VI. Jazz
Chord-Scale Theory
John Kocur
Key Takeaways
Chord-Scale Theory is an approach to improvising that relates chords to scales.
- The name “Chord-Scale Theory” comes from the idea that the notes of a thirteenth chord can be rearranged as a seven-note scale.
- To determine chord-scales, identify key centers and chord functions through Roman numeral analysis.
- Roman numerals can be related to mode numbers. For example, if a chord is a ii chord in a major key, the second mode (dorian) can be used to color that chord.
- When playing chord-scales, place chord tones on the downbeat to connect improvised melodies to the chord progression.
This book covers modes from many different angles. For more information on modes, check Introduction to Diatonic Modes (general), Modal Schemas (pop), Diatonic Modes (20th/21st-c.), and Analyzing with Modes, Scales, and Collections (20th-/21st-c.).
One of the challenges of improvising jazz is making choices about pitches while also paying attention to groove, interaction, and narrative form. The Chord-Scale Theory is a method, taught at the Berklee College of Music and many other colleges and universities, that facilitates pitch choices in jazz improvisation. Chord-Scale Theory is based on George Russell’s Lydian Chromatic Concept of Tonal Organization ([1953] 2001), and it was popularized by jazz educators Jamey Aebersold, David Baker, and Jerry Coker.
The basic concept is that every chord comes from a parent scale; or, to put it another way, every chord in a progression can be colored by a related scale. For example, a Dmi7 chord extended to the thirteenth consists of the notes D, F, A, C, E, G, and B, which are identical to the notes of the D dorian mode stacked in thirds (
). Therefore, when confronting a Dmi7 chord in a chord progression, an improvising musician could choose to improvise using the notes of the D dorian mode to create new melodies.
Basic Chord-Scale Relationships
Starting a major scale on each of its seven notes will yield seven different modes. Each of the modes will have a different pattern of half steps and whole steps and thus a different color. (For more information, see Introduction to Diatonic Modes and/or Diatonic Modes).
Since the ii–V–I schema is so common in jazz standards, the three chord-scale relationships in are often taught first. shows these three relationships within the context of a ii–V–I progression in C.
[table id=49 /]
A beginning improviser might approach a song consisting mainly of ii–V–I progressions by simply applying the dorian mode to minor seventh chords, the mixolydian mode to dominant seventh chords, and the ionian mode to major seventh chords. As
shows, an improvised melody can imply a harmony by placing chord tones on the downbeats, and a seven-note mode can be thought of as a four-note seventh chord with three passing tones [latex](\hat{2}[/latex], [latex]\hat{4}[/latex], [latex]\hat{6})[/latex] or extensions (ninth, eleventh, thirteenth).
Chord-Scales and Major Keys
There are many more possible chord-scale relationships beyond those above. The seven notes of the diatonic scale suggest seven basic chord-scale relationships, as summarized in
and .
[table id=50 /]
A similar approach to the one above can be used to derive more chord-scale relationships from the melodic minor, harmonic minor, and harmonic major modes. To learn more about this, consult Further Reading below.
Applying Chord-Scales to Progressions within a Key
Reorganizing these relationships by chord quality reveals the choices listed in
for matching chord qualities to scales. For example, when improvising on a minor seventh chord, a musician can choose from three chord-scales: dorian, phrygian, or aeolian ( ).[table id=51 /]
However, it’s important to realize that Chord-Scale Theory does not imply that the key modulates each time the chord changes. In other words, these chord-scales are not key centers. Since each mode will imply different extensions, identifying chord functions through Roman numeral analysis helps an improviser choose chord-scales that best fit the key center.
For example, the opening measures of “Fly Me to the Moon” (1954) contain six of the seven diatonic chord-scale relationships in a circle-of-fifths root movement ( ). The chord progression in this example is clearly in the key of C, not seven different keys. Rather than simply coloring each minor chord with a dorian mode and each major chord with an ionian mode, differentiating between the vi and ii chords and between the I and IV chords will result in a more natural-sounding improvised line.
“Giant Steps” (1960), transposed to B♭ for tenor saxophone. Because of the fast tempo and unusual key center relationships, Coltrane improvises melodies that consist mainly of arpeggios and scale fragments. Note how he uses the ionian mode on major chords, the mixolydian mode (with a passing tone between do and te [[latex]\hat{1}[/latex] and [latex]\downarrow\hat{7}[/latex]] in m. 9) on dominant seventh chords, and the dorian mode on minor chords.
is the a transcription of the first chorus of John Coltrane’s improvised solo on
Limitations of Chord-Scale Theory
Some jazz educators have pointed out limitations of the Chord-Scale approach, such as:
- The absence of voice leading between chords. Chord-Scale Theory can lead a student to see each chord as a new key center, instead of viewing an entire chord progression as derived from a parent scale. This can result in choppy, un-melodic improvisation that lacks smooth voice leading between chords.
- Lack of the chromaticism commonly used in bebop and blues-based styles. Chord-Scale Theory generally does not account for neighbor tones, passing tones, secondary leading tones, and blue notes employed by bebop musicians such as Charlie Parker, Dizzy Gillespie, and Bud Powell.
- The anachronism of applying a 1960s modal concept to tunes from 1920–50. Louis Armstrong and Charlie Parker did not think in terms of chord-scales. Educators such as Hal Galper and Hal Crook emphasize the importance of melodic embellishment, chord tone improvisation, and blues-based improvisation before delving into chord-scale relationships.
- The avoidance of the oral tradition. Chord-Scale Theory emphasizes the eye and intellect rather than the ear and intuition. Practicing chord-scale relationships does not substitute for transcribing improvised jazz solos, memorizing tunes, improvising along with recordings, or jamming with other musicians as the preferred methods of learning the oral tradition of jazz improvisation.
- Haerle, Dan. 1982. The Jazz Language: A Theory Text for Jazz Composition and Improvisation. Hialeah, FL: Alfred Music.
- Nettles, Barrie, and Richard Graf. 2015. The Chord Scale Theory & Jazz Harmony. Mainz: Alfred Music.
- Russell, George. (1953) 2001. The Lydian Chromatic Concept of Tonal Organization: The Art and Science of Tonal Gravity by George Russell. 4th edition. Brookline, MA: Concept Publishing Company.
- Coming soon!
The role that a musical element plays in the creation of a larger musical unit.
A diatonic mode that follows the pattern W–H–W–W–W–H–W. This is like the natural minor scale, but with a raised 6̂. This scale can also be found by playing the white notes of the piano starting on D.
A major scale with le (↓6̂) instead of la (6̂): do–re–mi–fa–sol–le–ti–do (1̂–2̂–3̂–4̂–5̂–↓6̂–7̂–1̂).
Embellishing tones that are approached by step and left by step in the opposite direction.
A type of motion where a chord tone moves by step to another tone, then resolves by step in the same direction. For example, C–D–E above a C major chord would be an example of neighboring motion, in which D can be described as a passing tone. Entire harmonies may be said to be passing when embellishing another harmony, when the voice-leading between the two chords involves mainly passing tones (as in the passing 6/4 chord).
A leading-tone chord that makes a non-tonic chord temporarily sound like tonic. Most often, secondary leading-tone chords are fully diminished, though occasionally they are half-diminished.
Notes whose exact pitch sounds somewhere between the flat and regular versions of a scale degree, particularly 3̂ and 7̂.