ClarinetThe clarinet is a family of woodwind instruments. It has a single-reed mouthpiece, a straight, cylindrical tube with an almost cylindrical bore, and a flared bell. A person who plays a clarinet is called a clarinetist (sometimes spelled clarinettist).
While the similarity in sound between the earliest clarinets and the trumpet may hold a clue to its name, other factors may have been involved. During the Late Baroque era, composers such as Bach and Handel were making new demands on the skills of their trumpeters, who were often required to play difficult melodic passages in the high, or as it came to be called, clarion register. Since the trumpets of this time had no valves or pistons, melodic passages would often require the use of the highest part of the trumpet's range, where the harmonics were close enough together to produce scales of adjacent notes as opposed to the gapped scales or arpeggios of the lower register. The trumpet parts that required this specialty were known by the term clarino and this in turn came to apply to the musicians themselves. It is probable that the term clarinet may stem from the diminutive version of the 'clarion' or 'clarino' and it has been suggested that clarino players may have helped themselves out by playing particularly difficult passages on these newly developed "mock trumpets".
Johann Christoph Denner is generally believed to have invented the clarinet in Germany around the year 1700 by adding a register key to the earlier chalumeau, usually in the key of C. Over time, additional keywork and airtight pads were added to improve the tone and playability.
In modern times, the most popular clarinet is the B clarinet. However, the clarinet in A, just a semitone lower, is regularly used in orchestral music. An orchestral clarinetist must own both a clarinet in A and B since the repertoire is divided fairly evenly between the two. Since the middle of the 19th century the bass clarinet (nowadays invariably in B but with extra keys to extend the register down a few notes) has become an essential addition to the orchestra. The clarinet family ranges from the (extremely rare) BBB octo-contrabass to the A piccolo clarinet. The clarinet has proved to be an exceptionally flexible instrument, used in the classical repertoire as in concert bands, military bands, marching bands, klezmer, jazz, and other styles.
EtymologyThe word clarinet may have entered the English language via the French clarinette (the feminine diminutive of Old French clarin or clarion), or from Provençal clarin, "oboe".
It would seem, however, that its real roots are to be found among some of the various names for trumpets used around the Renaissance and Baroque eras. Clarion, clarin, and the Italian clarino are all derived from the medieval term claro, which referred to an early form of trumpet. This is probably the origin of the Italian clarinetto, itself a diminutive of clarino, and consequently of the European equivalents such as clarinette in French or the German Klarinette. According to Johann Gottfried Walther, writing in 1732, the reason for the name is that "it sounded from far off not unlike a trumpet". The English form clarinet is found as early as 1733, and the now-archaic clarionet appears from 1784 until the early years of the 20th century.
SoundThe cylindrical bore is primarily responsible for the clarinet's distinctive timbre, which varies between its three main registers, known as the chalumeau, clarion, and altissimo. The tone quality can vary greatly with the clarinetist, music, instrument, mouthpiece, and reed. The differences in instruments and geographical isolation of clarinetists led to the development from the last part of the 18th century onwards of several different schools of playing. The most prominent were the German/Viennese traditions and French school. The latter was centered on the clarinetists of the Conservatoire de Paris. The proliferation of recorded music has made examples of different styles of playing available. The modern clarinetist has a diverse palette of "acceptable" tone qualities to choose from.
The A and B clarinets have nearly the same bore and use the same mouthpiece. Orchestral clarinetists using the A and B instruments in a concert could use the same mouthpiece (and often the same barrel) (see 'usage' below). The A and B have nearly identical tonal quality, although the A typically has a slightly warmer sound. The tone of the [[E-flat clarinet|E clarinet]] is brighter and can be heard even through loud orchestral or concert band textures. The bass clarinet has a characteristically deep, mellow sound, while the alto clarinet is similar in tone to the bass (though not as dark).
Clarinets have the largest pitch range of common woodwinds. The intricate key organization that makes this possible can make the playability of some passages awkward. The bottom of the clarinet's written range is defined by the keywork on each instrument, standard keywork schemes allowing a low E on the common B clarinet. The lowest concert pitch depends on the transposition of the instrument in question. The nominal highest note of the B clarinet is a semitone higher than the highest note of the oboe. Since the clarinet has a wider range of notes, the lowest note of the B clarinet is significantly deeper (a minor or major sixth) than the lowest note of the oboe.
