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{{Short description|Classification of musical key or scale in ancient Greek music theory}}
In early [[Greek music]] theory, an '''octave species''' (εἶδος τοῦ διὰ πασῶν, or σχῆμα τοῦ διὰ πασῶν) is a sequence of [[incomposite interval]]s ([[ditone]]s, [[minor third]]s, [[whole tone]]s, [[semitone]]s of various sizes, or [[quarter tone]]s) making up a complete [[octave]] {{harv|Barbera|1984|loc=231–32}}. The concept was also important in Medieval and Renaissance music theory.
{{technical|date=May 2021}}
In the [[musical system of ancient Greece]], an '''octave species''' (εἶδος τοῦ διὰ πασῶν, or σχῆμα τοῦ διὰ πασῶν) is a specific sequence of [[interval (music)|intervals]] within an [[octave]].{{sfn|Barbera|1984|loc=231–232}} In ''[[Elementa harmonica]]'', [[Aristoxenus]] classifies the species as three different [[genera]], distinguished from each other by the largest intervals in each sequence: the diatonic, chromatic, and enharmonic genera, whose largest intervals are, respectively, a [[whole tone]], a [[minor third]], and a [[ditone]]; [[quarter tone]]s and [[semitone]]s complete the [[tetrachord]]s.

The concept of octave species is very close to [[Mode (music)#Tonoi|tonoi]] and akin to [[musical scale]] and [[Mode (music)|mode]], and was invoked in Medieval and Renaissance theory of [[Gregorian mode]] and Byzantine [[Octoechos]].


==Ancient Greek theory==
==Ancient Greek theory==
[[File:Greek Dorian enharmonic genus.png|thumb|300px|Greek Dorian octave species in the enharmonic genus, showing the two component tetrachords {{audio|Greek Dorian mode on E, enharmonic genus.mid|Play}}]]
[[File:Greek Dorian enharmonic genus.png|thumb|300px|Greek Dorian octave species in the enharmonic genus, showing the two component tetrachords[[File:Greek Dorian mode on E, enharmonic genus.mid]]]]
[[File:Greek Dorian chromatic genus.png|thumb|300px|Greek Dorian octave species in the chromatic genus {{audio|Greek Dorian mode on E, chromatic genus.mid|Play}}]]
[[File:Greek Dorian chromatic genus.png|thumb|300px|Greek Dorian octave species in the chromatic genus[[File:Greek Dorian mode on E, chromatic genus.mid]]]]
[[File:Dorian diatonic.png|thumb|right|300px|Greek Dorian octave species in the diatonic genus {{audio|Phrygian mode E.mid|Play}}]]
[[File:Dorian diatonic.png|thumb|300px|Greek Dorian octave species in the diatonic genus[[File:Phrygian mode E.mid]]]]
Greek theorists used two terms interchangeably to describe what we call species: ''eidos'' (εἶδος) and ''skhēma'' (σχῆμα), defined as "a change in the arrangement of incomposite [intervals] making up a compound magnitude while the number and size of the intervals remains the same" ({{harvnb|Aristoxenus|1954|loc=92.7–8 & 92.9–11}} (da Rios), translated in {{harvnb|Barbera|1984|loc=230}}). Cleonides (the Aristoxenian tradition) described (in the diatonic genus) three species of diatessaron, four of diapente and seven of diapason. Ptolemy in his "Harmonics" called them all generally "species of primary consonances" (εἴδη τῶν πρώτων συμφωνιῶν). Boethius, who inherited the Ptolemy's generalization under the term "species primarum consonantiarum" (Inst. mus. IV,14), expanded species theory of Greeks; along with the traditional orderings of 3 primary species he introduced 3 further their orderings {{harv|Bower|1989|loc=149}}. For epistemology of the Antiquity music theory, the most important of all was the octave species, because (according to Boethius) "from the species of the consonance of the diapason arise what are called ''modes''" {{harv|Bower|1989|loc=153}}.
Greek theorists used two terms interchangeably to describe what we call species: ''eidos'' (εἶδος) and ''skhēma'' (σχῆμα), defined as "a change in the arrangement of incomposite [intervals] making up a compound magnitude while the number and size of the intervals remains the same".<ref>{{harvnb|Aristoxenus|1954|loc=92.7–8 & 92.9–11}}, translated in {{harvnb|Barbera|1984|loc=230}}</ref> [[Cleonides]], working in the Aristoxenian tradition, describes three species of [[perfect fourth|diatessaron]], four of [[perfect fifth|diapente]], and seven of [[octave|diapason]] in the diatonic genus. [[Ptolemy]] in his ''Harmonics'' calls them all generally "species of primary consonances" (εἴδη τῶν πρώτων συμφωνιῶν). In the [[Greek East and Latin West|Latin West]], [[Boethius]], in his ''Fundamentals of Music'', calls them "species primarum consonantiarum".{{sfn|Boethius|1989|loc=148}} Boethius and [[Martianus]], in his ''De Nuptiis Philologiae et Mercurii'', further expanded on Greek sources and introduced their own modifications to Greek theories.{{sfn|Atkinson|2009|loc=10, 25}}


