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Organist and Organbuilder, Jerome Meachen and Charles McManis: A Meeting of the Minds

R. E. Coleberd

R. E. Coleberd, an economist and retired petroleum industry executive, is a contributing editor of The Diapason. He is a director of The Reuter Organ Company.

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Introduction

In the following narrative, the interaction of an organist and an organbuilder in the design of a new instrument and selection of a builder is described in some detail by each of them. The organist, Jerome Meachen, an Oberlin and Union graduate, was organist/choirmaster of St. John’s Episcopal Church in Waterbury, Connecticut. In 1957 St. John’s, upon the recommendation of Meachen, acquired a 70-rank, three-manual McManis organ. It was followed, when he changed positions, by a 67-rank, three-manual at Redeemer Episcopal Church in Sarasota, Florida (completed in 1966), and in 1973, by a 49-rank, three-manual for Manatee Community College, Bradenton, Florida. The builder, Charles McManis, a trained organist who had apprenticed briefly with Walter Holtkamp before World War II, operated a small shop in Kansas City, Kansas. His skill in flue voicing would become widely recognized and acclaimed in a sixty-year career, which counted more than 125 new instruments and rebuilds.

The discussion highlights the steps in the evolution of their tonal philosophy. It was a process of listening, comparing and choosing sounds and stops in the quest for authenticity in the revolutionary epoch that characterized American organbuilding in the decades following World War II. Before their first meeting, Meachen had acquired a preference for non-legato playing while McManis had been taught the legato style. Despite this difference, the two men found common ground in their admiration and profound respect for the tonal work of William A. Johnson, a legendary nineteenth-century New England tracker builder, and his successors.

Background

The choice of a relatively unknown independent builder in 1956 was decidedly the exception for this era. In the 1950s, pipe organ building in America was the province of the integrated major builders who had controlled the market for new instruments since the turn of the century. M. P. Möller of Hagerstown, Maryland, the “General Motors” of the industry, with a force of more than 400 workers, delivered 365 instruments in 1928 and in the decade 1950-60, with perhaps 200 employees, built 125 organs per year.1 Other builders, those who had survived the drastic shakeout during the Great Depression of the 1930s, were likewise busy, with comparatively large work forces and lengthy backlogs.

In retrospect we might safely say the 1950s, though a vibrant decade, marked the beginning of the end of what could be termed the “commercial” era of organbuilding in America that extended back to the 1920s and perhaps even earlier. Builders, including such highly successful businessmen as Mathias Peter Möller, concentrated almost exclusively on production to meet the enormous market demand in all venues. Company executives, sons of the founder, not musicians, were largely unfamiliar with the great literature for the organ. Sadly, they scarcely comprehended the interface between Bach, Buxtehude and other composers and the subtleties and nuances of fine voicing and finishing in building the King of Instruments. Their instruments were often quite successful in the context of a “production organ,” with uniform and consistent voicing, thanks to the skills of talented shop voicers, but, in retrospect, they were perhaps lacking in artistic statement, which can come only from meticulous tonal finishing. On small organs there was virtually no concept of tonal finishing once the instrument was installed and tuned. Only with the large “signature” instruments was time scheduled for tonal finishing, for example by John Schleigh of Möller and Herb Pratt of Aeolian-Skinner.2

Yet the organ reform movement was underway and gaining momentum, beginning with the pathfinding efforts in the 1930s of E. Power Biggs, Melville Smith, King Covell and others. The major themes are well known: lower wind pressures, smaller scales and higher pitches in flue work and the introduction of chorus in place of solo reeds. A “vertical” tonal palette emerged, featuring a full range of pitches in place of the former “horizontal” palette, dominated by stops of 8-foot pitch. These elements combined in the cohesive blending of individual voices, and the emphasis on ensemble in the building of primary and secondary choruses as reflected in the work of Walter Holtkamp and G. Donald Harrison in the North German and American Classic paradigms.

Leaders in the organist profession, highly educated, widely traveled and well-read, people like Robert Noehren and Parvin Titus, were captivated by the new sounds and ensembles which awakened them to the instrument’s rich music from antiquity. They began paying close attention to European instruments, through travel and recordings, as well as 19th-century work of notable American builders (Hook, Erben, Johnson and others). They wisely looked beyond the stoplist and listened carefully to the sound. The reintroduction of the tracker instrument, first by European builders, followed by an emerging U.S. industry of small shops, reinforced the historic and intrinsic artistic value of the King of Instruments. Steady improvement in the tone quality of the electronic instruments soon spelled the end of the commodity segment of the pipe organ market rooted in the image of an organ as a utilitarian device in support of corporate worship.3

By the end of the century it was recognized that the heart and soul of a pipe organ, a work of art, is the tonal edifice, which begins with a vision and continues through design, voicing and tonal finishing of the instrument. These requirements were most often found in the combined talents of the tonal architect and skilled, dedicated artisans in his shop, seldom in one individual. Harrison, Holtkamp and Fisk, for example, were superb designers but were not voicers. Schopp, Pearson and Zajic were supremely talented reed voicers. But once in a while one individual comprised them all. George Michel of Kimball perhaps came close and, in the author’s judgment, Charles McManis fits this image.