Nearly all soprano and piccolo clarinets have keywork enabling them to play the E below middle C as their lowest written note (in scientific pitch notation that sounds D3 on a soprano clarinet or C4, i.e. concert middle C, on a piccolo clarinet), though some B clarinets go down to E3 to enable them to match the range of the A clarinet. On the B soprano clarinet, the concert pitch of the lowest note is D3, a whole tone lower than the written pitch. Most alto and bass clarinets have an extra key to allow a (written) E3. Modern professional-quality bass clarinets generally have additional keywork to written C3. Among the less commonly encountered members of the clarinet family, contra-alto and contrabass clarinets may have keywork to written E3, D3, or C3; the basset clarinet and basset horn generally go to low C3.Defining the top end of a clarinet's range is difficult, since many advanced players can produce notes well above the highest notes commonly found in method books. G6 is usually the highest note clarinetists encounter in classical repertoire. The C above that (C7 i.e. resting on the fifth ledger line above the treble staff) is attainable by advanced players and is shown on many fingering charts, and fingerings as high as A7 exist.
The range of a clarinet can be divided into three distinct registers:
AcousticsSound is a wave that propagates through the air as a result of a local variation in air pressure. The production of sound by a clarinet follows these steps:
# The mouthpiece and reed are surrounded by the player's lips, which put light, even pressure on the reed and form an airtight seal. Air is blown past the reed and down the instrument. In the same way a flag flaps in the breeze, the air rushing past the reed causes it to vibrate. As air pressure from the mouth increases, the amount the reed vibrates increases until the reed hits the mouthpiece.
At this point, the reed stays pressed against the mouthpiece until either the springiness of the reed forces it to open or a returning pressure wave 'bumps' into the reed and opens it. Each time the reed opens, a puff of air goes through the gap, after which the reed swings shut again. When played loudly, the reed can spend up to 50% of the time shut. The 'puff of air' or compression wave (around 3% greater pressure than the surrounding air) travels down the cylindrical tube and escapes at the point where the tube opens out. This is either at the closest open hole or at the end of the tube (see diagram: image 1). # More than a 'neutral' amount of air escapes from the instrument, which creates a slight vacuum or rarefaction in the clarinet tube. This rarefaction wave travels back up the tube (image 2). # The rarefaction is reflected off the sloping end wall of the clarinet mouthpiece. The opening between the reed and the mouthpiece makes very little difference to the reflection of the rarefaction wave. This is because the opening is very small compared to the size of the tube, so almost the entire wave is reflected back down the tube even if the reed is completely open at the time the wave hits (image 3). # When the rarefaction wave reaches the other (open) end of the tube, air rushes in to fill the slight vacuum. A little more than a 'neutral' amount of air enters the tube and causes a compression wave to travel back up the tube (image 4). Once the compression wave reaches the mouthpiece end of the 'tube', it is reflected again back down the pipe. However at this point, either because the compression wave 'bumped' the reed or because of the natural vibration cycle of the reed, the gap opens and another 'puff' of air is sent down the pipe. # The original compression wave, now greatly reinforced by the second 'puff' of air, sets off on another two trips down the pipe (travelling 4 pipe lengths in total) before the cycle is repeated again.
The cycle repeats at a frequency relative to how long it takes a wave to travel to the first open hole and back twice (i.e. four times the length of the pipe). For example: when all the holes bar the very top one are open (i.e. the trill 'B' key is pressed), the note A4 (440 Hz) is produced. This represents a repeat of the cycle 440 times per second.
In addition to this primary compression wave, other waves, known as harmonics, are created. Harmonics are caused by factors including the imperfect wobbling and shaking of the reed, the reed sealing the mouthpiece opening for part of the wave cycle (which creates a flattened section of the sound wave), and imperfections (bumps and holes) in the bore. A wide variety of compression waves are created, but only some (primarily the odd harmonics) are reinforced. These extra waves are what gives the clarinet its characteristic tone.
The bore is cylindrical for most of the tube with an inner bore diameter between 14 and, but there is a subtle hourglass shape, with the thinnest part below the junction between the upper and lower joint. The reduction is 1 to depending on the maker. This hourglass shape, although invisible to the naked eye, helps to correct the pitch/scale discrepancy between the chalumeau and clarion registers (perfect twelfth). The diameter of the bore affects characteristics such as available harmonics, timbre, and pitch stability (how far the player can bend a note in the manner required in jazz and other music). The bell at the bottom of the clarinet flares out to improve the tone and tuning of the lowest notes.