=== Octave species ===
=== Octave species ===
The basis of octave species was the smaller category of species of the [[perfect fourth]], or ''diatessaron''; when filled in with two intermediary notes, the resulting four notes and three consecutive intervals constitute a "[[tetrachord]]" {{harv|Gombosi|1951|loc=22}}. The species defined by the different positioning of the intervals within the tetrachord in turn depend upon [[Genus (music)|genus]] first being established {{harv|Barbera|1984|loc=229}}. Incomposite in this context refers to intervals which are not composed of smaller intervals.
The most important of all the consonant species was the octave species, because "from the species of the consonance of the diapason arise what are called ''[[mode (music)|modes]]''".{{sfn|Boethius|1989|loc=153}} The basis of the octave species was the smaller category of species of the [[perfect fourth]], or ''diatessaron''; when filled in with two intermediary notes, the resulting four notes and three consecutive intervals constitute a "[[tetrachord]]".{{sfn|Gombosi|1951|loc=22}} The species defined by the different positioning of the intervals within the tetrachord in turn depend upon [[Genus (music)|genus]] first being established.{{sfn|Barbera|1984|loc=229}} Incomposite in this context refers to intervals not composed of smaller intervals.


[[File:Greek Phrygian enharmonic genus.png|thumb|300px|Greek Phrygian octave species in the enharmonic genus {{audio|Greek Phrygian mode on E, enharmonic genus.mid|Play}}]]
[[File:Greek Phrygian enharmonic genus.png|thumb|300px|Greek Phrygian octave species in the enharmonic genus[[File:Greek Phrygian mode on E, enharmonic genus.mid]]]]
Most Greek theorists distinguish three genera of the tetrachord: [[Enharmonic genus|enharmonic]], [[Chromatic genus|chromatic]], and [[Diatonic genus|diatonic]]. The enharmonic and chromatic genera are defined by the size of their largest incomposite interval (major third and minor third, respectively), which leaves a composite interval of two smaller parts, together referred to as a ''pyknon''; in the diatonic genus, no single interval is larger than the other two combined {{harv|Barbera|1984|loc=229}}. The earliest theorists to attempt a systematic treatment of octave species, the harmonicists (or school of Eratocles) of the late fifth century BC, confined their attention to the enharmonic genus, with the intervals in the resulting seven octave species being {{harv|Barker|1984–87|loc=2:15}}:
Most Greek theorists distinguish three genera of the tetrachord: [[Enharmonic genus|enharmonic]], [[Chromatic genus|chromatic]], and [[Diatonic genus|diatonic]]. The enharmonic and chromatic genera are defined by the size of their largest incomposite interval (major third and minor third, respectively), which leaves a composite interval of two smaller parts, together referred to as a ''pyknon''; in the diatonic genus, no single interval is larger than the other two combined.{{sfn|Barbera|1984|loc=229}} The earliest theorists to attempt a systematic treatment of octave species, the harmonicists (or school of Eratocles) of the late fifth century BC, confined their attention to the enharmonic genus, with the intervals in the resulting seven octave species being:{{sfn|Barker|1984–89|loc=2:15}}
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Species of the [[perfect fifth]] (''diapente'') are then created by the addition of a whole tone to the intervals of the tetrachord. The first, or original species in both cases has the ''pyknon'' or, in the diatonic genus, the semitone, at the bottom {{harv|Cleonides|1965|loc=41}} and, similarly, the lower interval of the ''pyknon'' must be smaller or equal to the higher one {{harv|Barbera|1984|loc=229–30}}. The whole tone added to created the species of fifth (the "tone of disjunction") is at the top in the first species; the remaining two species of fourth and three species of fifth are regular rotations of the constituent intervals, in which the lowest interval of each species becomes the highest of the next ({{harvnb|Cleonides|1965|loc=41}}; {{harvnb|Barbera|1984|loc=233}}). Because of these constraints, tetrachords containing three different incomposite intervals (compared with those in which two of the intervals are of the same size, such as two whole tones) still have only three species, rather than the six possible permutations of the three elements {{harv|Barbera|1984|loc=232}}. Similar considerations apply to the species of fifth.
Species of the [[perfect fifth]] (''diapente'') are then created by the addition of a whole tone to the intervals of the tetrachord. The first, or original species in both cases has the ''pyknon'' or, in the diatonic genus, the semitone, at the bottom{{sfn|Cleonides|1965|loc=41}} and, similarly, the lower interval of the ''pyknon'' must be smaller or equal to the higher one.{{sfn|Barbera|1984|loc=229–230}} The whole tone added to create the species of fifth (the "tone of disjunction") is at the top in the first species; the remaining two species of fourth and three species of fifth are regular rotations of the constituent intervals, in which the lowest interval of each species becomes the highest of the next.({{sfn|Cleonides|1965|loc=41}}{{sfn|Barbera|1984|loc=233}} Because of these constraints, tetrachords containing three different incomposite intervals (compared with those in which two of the intervals are of the same size, such as two whole tones) still have only three species, rather than the six possible permutations of the three elements.{{sfn|Barbera|1984|loc=232}} Similar considerations apply to the species of fifth.


