Prior research has amply documented that happy music tends to be faster, louder, higher in average pitch, more variable in pitch, and more staccato in articulation, whereas sad music tends to be slower, lower, less variable, and more legato in articulation. However, the bulk of existing studies are either correlational or allow these expressive cues to covary freely, thereby making it difficult to confirm the causal influence of a given cue. To help address this gap, we experimentally assessed whether the average height (F0) of a pitch gamut independently impacts the perceived emotional expression of melodies derived from the gamut. Study participants rated the perceived happiness/sadness of a set of isochronous and semi-random tone sequences derived from the Bohlen-Pierce scale, an unconventional scale based on pitch intervals that do not appear in common practice music. Results were consistent with the notion that higher average pitch height communicates happiness and/or that lower pitch height communicates sadness. Moreover, they suggested that the effect is: (1) sufficiently robust to be detected using rudimentary melodies based on an unconventional musical scale; and, (2) independent of interval size.
Two experiments examined whether discrimination of component pitches in a harmonic interval is affected by the consonance or dissonance of the interval. A single probe pitch (B or C) was followed by a two note harmonic interval including that pitch (e.g., C then C-F# or C-G) or not including it (e.g., C then B-F# or B-G). On each trial, subjects indicated by key press whether the probe note was repeated in the following interval. The target note in the interval either matched the probe or differed by one semitone (B or C). The other note produced a consonant (e.g., perfect fifth) or dissonant (e.g., tritone) context for the target. Pitch discrimination was faster and more accurate in consonant intervals than dissonant, when the context note was higher than the target (Experiment 1), but there was no effect of consonance when the target was higher (Experiment 2). We conclude that the perception of the lower but not the upper pitch in a two note harmonic interval is affected by the interval’s consonance or dissonance. We discuss the results in terms of the theoretical framework of processing fluency and aesthetics proposed by Winkielman, Schwarz, Fazendeiro, and Reber (2003).