Most modern clarinets have "undercut" tone holes that improve intonation and sound. Undercutting means chamfering the bottom edge of tone holes inside the bore. Acoustically, this makes the tone hole function as if it were larger, but its main function is to allow the air column to follow the curve up through the tone hole (surface tension) instead of "blowing past" it under the increasingly directional frequencies of the upper registers.
The fixed reed and fairly uniform diameter of the clarinet give the instrument an acoustical behavior approximating that of a cylindrical stopped pipe. Recorders use a tapered internal bore to overblow at the octave when the thumb/register hole is pinched open, while the clarinet, with its cylindrical bore, overblows at the twelfth. Adjusting the angle of the bore taper controls the frequencies of the overblown notes (harmonics). Changing the mouthpiece's tip opening and the length of the reed changes aspects of the harmonic timbre or voice of the clarinet because this changes the speed of reed vibrations. Generally, the goal of the clarinetist when producing a sound is to make as much of the reed vibrate as possible, making the sound fuller, warmer, and potentially louder.
The lip position and pressure, shaping of the vocal tract, choice of reed and mouthpiece, amount of air pressure created, and evenness of the airflow account for most of the clarinetist's ability to control the tone of a clarinet. A highly skilled clarinetist will provide the ideal lip and air pressure for each frequency (note) being produced. They will have an embouchure which places an even pressure across the reed by carefully controlling their lip muscles. The airflow will also be carefully controlled by using the strong stomach muscles (as opposed to the weaker and erratic chest muscles) and they will use the diaphragm to oppose the stomach muscles to achieve a tone softer than a forte rather than weakening the stomach muscle tension to lower air pressure. Their vocal tract will be shaped to resonate at frequencies associated with the tone being produced.
Covering or uncovering the tone holes varies the length of the pipe, changing the resonant frequencies of the enclosed air column and hence the pitch. A clarinetist moves between the chalumeau and clarion registers through use of the register key; clarinetists call the change from chalumeau register to clarion register "the break". The open register key stops the fundamental frequency from being reinforced, and the reed is forced to vibrate at three times the speed it was originally. This produces a note a twelfth above the original note.
Most instruments overblow at two times the speed of the fundamental frequency (the octave), but as the clarinet acts as a closed pipe system, the reed cannot vibrate at twice its original speed because it would be creating a 'puff' of air at the time the previous 'puff' is returning as a rarefaction. This means it cannot be reinforced and so would die away. The chalumeau register plays fundamentals, whereas the clarion register, aided by the register key, plays third harmonics (a perfect twelfth higher than the fundamentals). The first several notes of the altissimo range, aided by the register key and venting with the first left-hand hole, play fifth harmonics (a major seventeenth, a perfect twelfth plus a major sixth, above the fundamentals). The clarinet is therefore said to overblow at the twelfth and, when moving to the altissimo register, seventeenth.
By contrast, nearly all other woodwind instruments overblow at the octave or (like the ocarina and tonette) do not overblow at all. A clarinet must have holes and keys for nineteen notes, a chromatic octave and a half from bottom E to B, in its lowest register to play the chromatic scale. This overblowing behavior explains the clarinet's great range and complex fingering system. The fifth and seventh harmonics are also available, sounding a further sixth and fourth (a flat, diminished fifth) higher respectively; these are the notes of the altissimo register. This is also why the inner "waist" measurement is so critical to these harmonic frequencies.
The highest notes can have a shrill, piercing quality and can be difficult to tune accurately. Different instruments often play differently in this respect due to the sensitivity of the bore and reed measurements. Using alternate fingerings and adjusting the embouchure helps correct the pitch of these notes.
Since approximately 1850, clarinets have been nominally tuned according to twelve-tone equal temperament. Older clarinets were nominally tuned to meantone. A skilled performer can use his or her embouchure to considerably alter the tuning of individual notes or produce vibrato, a pulsating change of pitch often employed in jazz. Vibrato is rare in classical or concert band literature; however, certain clarinetists, such as Richard Stoltzman, use vibrato in classical music. Special fingerings may be used to play quarter tones and other microtonal intervals.
Around 1900, Dr. Richard H. Stein, a Berlin musicologist, made a quarter-tone clarinet, which was soon abandoned. Years later, another German, Fritz Schüller of Markneukirchen, built a quarter tone clarinet, with two parallel bores of slightly different lengths whose tone holes are operated using the same keywork and a valve to switch from one bore to the other.