The species of fourth and fifth are then combined into larger constructions called "systems". The older, central "characteristic octave", is made up of two first-species tetrachords separated by a tone of disjunction, and is called the Lesser Perfect System {{harv|Gombosi|1951|loc=23–24}}. It therefore includes a lower, first-species fifth and an upper, fourth-species fifth. To this central octave are added two flanking conjuct tetrachords (that is, they share the lower and upper tones of the central octave). This constitutes the Greater Perfect System, with six fixed bounding tones of the four tetrachords, within each of which are two movable pitches. {{harvnb|Ptolemy|1930|loc=D. 49–53}} {{harv|Barbera|1984|loc=235}} labels the resulting fourteen pitches with the (Greek) letters from Α ([[Alpha_(letter) | Alpha α]]) to Ο ([[Omega_(letter) | Omega Ω]]). (A diagram is available at [[Musical system of ancient greece#Systêma ametabolon, an overview of the Tone System | systema ametabolon]])
The species of fourth and fifth are then combined into larger constructions called "systems". The older, central "characteristic octave", is made up of two first-species tetrachords separated by a tone of disjunction, and is called the Lesser Perfect System.{{sfn|Gombosi|1951|loc=23–24}} It therefore includes a lower, first-species fifth and an upper, fourth-species fifth. To this central octave are added two flanking conjuct tetrachords (that is, they share the lower and upper tones of the central octave). This constitutes the Greater Perfect System, with six fixed bounding tones of the four tetrachords, within each of which are two movable pitches. Ptolemy{{sfn|Ptolemy|1930|loc=D. 49–53}}{{sfn|Barbera|1984|loc=235}} labels the resulting fourteen pitches with the (Greek) letters from Α ([[Alpha|Alpha α]]) to Ο ([[Omega|Omega Ω]]). (A diagram is shown at [[Musical system of ancient Greece#Systema ametabolon, an overview of the tone system|systema ametabolon]])


