Phylogenetic Methods and the Prehistory of LanguagesPeter Forster, Colin Renfrew McDonald Institute for Archaeological Research, 2006 - 198 Seiten Evolutionary ('phylogenetic') trees were first used to infer lost histories nearly two centuries ago by manuscript scholars reconstructing original texts. Today, computer methods are enabling phylogenetic trees to transform genetics, historical linguistics and even the archaeological study of artefact shapes and styles. But which phylogenetic methods are best suited to retracing the evolution of languages? And which types of language data are most informative about deep prehistory? In this book, leading specialists engage with these key questions. Essential reading for linguists, geneticists and archaeologists, these studies demonstrate how phylogenetic tools are illuminating previously intractable questions about language prehistory. This innovative volume arose from a conference of linguists, geneticists and archaeologists held at Cambridge in 2004. |
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... shown in Figure 2.3 . A consensus network allows us to represent the alterna- tive tree topologies that were found in the sample . This consensus network ( Fig . 2.3 ) shows trees present in more than 18 per cent of the sample ...
... shown in Figure 2.3 . A consensus network allows us to represent the alterna- tive tree topologies that were found in the sample . This consensus network ( Fig . 2.3 ) shows trees present in more than 18 per cent of the sample ...
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... shown in Figure 2.6 . Separate splits graphs for East and West Bantu are shown in Figures 2.7a and 2.7b . There is some evidence that Neighbor - Net may overfit the data , meaning that it produces some false splits ( Nakhleh et al ...
... shown in Figure 2.6 . Separate splits graphs for East and West Bantu are shown in Figures 2.7a and 2.7b . There is some evidence that Neighbor - Net may overfit the data , meaning that it produces some false splits ( Nakhleh et al ...
Seite 101
... shown in the upper left . Figure 8.15 . a ) Parsimony character trace for reflexes. 60 Frequency 20 20- 40 59 CLT CLT 54 66 ITL ITL 34 GRM 100 43 45 GRM 69 82 BA - SL BA - SL 62 IN - IR IN - IR ALB 97 100 ARM GRK TCH ANT Frequency ALB ...
... shown in the upper left . Figure 8.15 . a ) Parsimony character trace for reflexes. 60 Frequency 20 20- 40 59 CLT CLT 54 66 ITL ITL 34 GRM 100 43 45 GRM 69 82 BA - SL BA - SL 62 IN - IR IN - IR ALB 97 100 ARM GRK TCH ANT Frequency ALB ...
Inhalt
CLARE J HOLDEN RUSSELL D GRAY | 19 |
Bantu Classification Bantu Trees and Phylogenetic Methods | 43 |
Chapter 6 | 67 |
Urheberrecht | |
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Albanian algorithms Anatolian Archaeological assumptions Bantu languages Bantu trees Bastin Bayesian binary Biology borrowing branch lengths Cambridge Chapter clade cladistics classification coded cognate cognate class cognate sets comparative computational correspondences data set data-cognate dating dialects distribution divergence Dyen East Bantu edge English estimates evidence evolutionary example Figure Forster genetic Germanic glottochronology Gray & Atkinson Greek guages Historical Linguistics Hittite Holden homoplasy Indo-European languages Indo-Iranian inference innovations islands language data language evolution language family lexical evolution lexical replacement lexicostatistics likelihood Malagasy Markov matrix maximum parsimony McDonald Institute McMahon meaning Molecular morphological Mycenaean Neighbor-Net Nichols nodes Pagel parameters phonetic phonological characters phylogenetic methods phylogenetic trees phylogeny posterior probability probability problem Proto-Indo-European rates of lexical reconstruction relationships Renfrew reticulations root semantic slot similar split splits graph statistical subgroup Swadesh Swadesh list telic tion Tocharian verbs vocabulary Warnow word lists zone