MaterialsClarinet bodies have been made from a variety of materials including wood, plastic, hard rubber, metal, resin, and ivory. The vast majority of clarinets used by professionals are made from African hardwood, mpingo (African Blackwood) or grenadilla, rarely (because of diminishing supplies) Honduran rosewood, and sometimes even cocobolo. Historically other woods, notably boxwood, were used. Most inexpensive clarinets are made of plastic resin, such as ABS. Resonite is Selmer's trademark name for its type of plastic. Metal soprano clarinets were popular in the early 20th century until plastic instruments supplanted them; metal construction is still used for the bodies of some contra-alto and contrabass clarinets and the necks and bells of nearly all alto and larger clarinets. Ivory was used for a few 18th-century clarinets, but it tends to crack and does not keep its shape well. Buffet Crampon's Greenline clarinets are made from a composite of grenadilla wood powder and carbon fiber. Such clarinets are less affected by humidity and temperature changes than wooden instruments but are heavier. Hard rubber, such as ebonite, has been used for clarinets since the 1860s, although few modern clarinets are made of it. Clarinet designers Alastair Hanson and Tom Ridenour are strong advocates of hard rubber. The Hanson Clarinet Company manufactures clarinets using a grenadilla compound reinforced with ebonite, known as BTR (bithermal-reinforced) grenadilla. This material is also not affected by humidity, and the weight is the same as that of a wooden clarinet.
Mouthpieces are generally made of hard rubber, although some inexpensive mouthpieces may be made of plastic. Other materials such as crystal/glass, wood, ivory, and metal have also been used. Ligatures are often made of metal and plated in nickel, silver, or gold. Other materials include wire, wire mesh, plastic, naugahyde, string, or leather.
ReedThe clarinet uses a single reed made from the cane of Arundo donax, a type of grass. Reeds may also be manufactured from synthetic materials. The ligature fastens the reed to the mouthpiece. When air is blown through the opening between the reed and the mouthpiece facing, the reed vibrates and produces the clarinet's sound.
Basic reed measurements are as follows: tip, 12 mm wide; lay, 15 mm long (distance from the place where the reed touches the mouthpiece to the tip); gap, 1 mm (distance between the underside of the reed tip and the mouthpiece). Adjustment to these measurements is one method of affecting tone color.
Most clarinetists buy manufactured reeds, although many make adjustments to these reeds, and some make their own reeds from cane "blanks". Reeds come in varying degrees of hardness, generally indicated on a scale from one (soft) through five (hard). This numbering system is not standardized—reeds with the same number often vary in hardness across manufacturers and models. Reed and mouthpiece characteristics work together to determine ease of playability, pitch stability, and tonal characteristics.
ComponentsNote: A Böhm system soprano clarinet is shown in the photos illustrating this section. However, all modern clarinets have similar components.The reed is attached to the mouthpiece by the ligature, and the top half-inch or so of this assembly is held in the player's mouth. In the past, clarinetists used to wrap a string around the mouthpiece and reed instead of using a ligature. The formation of the mouth around the mouthpiece and reed is called the embouchure.The reed is on the underside of the mouthpiece, pressing against the player's lower lip, while the top teeth normally contact the top of the mouthpiece (some players roll the upper lip under the top teeth to form what is called a 'double-lip' embouchure). Adjustments in the strength and shape of the embouchure change the tone and intonation (tuning). It is not uncommon for clarinetists to employ methods to relieve the pressure on the upper teeth and inner lower lip by attaching pads to the top of the mouthpiece or putting (temporary) padding on the front lower teeth, commonly from folded paper.Next is the short barrel; this part of the instrument may be extended to fine-tune the clarinet. As the pitch of the clarinet is fairly temperature-sensitive, some instruments have interchangeable barrels whose lengths vary slightly. Additional compensation for pitch variation and tuning can be made by pulling out the barrel and thus increasing the instrument's length, particularly common in group playing in which clarinets are tuned to other instruments (such as in an orchestra or concert band). Some performers use a plastic barrel with a thumbwheel that adjusts the barrel length. On basset horns and lower clarinets, the barrel is normally replaced by a curved metal neck.The main body of most clarinets is divided into the upper joint, the holes and most keys of which are operated by the left hand, and the lower joint with holes and most keys operated by the right hand. Some clarinets have a single joint: on some basset horns and larger clarinets the two joints are held together with a screw clamp and are usually not disassembled for storage. The left thumb operates both a tone hole and the register key. On some models of clarinet, such as many Albert system clarinets and increasingly some higher-end Böhm system clarinets, the register key is a 'wraparound' key, with the key on the back of the clarinet and the pad on the front. Advocates of the wraparound register key say it improves sound, and it is harder for moisture to accumulate in the tube beneath the pad. Nevertheless, there is a consensus among repair techs that this type of register key is harder to keep in adjustment, i.e., it is hard to have enough spring pressure to close the hole securely.