In any revolutionary epoch, change in an established industry comes slowly and sometimes from the outside. American organbuilders, badly shaken by the lean years of the Great Depression and World War II, were to some degree insular, isolated and ingrown. On balance they were reluctant to abandon existing practices and slow to adopt new and untried techniques with unknown consequences. Voicers, trained in-house on high-pressure, wide-scale stops of 8-foot pitch, scarcely comprehended the new generation of flues and reeds. They and their superiors had been disinterested in historic instruments, American and European, which they viewed as antiquated and obsolete. But they could not ignore the revolutionary changes around them, and some firms wisely brought in outsiders--men like Richard Piper at Austin and Franklin Mitchell at Reuter--who were listening and eager to apply their ideas to new stoplists.

At the close of World War II, the demand for organ work far exceeded the supply of qualified people. Factories enjoyed lengthy backlogs and were hard pressed to meet production schedules. Service firms comprised primarily older men, former employees of firms who had failed in the Great Depression--for example, Syl Kohler in Louisville (Pilcher) and Ben Sperbeck and Milton Stannke in Rock Island (Bennett). Honest and hard working, they can best be described as mechanics; few had either voicing experience or any concept of a modern chorus or ensemble. This afforded an opportunity for a newcomer, a young man who had listened carefully, had a firm conviction of what pipe sound should be, and had acquired the voicing skills to bring the sound of a pipe to the tone quality he desired.

Jerome Meachen writes:

A native of Oklahoma City, I studied organ with Dana Lewis Griffin, a student of David McK. Williams at St. Bartholomew’s Episcopal Church on Park Avenue in New York City, and then enrolled at Oberlin College where my teachers were Leo Holden and Grigg Fountain. Holden was a 19th-century organ teacher--Rheinberger, romantic, and very happy with the E. M. Skinner organ in the chapel. His whole approach to organ playing was: “write down the fingering I give you and the registration I want you to use.” It was a very dry--and I felt antiquated--approach. In contrast, Fountain said: “select your own registration from what you hear, we will discuss it and you defend it.” This was essential to broadening my understanding of organ music and what I wanted to develop in my own touch on the instrument. While at Oberlin I practiced on the Johnson organ at Christ Episcopal Church in Oberlin courtesy of Arnold Blackburn, also on the Oberlin organ faculty. This awakened me to the beautiful voicing of this builder. Of course northeast Ohio was Holtkamp country. When I began studying with Fountain, my last two years, he had just obtained a Holtkamp at St. Paul’s Lutheran Church in Cleveland. While I was fascinated with the sounds of this instrument, I found it ear-shattering. I well remember one Saturday afternoon when I was practicing at St. Paul’s. Walter Holtkamp came in, climbed up on the Swell box and said play full organ. He just reveled in the volume, but I found that sort of sound excruciating.

A milestone in my career was a recital at Oberlin by Ernest White. I was fascinated by his approach, non-legato, in contrast to legato, which was the basic style at Oberlin. Legato evolved because of the acoustics organists had to deal with in American churches. Nothing happened after you took your finger off the note so you had to pull everything together.

After graduating from Oberlin I enrolled in the School of Sacred Music at Union Theological Seminary in New York City, where I arranged to study with Ernest White, then an adjunct faculty member. We shared a common interest in repertoire and liturgy. White had me listen to orchestral recordings of Mozart and commented: remember, “Bach was a violinist as well as an organist.” Bob Clark, another graduate student, and I found White way ahead of his time in non-legato sound, which broadens your understanding of the organ. This is the sound one finds in Europe and what we were striving for in America. Working with White was working with the literature and developing the capacity to do his particular style of non-legato in terms of liturgy, the Anglican approach and plainsong. This was very enlightening to me. I was fascinated by White’s approach to playing the studio organ at St. Mary the Virgin, the second studio instrument, this one by Möller. His technique was a detached sound, like the ringing of bells. Unfortunately, the voicing was so loud it was difficult to listen to. This alerted me to the distinction between intensity and decibels, a key distinction in my thinking. I was also intrigued by the design of the organ, which had a 32’ Cornet using individual stops and two Swell boxes providing two ensembles. This inspired the use of separate swell boxes and couplers for flues and reeds at St. John’s. My admiration for Johnson continued when I practiced on their instrument at the Mott Haven Dutch Reformed Church in the Bronx while at Union.4

Charles McManis writes:

As a pre-teenager in Kansas City in the 1920s, with my parents I often rode the streetcar to Independence Boulevard Christian Church to hear Sunday afternoon recitals by the legendary Hans Feil on the four-manual, 1910 Austin organ. In the 1930s while I was a student at the University of Kansas, I spent summers and holidays working with Peter E. Nielsen, a local serviceman, tuning and rebuilding pipe organs. Two of these instruments were Johnson trackers from the 1880s.5 They were especially impressive and were to influence fundamentally my concept of voicing.