The Lesser and Greater Perfect Systems exercise constraints on the possible octave species. Some early theorists, such as Gaudentius in his ''Harmonic Introduction'', recognized that, if the various available intervals could be combined in any order, even restricting species to just the diatonic genus would result in twelve ways of dividing the octave (and his 17th-century editor, [[Marcus Meibom]], pointed out that the actual number is 21), but "only seven species or forms are melodic and symphonic" {{harv|Barbera|1984|loc=237–39}}. Those octave species that cannot be mapped onto the system are therefore to be rejected {{harv|Barbera|1984|loc=240}}.
The Lesser and Greater Perfect Systems exercise constraints on the possible octave species. Some early theorists, such as [[Gaudentius (music theorist)|Gaudentius]] in his ''Harmonic Introduction'', recognized that, if the various available intervals could be combined in any order, even restricting species to just the diatonic genus would result in twelve ways of dividing the octave (and his 17th-century editor, [[Marcus Meibom]], pointed out that the actual number is 21), but "only seven species or forms are melodic and symphonic".{{sfn|Barbera|1984|loc=237–239}} Those octave species that cannot be mapped onto the system are therefore rejected.{{sfn|Barbera|1984|loc=240}}


==Medieval theory==
==Medieval theory==
In chant theory beginning in the 9th century, the ''New Exposition'' of the composite treatise called ''Alia musica'' developed an eightfold [[Musical mode|modal system]] from the seven diatonic octave species of ancient Greek theory, transmitted to the West through the Latin writings of [[Martianus Capella]], [[Cassiodorus]], [[Isidore of Seville]], and, most importantly, [[Boethius]]. Together with the species of fourth and fifth, the octave species continued to be used as a basis of the theory of modes, in combination with other elements, particularly the system of [[Hagiopolitan Octoechos|octoechos]] borrowed from the [[Byzantine Church]] {{harv|Powers|2001}}.
In chant theory beginning in the 9th century, the ''New Exposition'' of the composite treatise called ''Alia musica'' developed an eightfold [[mode (music)|modal system]] from the seven diatonic octave species of ancient Greek theory, transmitted to the West through the Latin writings of [[Martianus Capella]], [[Cassiodorus]], [[Isidore of Seville]], and, most importantly, Boethius. Together with the species of fourth and fifth, the octave species remained in use as a basis of the theory of modes, in combination with other elements, particularly the system of [[Hagiopolitan Octoechos|octoechos]] borrowed from the [[Eastern Orthodox Church]].{{sfn|Powers|2001}}


Species theory in general (not just the ''octave'' species) continued to be an important theoretical concept throughout Middle Ages. The following appreciation of species as a stuctural basis of a mode found in «Lucidarium» (XI, 3) of [[Marchetto of Padua|Marchetto]] (ca. 1317) can be seen as typical:
Species theory in general (not just the ''octave'' species) remained an important theoretical concept throughout Middle Ages. The following appreciation of species as a structural basis of a mode, found in the ''Lucidarium'' (XI, 3) of [[Marchetto of Padua|Marchetto]] (ca. 1317), can be seen as typical:


<blockquote>We declare that those who judge the mode of a melody exclusively with regard to ascent and descent cannot be called musicians, bu rather blind men, singers of mistake... for, as [[Berno of Reichenau|Bernard]] said, "species are dishes at a musical banquet; they create modes" {{harv|Herlinger|1985|loc=393-395}}.</blockquote>
<blockquote>We declare that those who judge the mode of a melody exclusively with regard to ascent and descent cannot be called musicians, but rather blind men, singers of mistake... for, as [[Berno of Reichenau|Bernard]] said, "species are dishes at a musical banquet; they create modes."{{sfn|Herlinger|1985|loc=393-395}}</blockquote>