The body of a modern soprano clarinet is equipped with numerous tone holes of which seven (six front, one back) are covered with the fingertips, and the rest are opened or closed using a set of keys. These tone holes let the player produce every note of the chromatic scale. On alto and larger clarinets, and a few soprano clarinets, key-covered holes replace some or all finger holes. The most common system of keys was named the Böhm system by its designer Hyacinthe Klosé in honour of flute designer Theobald Böhm, but it is not the same as the Böhm system used on flutes. The other main system of keys is called the Oehler system and is used mostly in Germany and Austria (see History). The related Albert system is used by some jazz, klezmer, and eastern European folk musicians. The Albert and Oehler systems are both based on the early Mueller system.The cluster of keys at the bottom of the upper joint (protruding slightly beyond the cork of the joint) are known as the trill keys and are operated by the right hand. These give the player alternative fingerings that make it easy to play ornaments and trills. The entire weight of the smaller clarinets is supported by the right thumb behind the lower joint on what is called the thumb-rest. Basset horns and larger clarinets are supported with a neck strap or a floor peg.Finally, the flared end is known as the bell. Contrary to popular belief, the bell does not amplify the sound; rather, it improves the uniformity of the instrument's tone for the lowest notes in each register. For the other notes, the sound is produced almost entirely at the tone holes, and the bell is irrelevant. On basset horns and larger clarinets, the bell curves up and forward and is usually made of metal.
KeyworkTheobald Böhm did not directly invent the key system of the clarinet. Böhm was a flautist who created the key system that is now used for the transverse flute. Klosé and Buffet applied Böhm's system to the clarinet. Although the credit goes to those people, Böhm's name was given to that key system because it was based on that used for the flute.
The current Böhm key system consists of generally 6 rings, on the thumb, 1st, 2nd, 4th, 5th, and 6th holes, and a register key just above the thumb hole, easily accessible with the thumb. Above the 1st hole, there is a key that lifts two covers creating the note A in the throat register (high part of low register) of the clarinet. A key at the side of the instrument at the same height as the A key lifts only one of the two covers, producing G, a semitone lower. The A key can be used in conjunction solely with the register key to produce A/B.
LineageThe clarinet has its roots in the early single-reed instruments or hornpipes used in Ancient Greece, Ancient Egypt, Middle East, and Europe since the Middle Ages, such as the albogue, alboka, and double clarinet.
The modern clarinet developed from a Baroque instrument called the chalumeau. This instrument was similar to a recorder, but with a single-reed mouthpiece and a cylindrical bore. Lacking a register key, it was played mainly in its fundamental register, with a limited range of about one and a half octaves. It had eight finger holes, like a recorder, and two keys for its two highest notes. At this time, contrary to modern practice, the reed was placed in contact with the upper lip.
Around the turn of the 18th century, the chalumeau was modified by converting one of its keys into a register key to produce the first clarinet. This development is usually attributed to German instrument maker Johann Christoph Denner, though some have suggested his son Jacob Denner was the inventor. This instrument played well in the middle register with a loud, shrill sound, so it was given the name clarinetto meaning "little trumpet" (from clarino + -etto). Early clarinets did not play well in the lower register, so players continued to play the chalumeaux for low notes. As clarinets improved, the chalumeau fell into disuse, and these notes became known as the chalumeau register. Original Denner clarinets had two keys, and could play a chromatic scale, but various makers added more keys to get improved tuning, easier fingerings, and a slightly larger range. The classical clarinet of Mozart's day typically had eight finger holes and five keys.
Clarinets were soon accepted into orchestras. Later models had a mellower tone than the originals. Mozart (d. 1791) liked the sound of the clarinet (he considered its tone the closest in quality to the human voice) and wrote numerous pieces for the instrument., and by the time of Beethoven (c. 1800–1820), the clarinet was a standard fixture in the orchestra.
