  • this step is repeated
  • under certain conditions a nucleus becomes a group
  • this is repeated until the pool only contains one group.

Calculations have to be of nucleus and group lexical percentages.

Applications

A leading exponent of lexicostatistics application has been Isidore Dyen. He used lexicostatistics to classify Austronesian languages as well as Indo-European ones. A major study of the latter was reported by Dyen, Kruskal and Black (1992). Studies have also been carried out of Amerindian and African languages.

Criticisms

People such as Hoijer (1956) have showed that there were difficulties in finding equivalents to the meaning items while many have found it necessary to modify Swadesh's lists. Gudschinsky (1956) questioned whether it was possible to obtain a universal list.

Factors such as borrowing, tradition and taboo can skew the results, as with other methods. Sometimes lexicostatistics has been used with lexical similarity being used rather than cognacy to find resemblances. This is then equivalent to mass comparison.

The choice of meaning slots is subjective, as is the choice of synonyms.

Improved methods

Some of the modern computational statistical hypothesis testing methods can be regarded as improvements of lexicostatistics in that they use similar word lists and distance measures.

gollark: Or the ones without fire hydrants, but who knows really.
gollark: I constantly get told to do the captchas again despite, I'm pretty sure, correctly identifying fire hydrants.
gollark: I say this because they are compiled to static classes.
gollark: They're basically just static classes in F#.
gollark: Not fancy OCaml ones.

See also

References

  • Dobson, Annette (1969). Lexicostatistical Grouping. Anthropological Linguistics 7, 216-221.
  • Dobson, Annette and Black, Paul (1979). Multidimensional Scaling of some Lexicostatistical Data. Mathematical Scientist 1979/4, 55-61.
  • Dyen, Isidore (1962). The Lexicostatistically Determined Relationship of a Language Group. International Journal of American Linguistics 28/3.
  • Dyen, Isidore (1963). Lexicostistically Determined Borrowing and Taboo. Language 39, 60-66.
  • Dyen, Isidore (1965). A Lexicostatistical Classification of the Austronesian Languages. International Journal of American Linguistics, Memoir 19.
  • Dyen, Isidore (1973), Editor. Lexicostatistics in Genetic Linguistics. The Hague, Mouton.
  • Dyen Isidore (1975). Linguistic Subgrouping and Lexicostatistics. The Hague, Mouton.
  • Dyen, Isidore Kruskal, Joseph and Black, Paul (1992). An Indoeuropean Classification, a Lexicostatistical Experiment. Transactions of the American Philosophical Society 82/5.
  • Embleton, Sheila (1986). Statistics in Historical Linguistics. Bochum.
  • Gudschinsky, Sarah (1956). The ABCs of lexicostatistics (glottochronology).
  • Hoijer, Harry (1956). Lexicostatistics : a critique. Language 32, 49-60.
  • Hymes, Dell (1960). Lexicostatistics so far. Current Anthropology, 1/1, 3-44.
  • McMahon, April and McMahon, Robert (2005). Language Classification by Numbers. Oxford University Press.
  • Rea, John (1990). Lexicostatistics. In "Trends in Linguistics" edited by Polome, Edgar.
  • Sankoff, David (1970). "On the Rate of Replacement of Word-Meaning Relationships." Language 46.564-569.
  • Swadesh, Morris (1950). Salish Internal Relationships. International Journal of American Linguistics 16, 157-167.
  • Swadesh, Morris (1952). Lexicostatistical Dating of Prehistoric Ethnic Contacts. Proceedings of American Philosophical Society 96, 452-463.
  • Swadesh, Morris (1955). Towards Greater Accuracy in Lexicostatistic Dating. International Journal of American Linguistics 21, 121-137.
  • Wittmann, Henri (1969). "A lexico-statistic inquiry into the diachrony of Hittite." Indogermanische Forschungen 74.1-10.
  • Wittmann, Henri (1973). "The lexicostatistical classification of the French-based Creole languages." Lexicostatistics in genetic linguistics: Proceedings of the Yale conference, April 3–4, 1971, dir. Isidore Dyen, 89-99. La Haye: Mouton.
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