TY - JOUR
T1 - The binary-to-ternary rhythmic continuum in stress typology
T2 - layered feet and non-intervention constraints
AU - Martinez-Paricio, Violeta
AU - Kager, R.W.J.
PY - 2015/12
Y1 - 2015/12
N2 - This article presents a novel OT analysis of ternary rhythm, using the restrictive format of McCarthy (2003)'s categorical alignment constraints, which we will refer to as ‘non-intervention constraints’, using the terminology of Ellison (1994), and argues for the rehabilitation of internally layered feet in metrical representations (i.e. feet with one layer of recursion). By means of a computer-generated factorial typology, we demonstrate that the constraint set proposed here generates the full typology of binary and ternary rhythm. The resulting typology suggests that there is no absolute boundary between binary and ternary systems; rather, a continuum emerges, such that binary and ternary feet may coexist in rhythmic stress systems.
AB - This article presents a novel OT analysis of ternary rhythm, using the restrictive format of McCarthy (2003)'s categorical alignment constraints, which we will refer to as ‘non-intervention constraints’, using the terminology of Ellison (1994), and argues for the rehabilitation of internally layered feet in metrical representations (i.e. feet with one layer of recursion). By means of a computer-generated factorial typology, we demonstrate that the constraint set proposed here generates the full typology of binary and ternary rhythm. The resulting typology suggests that there is no absolute boundary between binary and ternary systems; rather, a continuum emerges, such that binary and ternary feet may coexist in rhythmic stress systems.
U2 - 10.1017/S0952675715000287
DO - 10.1017/S0952675715000287
M3 - Article
SN - 0952-6757
VL - 32
SP - 459
EP - 504
JO - Phonology
JF - Phonology
IS - 3
ER -