PadsThe next major development in the history of clarinet was the invention of the modern pad. Because early clarinets used felt pads to cover the tone holes, they leaked air. This required pad-covered holes to be kept to a minimum, restricting the number of notes the clarinet could play with good tone. In 1812, Iwan Müller, a Baltic German community-born clarinetist and inventor, developed a new type of pad that was covered in leather or fish bladder. It was airtight and let makers increase the number of pad-covered holes. Müller designed a new type of clarinet with seven finger holes and thirteen keys. This allowed the instrument to play in any key with near-equal ease. Over the course of the 19th-century, makers made many enhancements to Müller's clarinet, such as the Albert system and the Baermann system, all keeping the same basic design. Modern instruments may also have cork or synthetic pads.
Arrangement of keys and holes
The final development in the modern design of the clarinet used in most of the world today was introduced by Hyacinthe Klosé in 1839. He devised a different arrangement of keys and finger holes, which allow simpler fingering. It was inspired by the Boehm system developed for flutes by Theobald Böhm. Klosé was so impressed by Böhm's invention that he named his own system for clarinets the Boehm system, although it is different from the one used on flutes. This new system was slow to gain popularity but gradually became the standard, and today the Boehm system is used everywhere in the world except Germany and Austria. These countries still use a direct descendant of the Mueller clarinet known as the Oehler system clarinet. Also, some contemporary Dixieland players continue to use Albert system clarinets.
Other key systems have been developed, many built around modifications to the basic Böhm system: Full Böhm, Mazzeo, McIntyre, Benade NX, and the Reform Boehm system for example. Each of these addressed—and often improved—issues of particular "weak" tones, or simplified awkward fingerings, but none has caught on widely among players, and the Boehm system remains the standard, to date.
Usage and repertoire
Use of multiple clarinets
The modern orchestral standard of using soprano clarinets in B and A has to do partly with the history of the instrument and partly with acoustics, aesthetics, and economics. Before about 1800, due to the lack of airtight pads (see History), practical woodwinds could have only a few keys to control accidentals (notes outside their diatonic home scales). The low (chalumeau) register of the clarinet spans a twelfth (an octave plus a perfect fifth), so the clarinet needs keys/holes to produce all nineteen notes in this range. This involves more keywork than on instruments that "overblow" at the octave—oboes, flutes, bassoons, and saxophones, for example, which need only twelve notes before overblowing. Clarinets with few keys cannot therefore easily play chromatically, limiting any such instrument to a few closely related keys. For example, an eighteenth-century clarinet in C could be played in F, C, and G (and their relative minors) with good intonation, but with progressive difficulty and poorer intonation as the key moved away from this range. In contrast, for octave-overblowing instruments, an instrument in C with few keys could much more readily be played in any key. This problem was overcome by using three clarinets—in A, B, and C—so that early 19th-century music, which rarely strayed into the remote keys (five or six sharps or flats), could be played as follows: music in 5 to 2 sharps (B major to D major concert pitch) on A clarinet (D major to F major for the player), music in 1 sharp to 1 flat (G to F) on C clarinet, and music in 2 flats to 4 flats (B to A) on the B clarinet (C to B for the clarinetist). Difficult key signatures and numerous accidentals were thus largely avoided.
With the invention of the airtight pad, and as key technology improved and more keys were added to woodwinds, the need for clarinets in multiple keys was reduced. However, the use of multiple instruments in different keys persisted, with the three instruments in C, B, and A all used as specified by the composer.
The lower-pitched clarinets sound "mellower" (less bright), and the C clarinet—being the highest and therefore brightest of the three—fell out of favour as the other two could cover its range and their sound was considered better. While the clarinet in C began to fall out of general use around 1850, some composers continued to write C parts after this date, e.g., Bizet's Symphony in C (1855), Tchaikovsky's Symphony No. 2 (1872), Smetana's overture to The Bartered Bride (1866) and Má Vlast (1874), Dvořák's Slavonic Dance Op. 46, No. 1 (1878), Brahms' Symphony No. 4 (1885), Mahler's Symphony No. 6 (1906), and Richard Strauss deliberately reintroduced it} to take advantage of its brighter tone, as in Der Rosenkavalier (1911).