==Sources==
==References==
{{reflist|15em}}

'''Sources'''
{{div col|colwidth=45em}}
* {{wikicite|ref={{harvid|Aristoxenus|1954}}|reference=[[Aristoxenus]]. 1954. ''Aristoxeni elementa harmonica'', edited by Rosetta da Rios. Rome: Typis Publicae Officinae Polygraphicae.}}
* {{wikicite|ref={{harvid|Aristoxenus|1954}}|reference=[[Aristoxenus]]. 1954. ''Aristoxeni elementa harmonica'', edited by Rosetta da Rios. Rome: Typis Publicae Officinae Polygraphicae.}}
* {{wikicite|ref={{harvid|Barker|1984–89}}|reference=Barker, Andrew (ed.) (1984–89). ''Greek Musical Writings''. 2 vols. Cambridge & New York: Cambridge University Press. ISBN 0-521-23593-6 (v. 1) ISBN 0-521-30220-X (v. 2).}}
* {{wikicite|ref={{harvid|Atkinson|2009}}|reference=Atkinson, Charles M. 2009. ''The Critical Nexus:Tone-System, Modes, and Notation in Early Medieval Music''. Oxford: Oxford University Press. {{ISBN|978-0-19-514888-6}}}}
* {{wikicite|ref={{harvid|Barbera|1984}}|reference=Barbera, André. 1984. "Octave Species". ''The Journal of Musicology'' 3, no. 3 (Summer): 229–41.}}
* {{wikicite|ref={{harvid|Barker|1984–89}}|reference=Barker, Andrew (ed.) (1984–89). ''Greek Musical Writings''. 2 vols. Cambridge & New York: Cambridge University Press. {{ISBN|0-521-23593-6}} (v. 1) {{ISBN|0-521-30220-X}} (v. 2).}}
* {{wikicite|ref={{harvid|Boethius|1989}}|reference=Boethius. 1989. ''Fundamentals of Music'', translated, with introduction and notes by Calvin M. Bower; edited by Claude V. Palisca. Music Theory Translation Series. New Haven and London: Yale University Press. ISBN 978-0-300-03943-6.}}
* {{wikicite|ref={{harvid|Barbera|1984}}|reference=Barbera, André. 1984. "Octave Species". ''[[The Journal of Musicology]]'' 3, no. 3 (Summer): 229–241.}}
* {{wikicite|ref={{harvid|Boethius|1989}}|reference=[[Boethius]]. 1989. ''Fundamentals of Music'', translated, with introduction and notes by Calvin M. Bower; edited by [[Claude V. Palisca]]. Music Theory Translation Series. New Haven and London: Yale University Press. {{ISBN|978-0-300-03943-6}}.}}
* {{wikicite|ref={{harvid|Cleonides|1965}}|reference=[[Cleonides]]. 1965. "Harmonic Introduction," translated by Oliver Strunk. In ''Source Readings in Music History'', vol. 1 (Antiquity and the Middle Ages), edited by Oliver Strunk, 34–46. New York: W. W. Norton.}}
* {{wikicite|ref={{harvid|Cleonides|1965}}|reference=[[Cleonides]]. 1965. "Harmonic Introduction," translated by [[Oliver Strunk]]. In ''Source Readings in Music History'', vol. 1 (Antiquity and the Middle Ages), edited by Oliver Strunk, 34–46. New York: W. W. Norton.}}
* {{wikicite|ref={{harvid|Gombosi|1951}}|reference=Gombosi, Otto. 1951. "[http://links.jstor.org/sici?sici=0003-0139%28195121%294%3A1%3C20%3AKMS%3E2.0.CO%3B2-7&size=LARGEKey, Mode, Species]". ''Journal of the American Musicological Society'' 4, no. 1 (Spring): 20–26.}}
* {{cite journal|last=Gombosi|first=Otto|date=Spring 1951|title=Mode, Species|journal=[[Journal of the American Musicological Society]]|volume=4|number=1|pages=20–26|doi=10.2307/830117|jstor=830117}}
* {{wikicite|ref={{harvid|Herlinger|1985}}|reference=Herlinger, Jan (ed.) (1985). ''The Lucidarium of Marchetto of Padua''. Chicago & London: The University of Chicago Press. ISBN 0-226-32762-0.}}
* {{wikicite|ref={{harvid|Herlinger|1985}}|reference=Herlinger, Jan (ed.) (1985). ''The Lucidarium of Marchetto of Padua''. Chicago & London: The University of Chicago Press. {{ISBN|0-226-32762-0}}.}}
* {{wikicite|ref={{harvid|Powers|2001}}|reference=[[Harold Powers|Powers, Harold S]]. 2001. "Mode §II: Medieval Modal Theory". ''The New Grove Dictionary of Music and Musicians'', second edition, edited by [[Stanley Sadie]] and [[John Tyrrell (professor of music)|John Tyrrell]]. London: Macmillan Publishers.}}
* {{wikicite|ref={{harvid|Powers|2001}}|reference=[[Harold Powers|Powers, Harold S.]] 2001. "Mode §II: Medieval Modal Theory". ''[[The New Grove Dictionary of Music and Musicians]]'', second edition, edited by [[Stanley Sadie]] and [[John Tyrrell (musicologist)|John Tyrrell]]. London: Macmillan.}}
* {{wikicite|ref={{harvid|Prolemy|1930}}|reference=[[Ptolemy]]. 1930. ''Die Harmonielehre des Klaudios Ptolemaios'', edited by Ingemar Düring. Göteborgs högskolas årsskrift 36, 1930:1. Göteborg: Elanders boktr. aktiebolag. Reprint, New York: Garland Publishing, 1980.}}
* {{wikicite|ref={{harvid|Ptolemy|1930}}|reference=[[Ptolemy]]. 1930. ''Die Harmonielehre des Klaudios Ptolemaios'', edited by Ingemar Düring. Göteborgs högskolas årsskrift 36, 1930:1. Göteborg: Elanders boktr. aktiebolag. Reprint, New York: Garland Publishing, 1980.}}
{{div col end}}
* {{wikicite|ref={{harvid|Ptolemy|2000}}|reference=Ptolemy. 2000. ''Harmonics'', translated and commentary by Jon Solomon. [[Mnemosyne (journal)|Mnemosyne]], Bibliotheca Classica Batava, Supplementum, 0169-8958, 203. Leiden and Boston: Brill. ISBN 90-04-11591-9.}}
* {{wikicite|ref={{harvid|Solomon|1984}}|reference=Solomon, Jon. 1984. "Towards a History of Tonoi". ''The Journal of Musicology'' 3, no. 3 (Summer): 242–51.}}