Enrolling as a liberal arts major at the University of Kansas in Lawrence I became a student of University Organist Laurel Everette Anderson, an Oberlin master’s graduate who then studied for three years in Paris with Joseph Bonnet. He taught the legato method, and emphasized proper turning of phrases and making real music out of notes. He greatly expanded my knowledge of the pipe organ and emphasized nuances of color and singing quality in organ voices. Following graduation with an A.B. degree in 1936 and having already set my sights on becoming an organbuilder, I obtained a Mus.B. at KU in 1937, which required my playing an hour-long recital from memory. The thought occurred to me that I might be the first organbuilder who could play more than “Yankee Doodle” on what he had built.

I began my organbuilding career with a shop in the basement of my parents’ home. I rebuilt three organs and built one new instrument. My Opus 2, 1939--electrifying and adding nine ranks to a 1910 tubular-pneumatic Kilgen--is still playing in the Central Christian Church in Kansas City, Kansas. Then, having learned of his growing prominence in the organ reform movement, I apprenticed with Walter Holtkamp in Cleveland for a few months, eager to learn from him. I assisted with the installation of a three-manual Holtkamp organ at Olivet College in Michigan. It had Great and Positiv slider chests, but the Swell had ventil stop-action for want of sufficient space for a slider chest. When I compared the sounds of slider chest pipes and those on the ventil chest I was surprised to find that I could hear no difference. Walter’s instruments were visually well designed and beautiful to look at but, frankly, I was disappointed with his ensemble sound and tone quality. The voicing lacked a certain richness of tone. In checking Holtkamp pipes I noticed that he nicked only on the languids and not on the lower lips. As a result, pipes occasionally tended to emit an abnormal squeaking sound. He was not interested in building a truly classic organ as much as building a distinctive Holtkamp organ. In retrospect I find that I employed very few of Holtkamp’s ideas in my later work. Based on my background in music, I wasn’t hearing in his organs the sounds I wished to hear in my own instruments.

Following the attack on Pearl Harbor and the U.S. entry in World War II, I enlisted in the Army. Prior to shipment overseas my outfit was stationed at Camp Kilmer, New Jersey, for a few days. I went on pass to New York City to hear G. Donald Harrison’s new Aeolian-Skinner in the main sanctuary of St. Mary the Virgin Episcopal Church. This was my first acquaintance with mixtures and upperwork, which Laurel Anderson had talked about at KU, but which were conspicuously absent in the Austin organ in Hoch Auditorium there. Then, as a chaplain’s assistant, I was stationed in Europe where I took every opportunity to play and inspect European instruments. I remember, in particular, the famous Cavaillé-Coll instrument in the church of St. Ouen at Rouen, which inspired Guilmant’s Eighth Organ Symphony. This was the first time I had seen a five-rank mounted cornet and reeds with sunken blocks in the boots.6 After the war I returned to Kansas City, Kansas and set up shop again. On one occasion, being in New York City, I attended a recital given by Ernest White on his new Möller studio organ at the Church of St. Mary the Virgin. I left at intermission because the organ was painfully loud. In my voicing I try to make a rank of pipes only as loud as needed to ping the tone off the walls, blowing only hard enough to fill the room at the desired volume.7

Jerome: Following graduation from Union, I was appointed organist/choirmaster at St. John’s Episcopal Church in Waterbury, Connecticut. When we went looking for a new instrument to replace the 1869 Hook & Hastings, I wasn’t enamored with the sounds of Holtkamp, Möller, Schlicker and Austin, and mentioned my dilemma to my good friend Bob Clark, whose judgment I valued. He was organist at the Peddie Memorial Baptist Church in Newark, New Jersey, where my wife was soloist, having the best-paying solo position in the area, while I was at Union. He said, “Why don’t you check with Charles McManis, who builds organs that sing and don’t shout.” When I learned he was in Danbury, Connecticut, I went down to get acquainted, and we hit it off immediately.

Charles: In the early 1950s I became acquainted with Robert Noehren through our writings in The Diapason and The American Organist magazines. I worked for him on the Hill Auditorium Skinner in Ann Arbor, and built a new organ for Frankenmuth, Michigan, where he was the consultant. When he was named consultant on the Johnson at Emmanuel Lutheran Church in Danbury, Connecticut, whose organist had been his student at Michigan, I was called in. My strong feelings concerning Johnson flue pipe voicing began during my apprenticeship days in Kansas City. I discovered that diapason pipes mouth-blown very gently, then increased to full volume, had scarcely any change in pitch. Volume was regulated at the toe hole, not by opening the flue. In contrast, classical open toe voicing regulated volume at the mouth, which I found totally inadequate. I revoiced the 8-foot Principal, increasing its richness of tone, primarily by opening the toes and, to a lesser degree adjusting the mouths. Jerry and I connected as musicians, no doubt in part because I too had a degree in organ. We both agreed on what we didn’t like. I obtained the contract for the St. John’s, Waterbury, organ (see photo and stoplist) in part because Parvin Titus was the consultant. The St. John’s rector, Rev. John Youngblood, had been a curate in Cincinnati, knew Mr. Titus and trusted his judgment. Also, I had built the new instrument for the Second Church of Christ, Scientist in Dayton, where Titus also had been the consultant.