While technical improvements and an equal-tempered scale reduced the need for two clarinets, the technical difficulty of playing in remote keys persisted, and the A has thus remained a standard orchestral instrument. In addition, by the late 19th century, the orchestral clarinet repertoire contained so much music for clarinet in A that the disuse of this instrument was not practical. Attempts were made to standardise to the B instrument between 1930 and 1950 (e.g., tutors recommended learning routine transposition of orchestral A parts on the B clarinet, including solos written for A clarinet, and some manufacturers provided a low E on the B to match the range of the A), but this failed in the orchestral sphere.
Similarly there have been E and D instruments in the upper soprano range, B, A, and C instruments in the bass range, and so forth; but over time the E and B instruments have become predominant. The B instrument remains dominant in concert bands and jazz. B and C instruments are used in some ethnic traditions, such as klezmer.
In classical music, clarinets are part of standard orchestral and concert band instrumentation. The orchestra frequently includes two clarinetists playing individual parts—each player is usually equipped with a pair of standard clarinets in B and A, and clarinet parts commonly alternate between B and A instruments several times over the course of a piece, or less commonly, a movement (e.g., 1st movement Brahms' 3rd symphony). Clarinet sections grew larger during the last few decades of the 19th century, often employing a third clarinetist, an E or a bass clarinet. In the 20th century, composers such as Igor Stravinsky, Richard Strauss, Gustav Mahler, and Olivier Messiaen enlarged the clarinet section on occasion to up to nine players, employing many different clarinets including the E or D soprano clarinets, basset horn, alto clarinet, bass clarinet, and/or contrabass clarinet.
In concert bands, clarinets are an important part of the instrumentation. The E clarinet, B clarinet, alto clarinet, bass clarinet, and contra-alto/contrabass clarinet are commonly used in concert bands. Concert bands generally have multiple B clarinets; there are commonly 3 B clarinet parts with 2–3 players per part. There is generally only one player per part on the other clarinets. There are not always E clarinet, alto clarinet, and contra-alto clarinets/contrabass clarinet parts in concert band music, but all three are quite common.This practice of using a variety of clarinets to achieve coloristic variety was common in 20th-century classical music and continues today. However, many clarinetists and conductors prefer to play parts originally written for obscure instruments on B or E clarinets, which are often of better quality and more prevalent and accessible.
The clarinet is widely used as a solo instrument. The relatively late evolution of the clarinet (when compared to other orchestral woodwinds) has left solo repertoire from the Classical period and later, but few works from the Baroque era. Many clarinet concertos have been written to showcase the instrument, with the concerti by Mozart, Copland, and Weber being well known.
Many works of chamber music have also been written for the clarinet. Common combinations are:
JazzThe clarinet was originally a central instrument in jazz, beginning with the New Orleans players in the 1910s. It remained a signature instrument of jazz music through much of the big band era into the 1940s. American players Alphonse Picou, Larry Shields, Jimmie Noone, Johnny Dodds, and Sidney Bechet were all pioneers of the instrument in jazz. The B soprano was the most common instrument, but a few early jazz musicians such as Louis Nelson Delisle and Alcide Nunez preferred the C soprano, and many New Orleans jazz brass bands have used E soprano.
Swing clarinetists such as Benny Goodman, Artie Shaw, and Woody Herman led successful big bands and smaller groups from the 1930s onward. Duke Ellington, active from the 1920s to the 1970s, used the clarinet as lead instrument in his works, with several players of the instrument (Barney Bigard, Jimmy Hamilton, and Russell Procope) spending a significant portion of their careers in his orchestra. Harry Carney, primarily Ellington's baritone saxophonist, occasionally doubled on bass clarinet. Meanwhile, Pee Wee Russell had a long and successful career in small groups.
With the decline of the big bands' popularity in the late 1940s, the clarinet faded from its prominent position in jazz. By that time, an interest in Dixieland or traditional New Orleans jazz had revived; Pete Fountain was one of the best known performers in this genre. Bob Wilber, active since the 1950s, is a more eclectic jazz clarinetist, playing in several classic jazz styles. During the 1950s and 1960s, Britain underwent a surge in the popularity of what was termed 'Trad jazz'. In 1956 the British clarinetist Acker Bilk founded his own ensemble. Several singles recorded by Bilk reached the British pop charts, including the ballad "Stranger on the Shore".