==Further reading==
==Further reading==
{{div col|colwidth=45em}}
* {{wikicite|ref={{harvid|Anon.|n.d.}}|reference=Anon. n.d. "[http://www.britannica.com/eb/article-9056731/octave-species Octave Species]". Encyclopedia Britannica (online edition, accessed 5 September 2014)}}
* Anon. n.d. "[http://www.britannica.com/eb/article-9056731/octave-species Octave Species]". ''[[Encyclopædia Britannica]]'' (online edition, accessed 5 September 2014)
* {{wikicite|ref={{harvid|Chalmers|1993}}|reference=Chalmers, John H. Jr. 1993. ''Divisions of the Tetrachord''. Hanover, NH: Frog Peak Music. ISBN 0-945996-04-7 available on-line http://eamusic.dartmouth.edu/~larry/published_articles/divisions_of_the_tetrachord/index.html}}
* Chalmers, John H. Jr. 1993. [http://eamusic.dartmouth.edu/~larry/published_articles/divisions_of_the_tetrachord/index.html ''Divisions of the Tetrachord'']. Hanover, New Hampshire: Frog Peak Music. {{ISBN|0-945996-04-7}}
* {{wikicite|ref={{harvid|Warburton|2000}}|reference=Warburton, Jane. 2000. "Questions of Attribution and Chronology in Three Medieval Texts on Species Theory". ''Music Theory Spectrum'' 22, no. 2:225–35.}}
* [[Ptolemy]]. 2000. ''Harmonics'', translated and commentary by Jon Solomon. ''[[Mnemosyne (journal)|Mnemosyne]]'', Bibliotheca Classica Batava, Supplementum, 0169-8958, 203. Leiden and Boston: Brill. {{ISBN|90-04-11591-9}}.
* Solomon, Jon. 1984. "Towards a History of Tonoi". ''[[The Journal of Musicology]]'' 3, no. 3 (Summer): 242–251.
* Warburton, Jane. 2000. "Questions of Attribution and Chronology in Three Medieval Texts on Species Theory". ''[[Music Theory Spectrum]]'' 22, no. 2:225–235.
{{div col end}}

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Latest revision as of 06:09, 18 April 2024

In the musical system of ancient Greece, an octave species (εἶδος τοῦ διὰ πασῶν, or σχῆμα τοῦ διὰ πασῶν) is a specific sequence of intervals within an octave.[1] In Elementa harmonica, Aristoxenus classifies the species as three different genera, distinguished from each other by the largest intervals in each sequence: the diatonic, chromatic, and enharmonic genera, whose largest intervals are, respectively, a whole tone, a minor third, and a ditone; quarter tones and semitones complete the tetrachords.

The concept of octave species is very close to tonoi and akin to musical scale and mode, and was invoked in Medieval and Renaissance theory of Gregorian mode and Byzantine Octoechos.