Jerome: The Johnson sound was already in my head, not only from Oberlin, but from the fine Johnson in Mott Haven Dutch Reformed Church in the Bronx, where I first practiced when I went to New York. I explained that we were looking for intensity not decibels in organ sound, colors and ensembles that sing. Charles showed me what he was doing. It was soon obvious this was just the ticket for us. These initial impressions were confirmed when my wife and I visited St. Paul’s Episcopal Church in Kansas City, Kansas, and heard for the first time a complete McManis instrument. All the voices were exquisite; the 8-foot principal was a well-supported, big baritone sound. Having worked in training choirs at an early age, striving to blend individual voices, I found in the lovely individual voices of this organ an exquisite ensemble and chorus.

Charles: When Jerry came to Kansas City, the mixtures and ensemble sounds on the Great and Swell at St. Paul’s were what really got to him. The voices together on each manual resulted in contrasting sounds but very much related. We talked at length about voicing and drew up a specification for a three-manual instrument for St. John’s. (See specification.) I also discussed what I had done in reworking old pipes and changing pitch. This was very important because in the 1869 Hook & Hastings at St. John’s a number of old ranks were reworked.

I first saw Waterbury after Meachen returned from Kansas City, and was dismayed to find dry acoustics and such terribly large scales in the Hook & Hastings. The only principal stop I could use was the 16-foot on the Great, which would work well in the Pedal division. We were able to cut down and revoice a number of 8-foot stops; for example, the 4-foot principal on the Swell had been an 8-foot violin diapason. If the scale and mouth treatment were correct, the desired sound would follow.

Let me quote from my forthcoming autobiography to explain the tonal philosophy of this instrument: “The classic Werkprinzip theory of terraced manual pitches had not yet hit the AGO cocktail hour conversation when Jerry and I drew up the design for Opus 35 (St. John’s Church Waterbury, CT) on that Sunday afternoon. Submitted to organ consultant Parvin Titus, he heartily approved of the design, but suggested inclusion of the rather outstanding Oboe from the 1869 H&H. But back to the Werkprinzip! While numerous other stops are needed in each division, the backbone is the Principal chorus, as shown below:

I:              Great     8’ Principal       11/3’      Mixture

II:            Swell    4’ Principal        2/3’       Scharf

III:          Brustwerk           2’ Principal        1/3’       Cymbel

Pedal     8’ Principal       11/3’     Mixture

For purposes of contrapuntal clarity, the Pedal chorus should be the same pitch as the Great, plus suitable 16’ underpinning. Polyphony does better without the growl of a sub-octave mixture cluster.”

After the tornado hit downtown Waterbury in July, 1989, heavily damaging the St. John’s organ, I replaced 35 ranks of pipes including replacement of the Brustwerk Singend Regal with a brass Krummhorn and substitution of a Swell 4’ Clarion for the earlier 4’ Krummhorn. Also, the 32’ extension of the Pedal reed was linked to the Posaune instead of the Contrafagotto.

Jerome: Another factor which impressed me about the McManis was its compatibility with what I call a theatre sound by which I mean, it had to dance. In the theatre organ you had a detached pedal and a strong emphasis on the melodic line when you are thinking bass line and melody. This is why I was very comfortable doing figured bases. It was non-legato; it was instrumental. When you were featuring the posthorn, you were quite willing to detach it. My father loved theatre organ, so from the time I started playing, I developed something of a theatre style. Searle Wright, the well-known organist at St. Paul’s Chapel, Columbia University, also did a great theatre style.

Charles inspired my definition of intensity because he viewed the entire instrument as a whole. In a three-manual you could draw the principal and mixture on each division, couple them together and you had a basic ensemble evoking a very intense, rich but not very loud sound because you didn’t have to fill in and thus did not have an awful lot of stops working. Thus the concept of full organ was very discriminating; the full organ piston didn’t bring on everything. You are dealing with colors and when you put everything on you end up with brown or gray. And with a tremolo on each division if you wanted to cantus firmus you could do it anywhere in the instrument.

This instrument fulfills my belief in the theological aspect of an organ. With my developing interest in liturgy I was very much aware of the person in the pew. I hold that the organ must be people-friendly, in support of congregational singing whether it be chant or hymnody. Surrounding rather than hitting the congregation with sound--making a joyful noise, not just a noise. Charles spoke of attending a recital on the Möller practice organ at St. Mary the Virgin in New York and finding it so loud he left after the first half of the program. I agree. White offered me a chance to practice on that organ but I told him I would be using only one or two stops so I might as well practice on the chapel organ. The sound was so high in decibels I couldn’t hear it.

Redeemer and Manatee

This paper has focused on the St. John’s organ. Those at Redeemer Episcopal Church and Manatee Community College continued the fundamental practices in the philosophy of McManis and Meachen. They also reflected modifications and forward thinking in their approach, as did the rebuilding and restoration of St. John’s in 1989.

At Redeemer in Florida, the former ten-rank Möller, with its subsequent addition of nineteen Aeolian-Skinner ranks, was skillfully integrated into the 67-rank new instrument. In place of the 16’ Quintaton on the Great, they chose a 16’ Gemshorn mounted on the chancel wall, extended to an 8’ Gemshorn and a 4’ tapered flute in a seamless tonal progression. The Great and Positiv exposed chests were equipped with toeboard expansion chambers to increase richness of tone.