The clarinet's place in the jazz ensemble was usurped by the saxophone, which projects a more powerful sound and uses a less complicated fingering system. The requirement for an increased speed of execution in modern jazz also did not favour the clarinet, but the clarinet did not entirely disappear. The clarinetist Stan Hasselgård made a transition from swing to bebop in the mid-1940s. A few players such as Buddy DeFranco, Tony Scott, and Jimmy Giuffre emerged during the 1950s playing bebop or other styles. A little later, Eric Dolphy (on bass clarinet), Perry Robinson, John Carter, Theo Jörgensmann, and others used the clarinet in free jazz. The French composer and clarinetist Jean-Christian Michel initiated a jazz-classical cross-over on the clarinet with the drummer Kenny Clarke.
In the U.S., the prominent players on the instrument since the 1980s have included Eddie Daniels, Don Byron, Marty Ehrlich, and others playing the clarinet in more contemporary contexts.
Other genresThe clarinet is uncommon, but not unheard of, in rock music. Jerry Martini played clarinet on Sly and the Family Stone's 1968 hit, "Dance to the Music"; Don Byron, a founder of the Black Rock Coalition who was a member of hard rock guitarist Vernon Reid's band, plays clarinet on the Mistaken Identity album (1996). The Beatles, Pink Floyd, Radiohead, Aerosmith, Billy Joel, and Tom Waits have also all used clarinet on occasion. A clarinet is prominently featured for two different solos in "Breakfast in America", the title song from the Supertramp album of the same name.
Clarinets feature prominently in klezmer music, which entails a distinctive style of playing. The use of quarter-tones requires a different embouchure. Some klezmer musicians prefer Albert system clarinets.
The popular Brazilian music styles of choro and samba use the clarinet. Prominent contemporary players include Paulo Moura, Naylor 'Proveta' Azevedo, Paulo Sérgio dos Santos, and Cuban born Paquito D'Rivera.
Even though it has been adopted recently in Albanian folklore (around the 18th century), the clarinet, or gërneta as it is called, is one of the most important instruments in Albania, especially in the central and southern areas. The clarinet plays a crucial role in saze (folk) ensembles that perform in weddings and other celebrations. It is worth mentioning that the kaba (an instrumental Albanian Isopolyphony included in UNESCO's intangible cultural heritage list) is characteristic of these ensembles. Prominent Albanian clarinet players include Selim Leskoviku, Gaqo Lena, Remzi Lela (Çobani), Laver Bariu (Ustai), and Nevruz Nure (Lulushi i Korçës).
The clarinet is prominent in Bulgarian wedding music also; it is an offshoot of Roma/Romani traditional music. Ivo Papazov is a well-known clarinetist in this genre. In Moravian dulcimer bands, the clarinet is usually the only wind instrument among string instruments.
In old-town folk music in North Macedonia (called čalgija ("чалгија")), the clarinet has the most important role in wedding music; clarinet solos mark the high point of dancing euphoria. One of the most renowned Macedonian clarinet players is Tale Ognenovski, who gained worldwide fame for his virtuosity.
In Greece, the clarinet (usually referred to as "κλαρίνο"—"clarino") is prominent in traditional music, especially in central, northwest, and northern Greece (Thessaly, Epirus, and Macedonia). The double-reed zurna was the dominant woodwind instrument before the clarinet arrived in the country, although many Greeks regard the clarinet as a native instrument. Traditional dance music, wedding music, and laments include a clarinet soloist and quite often improvisations. Petroloukas Chalkias is a famous clarinetist in this genre.
The instrument is equally famous in Turkey, especially the lower-pitched clarinet in G. The western European clarinet crossed via Turkey to Arabic music, where it is widely used in Arabic pop, especially if the intention of the arranger is to imitate the Turkish style.
Also in Turkish folk music, a clarinet-like woodwind instrument, the sipsi, is used. However, it is far more rare than the soprano clarinet and is mainly limited to folk music of the Aegean Region.
Groups of clarinets
Groups of clarinets playing together have become increasingly popular among clarinet enthusiasts in recent years. Common forms are:
Clarinet choirs and quartets often play arrangements of both classical and popular music, in addition to a body of literature specially written for a combination of clarinets by composers such as Arnold Cooke, Alfred Uhl, Lucien Caillet, and Václav Nelhýbel.
Extended family of clarinets
There is a family of many differently pitched clarinet types, some of which are very rare. The following are the most important sizes, from highest to lowest:EEE and BBB octocontra-alto and octocontrabass clarinets have also been built. There have also been soprano clarinets in C, A, and B with curved barrels and bells marketed under the names saxonette, claribel, and clariphon.