Ancient Greek theory

[edit]
Greek Dorian octave species in the enharmonic genus, showing the two component tetrachords
Greek Dorian octave species in the chromatic genus
Greek Dorian octave species in the diatonic genus

Greek theorists used two terms interchangeably to describe what we call species: eidos (εἶδος) and skhēma (σχῆμα), defined as "a change in the arrangement of incomposite [intervals] making up a compound magnitude while the number and size of the intervals remains the same".[2] Cleonides, working in the Aristoxenian tradition, describes three species of diatessaron, four of diapente, and seven of diapason in the diatonic genus. Ptolemy in his Harmonics calls them all generally "species of primary consonances" (εἴδη τῶν πρώτων συμφωνιῶν). In the Latin West, Boethius, in his Fundamentals of Music, calls them "species primarum consonantiarum".[3] Boethius and Martianus, in his De Nuptiis Philologiae et Mercurii, further expanded on Greek sources and introduced their own modifications to Greek theories.[4]

Octave species

[edit]

The most important of all the consonant species was the octave species, because "from the species of the consonance of the diapason arise what are called modes".[5] The basis of the octave species was the smaller category of species of the perfect fourth, or diatessaron; when filled in with two intermediary notes, the resulting four notes and three consecutive intervals constitute a "tetrachord".[6] The species defined by the different positioning of the intervals within the tetrachord in turn depend upon genus first being established.[7] Incomposite in this context refers to intervals not composed of smaller intervals.

Greek Phrygian octave species in the enharmonic genus

Most Greek theorists distinguish three genera of the tetrachord: enharmonic, chromatic, and diatonic. The enharmonic and chromatic genera are defined by the size of their largest incomposite interval (major third and minor third, respectively), which leaves a composite interval of two smaller parts, together referred to as a pyknon; in the diatonic genus, no single interval is larger than the other two combined.[7] The earliest theorists to attempt a systematic treatment of octave species, the harmonicists (or school of Eratocles) of the late fifth century BC, confined their attention to the enharmonic genus, with the intervals in the resulting seven octave species being:[8]

Mixolydian ¼ ¼ 2 ¼ ¼ 2 1
Lydian ¼ 2 ¼ ¼ 2 1 ¼
Phrygian 2 ¼ ¼ 2 1 ¼ ¼
Dorian ¼ ¼ 2 1 ¼ ¼ 2
Hypolydian ¼ 2 1 ¼ ¼ 2 ¼
Hypophrygian 2 1 ¼ ¼ 2 ¼ ¼
Hypodorian 1 ¼ ¼ 2 ¼ ¼ 2

Species of the perfect fifth (diapente) are then created by the addition of a whole tone to the intervals of the tetrachord. The first, or original species in both cases has the pyknon or, in the diatonic genus, the semitone, at the bottom[9] and, similarly, the lower interval of the pyknon must be smaller or equal to the higher one.[10] The whole tone added to create the species of fifth (the "tone of disjunction") is at the top in the first species; the remaining two species of fourth and three species of fifth are regular rotations of the constituent intervals, in which the lowest interval of each species becomes the highest of the next.([9][11] Because of these constraints, tetrachords containing three different incomposite intervals (compared with those in which two of the intervals are of the same size, such as two whole tones) still have only three species, rather than the six possible permutations of the three elements.[12] Similar considerations apply to the species of fifth.

The species of fourth and fifth are then combined into larger constructions called "systems". The older, central "characteristic octave", is made up of two first-species tetrachords separated by a tone of disjunction, and is called the Lesser Perfect System.[13] It therefore includes a lower, first-species fifth and an upper, fourth-species fifth. To this central octave are added two flanking conjuct tetrachords (that is, they share the lower and upper tones of the central octave). This constitutes the Greater Perfect System, with six fixed bounding tones of the four tetrachords, within each of which are two movable pitches. Ptolemy[14][15] labels the resulting fourteen pitches with the (Greek) letters from Α (Alpha α) to Ο (Omega Ω). (A diagram is shown at systema ametabolon)

The Lesser and Greater Perfect Systems exercise constraints on the possible octave species. Some early theorists, such as Gaudentius in his Harmonic Introduction, recognized that, if the various available intervals could be combined in any order, even restricting species to just the diatonic genus would result in twelve ways of dividing the octave (and his 17th-century editor, Marcus Meibom, pointed out that the actual number is 21), but "only seven species or forms are melodic and symphonic".[16] Those octave species that cannot be mapped onto the system are therefore rejected.[17]