The 49-rank Manatee Community College organ was installed in Neel Auditorium at the point of a pie-shaped building on a 35-foot shelf at the back of the stage. In an obviously “werkprinzip” layout (see photo, page 20), in a variety of shapes, it was enclosed in a mahogany case. The 16’ Pedal Principal exposed at the center hid the movement of Swell shutters behind. To its left were the lower notes of the 16’ Subbass and 16’ Posaune; to the right, the pipes of the Hooded Trumpet and more Subbass metal pipes. To the far left in the left façade was the Great 8’ Principal, and to the far right the 4’ Positiv Principal in the façade. Roofs of the façades differed but all were related to the focal point mentioned above.

The Manatee Great included a 16’ Gemshorn, all the usual 8’ and 4’ stops, plus a normal 11/3’ Mixture, a 2/3’ Acuta, and an 8’ Trumpet. The Swell mixture was a 1’ Scharf and the Positiv had a 1/3’ Cymbel. The thoroughly adequate Pedal division included a 32’ Dulzian and the usual 8’ and 4’ ranks. As would be expected, the Pedal mixture lowest pitch was 11/3’, but pipe scales were larger than those of the Great Mixture.

Summary

The above dialogue illustrates the way in which the concept of organ sound in the mind of an organist and soon-to-be builder begins with formal study of the instrument and is heavily influenced by the instructor and his experience. With this background, they are then prepared to compare and contrast a wide variety of sound in determining their own definition of it: for Meachen and McManis, a singing sound. It also argues that the ultimate test of the voicer’s art, be it Johnson or McManis, is the 8’ Diapason found on the Great, a belief shared by organists and builders for many years.

In an article in The Diapason, based upon his lecture to the AIO Convention in Pittsburgh in 1977, McManis explains the details of flue voicing and the practices of Tannenberg, Gratian, Kilgen, Hook & Hastings, Johnson, Wurlitzer, Estey (William E. Haskell), Cavaillé-Coll, and Kimball.8 This paper, now considered a classic, together with the recognition of his peers in his selection as instructor in flue voicing at a seminar of the American Institute of Organbuilders, established him, in the author’s judgment, as one of the finest flue voicers of the twentieth century.9

Charles passed away, at age 91, on December 3, 2004 in South Burlington, Vermont. Providentially, he and his wife Judith had just completed his autobiography. It contains vivid recollections of personalities and detailed descriptions of his instruments in a sixty-year career that spanned the arc of the postwar history of organbuilding in America. This priceless volume is scheduled to be published by the Organ Historical Society in 2005. It will find a prominent place on the shelf of every organist, organbuilder and organ enthusiast.

For research assistance and critical comments on drafts of this paper, the author gratefully acknowledges: Gene Bedient, Jerry Dawson, Charles Eames, Donald Gillette, Albert Neutel, Barbara Owen, Michael Quimby, Elizabeth Schmidt, Jack Sievert and R. E. Wagner.

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Steuart Goodwin: Organbuilder

R. E. Coleberd

R. E. Coleberd is a contributing editor to The Diapason.

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Introduction

Pipe organ building in America today, as portrayed in the music media, is described exclusively as the crafting of new instruments, some with mechanical action and nearly all with carved or gilded cases. This is understandable given the news value of new instruments, but it is nonetheless unfortunate because it ignores a vital segment of organbuilding today: the restoration, rebuilding, refurbishing, updating, and modernizing of existing instruments as well as the building of new instruments from recycled and new material. This activity is primarily the work of individuals and small firms, unsung heroes in the spectrum of organbuilding today. Their work is especially important for two reasons: it speaks to the ongoing primacy of the King of Instruments as the time-honored musical medium in a house of worship, and the determination of congregations, recognizing this fact, to preserve and promote the pipe organ for present and future generations.
In 1966 the author published, in these pages, “The Place of the Small Builder in the American Organ Industry.” His comment that the independent builder “may well assume increasing importance in the future of the pipe organ and the organ industry”1 was perhaps prophetic of the situation today. In many ways this narrative is a continuation and update of that article. Forty years ago the pipe organ industry was dominated by the major builders, whose work accounted for 80% of the new instruments in a market where the discarding and replacement of older instruments was a major portion of the work. Today the situation is vastly different. The market is now only a shadow of its former self. Several major builders have folded, unable to continue under greatly diminished factory production; buyers have welcomed the electronic instrument amid drastically diminished mainline church membership and budgets; and the academic market, with certain notable exceptions, is gone because colleges and universities are market-driven and direct capital resources to enrollment demand.
Yet, organbuilding continues, and pipe organs will always be built in this country and the world over. An important segment of this effort, now demanding recognition, is the work of talented individuals, working alone and in collaboration with other artisans, to craft instruments of singular artistic merit in accordance with public recognition today that a pipe organ is a work of art and the work of an artist. In a statement in 1966 prophetic of the situation today, Robert J. Reich, founder and now retired president of the Andover Organ Company, an early participant in the tracker organ revival in America, stated his philosophy of organbuilding as “the craftsman’s approach to construction and the musician’s approach to tone.”2 Musical interest and skill begin early and often with other instruments, while craftsmanship is acquired through formal and informal training.
This article describes the career of D. Steuart Goodwin: the experiences and individuals who shaped his philosophy of organbuilding, details of several instruments in his opus list, and his contemporary voicing and tonal finishing assignments. Steuart has won the admiration and respect of organ committees, organists, and builders as evidenced by his assignments across the country. Jack Bethards, president of Schoenstein Organbuilders, calls Goodwin a genius:

There is no other way to explain his brilliance in so many fields. Steuart combines the well-honed skill of a master craftsman with the cultivated taste and sensitivity of a fine artist. He has a real gift for design both visual and tonal. He is a musician through and through. His touch with pipes is magical. With ease and efficiency, he can bring the best musical quality out of just about any set of pipes.3

Said Manuel Rosales of Rosales Organbuilders:

My friend and colleague Steuart Goodwin is a rare individual, whose organ building talents combine great skill, good taste, and economy of resources. He is equally at home with visual design, tonal finishing, and hands-on organbuilding. His love of the craft is exemplified by the warm and inviting sounds of his new instruments and many revoicing projects. He and his work continue to be a source of personal and professional inspiration for me, his coworkers, and his clients.4

Early life and education

Donald Steuart Goodwin, Jr. was born on April 9, 1942 in Riverside, California, the son of a building contractor who sang in college musical productions, and a sometime public school teacher and housewife who taught piano privately.5 His grandfather, Phillip Goodwin, taught violin in Redlands, California, and played in a string quartet. Steuart’s folks met at the University of Redlands, a Baptist liberal arts college long known for its fine musical program. Arthur Poister taught organ there in the 1920s when a celebrated four-manual, 54-rank Casavant organ, recently restored and updated, was installed in Memorial Chapel. The organ program at Redlands is primarily associated with Leslie Spelman (1903–2000), a nationally known teacher and pedagogue who joined the faculty in 1937.6
Steuart’s musical interests began early; his 96-year-old mother recalls that he could carry a tune at the age of two. He began cornet lessons in the fourth grade and enrolled in the band at Lincoln School in Riverside. He recalls as a youngster asking his mother about the Estey pipe organ in the family’s Methodist church, but what really turned him on was when, at the age of fourteen, he and his father saw Disney’s 20,000 Leagues under the Sea and heard Captain Nemo play Bach’s Toccata and Fugue in D minor. “I went home and played my older sister Jane’s recording over and over, checked out books at the library on organbuilding, and from that time on I was permanently ‘hooked’,” he says.7
Eager to study organ, Steuart approached Roberta Bitgood, organist at Calvary Presbyterian Church in Riverside, who had studied organ with Clarence Dickinson and who was later national president of the AGO. She suggested he begin with a year of piano instruction, which he did, before studying with her for two years, in the 11th and 12th grades.8 While in high school, his future organbuilding career began when he installed a three-rank Robert Morton theatre organ in his family’s garage. His theatre organ interest continued and became part of his work.
In 1959 he matriculated in the music program at the University of Redlands, majoring in composition under Wayne Bohrnstedt, having already written two chorale preludes for organ and a sonata for woodwind quintet. He sang in the University Choir his freshman year and played in the concert band all four years. In 1961, his sophomore year, he won the $800 first prize in the Forest Lawn Foundation Writing Awards Contest with an essay entitled, “The Organ Builder Finds His Place.”9 During Goodwin’s junior year, the band director persuaded three trumpeters to switch to French horn, which was a wise move for Steuart as he went on to play horn for 13 seasons in the University-Community Symphony—until it was converted to all union professionals.10 In recent years he has played French horn in a woodwind quintet and in the Redlands Fourth of July Band.
Goodwin studied organ at Redlands with Raymond Boese (1924–1988), who came to Redlands in 1961 to join his former teacher and now colleague Leslie Spelman in the music department.11 By his junior year, Steuart had become dissatisfied with the Wicks, Harry Hall (New Haven), and Robert Morton practice organs on campus, all dated and woefully inadequate for modern pedagogy and performance. He convinced the school that they needed a tracker instrument, having been listening avidly to recordings by E. Power Biggs playing and narrating tracker organs in Europe. Scouring classified ads in The Diapason, he found an 1870s George Stevens (Cambridge) instrument for sale by Nelson Barden.12 After months of negotiating with school officials, the parties reached an agreement, whereby the school would pay for the instrument and shipping, and Goodwin would install it in Watchorn Hall. In gratitude for this effort, the school awarded him three credits toward graduation.13 Steuart’s senior recital at Redlands, featuring his own compositions, included a Trio for horn, violin and piano, a Quintet for woodwinds, a Sonata for organ, and a Suite for brass.14 He graduated with a bachelor’s degree in music in 1964.
During this period he built a small organ with paper pipes on which he could play a Haydn clock piece (see photos). Then, in a remarkable coincidence, E. Power Biggs played a recital on the Casavant in the Redlands chapel. Goodwin showed him the paper-pipes organ, and Biggs, unprompted, played that particular Haydn piece on it. Recognizing Steuart’s interest and promise, Biggs suggested that he apply for a Fulbright scholarship to study organbuilding in Europe. In his letter of recommendation to the Institute of International Education, Biggs wrote:

Steuart Goodwin has the possibly-unusual wish to study organ building in Europe, preferably in the center of fine organs, old and new, which is Holland. . . . I cannot think of anyone who would be more qualified for a Fulbright grant than Steuart Goodwin, nor anyone who could make better use of the opportunity. Already at Redlands he has proved his theoretical grasp of the subject, and his ability to transform ideas into action, and practical results.”15

The choice for the Fulbright year abroad for Goodwin, 1964–65, was between Flentrop and von Beckerath. He chose Flentrop because most Hollanders speak English, and his German was very limited. His experience was mixed, probably unlike that of most Fulbright scholars, he comments. He was assigned to the pipe shop where he acquired pipemaking skills, but he had a brief run-in with Mr. Flentrop. Inadvertently interrupting a conference while trying to introduce himself, he was subsequently ushered into the maestro’s office and severely scolded. “If we had been Germans you would have been thrown out immediately,” Flentrop said, adding, “you can stay here if you will simply work in the pipe shop and keep quiet. Try to observe the Dutch boys and behave as they do.”16 This meant never asking questions—asking questions was unheard of for an apprentice. He was never allowed to see the company woodworking shop in Koog an de Zaan. He did, however, make several sets of pipes for the Rugwerk division of the large four-manual Flentrop instrument in St. Mark’s Episcopal Cathedral in Seattle.
At the end of his Flentrop sojourn, Goodwin met with Dr. Martin Vente, internationally renowned organ historian and scholar, who provided him with a map locating important Dutch organs nearby. He spent several days traveling by train and bicycle to see many of them. The one that deeply impressed him and would greatly influence his emerging tonal philosophy and mark his work today was at the Oude Kerk in Amsterdam, ironically dismissed by Flentrop as too romantic.17 “I suffered something of a cognitive dissonance over this, since Flentrop represented the Neo-Baroque ideal espoused by Biggs,” Steuart comments. “I was supposed to like the Baroque, but found myself more deeply moved by the 19th-century voluptuousness of this instrument.”18
Returning from Holland, he opened a small shop in San Bernardino, soon welcoming an opportunity to move to a larger, well-equipped facility nearby, the former Fletcher Planing Mill, whose owner was retiring. There he built three small tracker organs and rebuilt two. Opus 1, a six-rank, two-manual tracker for the Fine Arts building at the University of Redlands, was originally purchased by the organ professor, Raymond Boese. He sold his interest to the university, which paid Steuart a nominal sum and traded him the Hall and Morton instruments. The stoplist comprised a Gemshorn 8' and Principal 2' on Manual I, a Gedeckt 8' and Rohrflute 4' on Manual II, and a 16' Bourdon and 4' Choral Bass on the Pedal, plus the usual couplers. His Opus 2, 1972, was an 11-rank, two-manual tracker for the Fourth Ward Mormon Church in Riverside. In 1973 he built Opus 3, a one-manual, four-rank rental organ. This instrument was used at the Memorial Chapel, University of Redlands, for the Feast of Lights one year, and has been rented by the Ambassador Auditorium and by the Los Angeles Philharmonic and Chamber Orchestras for use in the Dorothy Chandler Pavilion and Hollywood Bowl. It is now in a home in Altadena.19 Reflecting on Opus 1 and 2, he describes this period as his Biggs, Flentrop, Schlicker days and says:

In each of these first two small organs there was to be only one independent eight-foot rank on the Great. It needed to work as an accompanimental sound as well as the foundation for a small principal chorus. At St. Bavo in Holland, I had heard an unforgettably warm tapered hybrid stop called ‘Barpijp,’ which inspired me to use a Gemshorn instead of a less flexible Principal or Stopped Flute. I experimented with using Gemshorns in a Swell division, but soon grew out of that and came to greatly prefer real string tone.20

During this long period of apprenticeship including travel, reading, talking with organists and organbuilders, and perhaps most importantly listening—to records and instruments—his philosophy of organbuilding and tonal ideals were taking shape, and he made certain fundamental decisions about the direction of his emerging career. He determined that he wanted to work individually, expressing his own artistic concepts, free from the constraints of established large builders where opinions differ, compromises are often the rule, and mimicking some academic paradigm or current fashion is required. His primary goal became to achieve “a certain populist sensibility when it comes to providing what will please congregations and audiences.”21 “Many times I have wondered whether to stay [in Redlands], but if I were to work for a nationally known organ builder, I would lose the independence I have here,” he told the San Bernardino Sun-Telegram in 1978.22 And as he told columnist Nelda Stuck of the Redlands Daily Facts in 1987, “There is no area of music I can think of where there are so many factions and arguments about style,” referring to Baroque vs. Romantic pipe organs and tracker vs. electro-pneumatic action.23