Medieval theory

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In chant theory beginning in the 9th century, the New Exposition of the composite treatise called Alia musica developed an eightfold modal system from the seven diatonic octave species of ancient Greek theory, transmitted to the West through the Latin writings of Martianus Capella, Cassiodorus, Isidore of Seville, and, most importantly, Boethius. Together with the species of fourth and fifth, the octave species remained in use as a basis of the theory of modes, in combination with other elements, particularly the system of octoechos borrowed from the Eastern Orthodox Church.[18]

Species theory in general (not just the octave species) remained an important theoretical concept throughout Middle Ages. The following appreciation of species as a structural basis of a mode, found in the Lucidarium (XI, 3) of Marchetto (ca. 1317), can be seen as typical:

We declare that those who judge the mode of a melody exclusively with regard to ascent and descent cannot be called musicians, but rather blind men, singers of mistake... for, as Bernard said, "species are dishes at a musical banquet; they create modes."[19]

References

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  1. ^ Barbera 1984, 231–232.
  2. ^ Aristoxenus 1954, 92.7–8 & 92.9–11, translated in Barbera 1984, 230
  3. ^ Boethius 1989, 148.
  4. ^ Atkinson 2009, 10, 25.
  5. ^ Boethius 1989, 153.
  6. ^ Gombosi 1951, 22.
  7. ^ a b Barbera 1984, 229.
  8. ^ Barker 1984–89, 2:15.
  9. ^ a b Cleonides 1965, 41.
  10. ^ Barbera 1984, 229–230.
  11. ^ Barbera 1984, 233.
  12. ^ Barbera 1984, 232.
  13. ^ Gombosi 1951, 23–24.
  14. ^ Ptolemy 1930, D. 49–53.
  15. ^ Barbera 1984, 235.
  16. ^ Barbera 1984, 237–239.
  17. ^ Barbera 1984, 240.
  18. ^ Powers 2001.
  19. ^ Herlinger 1985, 393-395.

Sources

  • Aristoxenus. 1954. Aristoxeni elementa harmonica, edited by Rosetta da Rios. Rome: Typis Publicae Officinae Polygraphicae.
  • Atkinson, Charles M. 2009. The Critical Nexus:Tone-System, Modes, and Notation in Early Medieval Music. Oxford: Oxford University Press. ISBN 978-0-19-514888-6
  • Barker, Andrew (ed.) (1984–89). Greek Musical Writings. 2 vols. Cambridge & New York: Cambridge University Press. ISBN 0-521-23593-6 (v. 1) ISBN 0-521-30220-X (v. 2).
  • Barbera, André. 1984. "Octave Species". The Journal of Musicology 3, no. 3 (Summer): 229–241.
  • Boethius. 1989. Fundamentals of Music, translated, with introduction and notes by Calvin M. Bower; edited by Claude V. Palisca. Music Theory Translation Series. New Haven and London: Yale University Press. ISBN 978-0-300-03943-6.
  • Cleonides. 1965. "Harmonic Introduction," translated by Oliver Strunk. In Source Readings in Music History, vol. 1 (Antiquity and the Middle Ages), edited by Oliver Strunk, 34–46. New York: W. W. Norton.
  • Gombosi, Otto (Spring 1951). "Mode, Species". Journal of the American Musicological Society. 4 (1): 20–26. doi:10.2307/830117. JSTOR 830117.
  • Herlinger, Jan (ed.) (1985). The Lucidarium of Marchetto of Padua. Chicago & London: The University of Chicago Press. ISBN 0-226-32762-0.
  • Powers, Harold S. 2001. "Mode §II: Medieval Modal Theory". The New Grove Dictionary of Music and Musicians, second edition, edited by Stanley Sadie and John Tyrrell. London: Macmillan.
  • Ptolemy. 1930. Die Harmonielehre des Klaudios Ptolemaios, edited by Ingemar Düring. Göteborgs högskolas årsskrift 36, 1930:1. Göteborg: Elanders boktr. aktiebolag. Reprint, New York: Garland Publishing, 1980.

Further reading

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