Trinity Episcopal Church

Opus 4, an instrument in which he takes particular pride, illustrates the scope of Goodwin’s early work and evidences his talents in voicing and case designs: the 35-rank, 31 speaking stops, three-manual tracker in Trinity Episcopal Church, Redlands, California. Originally built in 1853 by the prominent New York City builder George Jardine for the First Presbyterian Church in Rome, New York, it was acquired by St. Michael’s Ukrainian Catholic Church in Rome in 1908, where it was rebuilt by C. E. Morey of Utica, New York. Meanwhile, Trinity Church in Redlands installed a three-manual Austin, Opus 111, in 1904.24
The Jardine-Morey organ was acquired through the Organ Clearing House, and over a period of 19 months was rebuilt, together with parts of the Austin, as an eclectic instrument combining 802 original and 838 new pipes for a total of 1640 (see 1975 stoplist). This project illustrates the amalgamation of older and new material into an instrument of singular artistic merit. Through a vision of what these two instruments together could and should be, Goodwin was able to “see” how the skilful blending of solo and foundation stops would produce vibrant and colorful choruses and ensembles. This organ fulfills Goodwin’s conviction that there has to be a visual-sonic relationship, i.e., a relationship between what you see and what you hear (see photos). “A pipe organ should be capable of choruses, amalgams of many tones from many pipes, producing a rich, subtly infused musical statement,” he told Dennis Tristram, a reporter for the Riverside Daily Press newspaper.25
In an arched nave opening three lancet arches were formed of oak and filled with 15 newly painted and stenciled dummy pipes retained from the Austin façade. Trinity Church has been described as an example of 19th-century Anglo-American architecture, which led to the chancel case design that Steuart based on the case at Peterborough Cathedral in England designed by Arthur George Hill (1857–1923), described as one of the great Victorian organ builders.26
During the construction of this organ Steuart joined the choir, and ultimately became confirmed as a member of the church. This has provided an unusual opportunity for the builder to repeatedly update and modify the instrument over many years, both tonally and mechanically. The large single bellows was replaced a number of years ago with individual regulators for each division, resulting in steadier wind and the possibility of divisional tremulants. More recently electric stop and combination actions were installed, several ranks were added and others moved around, giving the organ more scope and a more English flavor (see 2004 stoplist).

Tonal evolution

Goodwin’s work is especially noteworthy because it represents the crafting of instruments embracing the required resources in tonal families and pitches capable of performing the great music of antiquity as well as today’s requirements, but one that is free from the strident and narrow definitions of Baroque, Neo-Baroque, North German, South German, or American Classic stoplists, scales, wind pressures, and voicing. These eclectic instruments, beginning with the work of individual artisans and small shops, have influenced a new style of organs, free from the prejudices against stops that in the 1950s were considered “old hat” and indicative of an obsolete organ that should be replaced. Formerly verboten stops—the Melodia, Cornopean, Harmonic Flute, and Vox Humana, for example—are now recognized for their intrinsic musical content and are often embraced without hesitation by many builders who incorporate them in their instruments, confident of their ongoing musical value. This approach extends to the use of wooden flue work and open flutes, a defining characteristic of American organbuilding from the very beginning, but largely eschewed in the 1950s in favor of metal ranks and tapered, half-tapered, stopped, and chimneyed stops.
Steuart’s Opus 5 was a restoration for St. Mark’s Episcopal Church in Upland, California, of E. & G. G. Hook & Hastings’ Opus 734, 1873, formerly located in the First Baptist Church in Bloomington, Illinois. Opus 6 is a four-rank, two-manual house organ, featuring an ornate case and suspended action (see photo).27 This is an early example of an elaborate 18th-century case as built by the Dutch and Germans and pioneered by John Brombaugh in America at a time when the European builders were building modern cases in this country. In 1978, in a brief detour from mechanical action, Steuart built a two-manual, six-rank unit organ with electric action for the United Methodist Church in Yucaipa, California. “I never built another unit organ for a church,” he comments. “I am enthusiastic about the unit principle for a theatre organ, but you can easily overdo it in church work if you are concerned about good tone.”28
In 1978, David Dixon, who met Manuel Rosales at Schlicker in Buffalo and who became his partner in Los Angeles (and who later returned to Schlicker before his untimely death at an early age), approached Steuart about working for them, which he elected to do. He assisted in their introduction to tracker work, in designing cases, traded organ philosophy with Manuel, and acquired some refinements in voicing technique from Dixon.
Opus 8, a 13-rank, two-manual electropneumatic action organ for the First Baptist Church in Colton, California in 1979, marked a major milestone in Goodwin’s tonal philosophy, and contains elements that characterize his later work. In earlier years he was interested in tracker action, but over time came to believe that even 11 ranks (Opus 2, Fourth Ward Chapel, L.D.S. Church, Riverside) in a tracker aren’t very flexible. He became convinced of the value of a unit Gedeckt stop, which he first used in Colton and subsequently on several 12- or 13-rank instruments (see stoplists for Colton and St. George’s Episcopal Church). He began searching for a small, flexible church organ design, and the unit Gedeckt was part of the answer. “I hit upon it almost by accident while contemplating for Colton how to best use a couple of pitman chests incorporating one unit chest,”29 he comments, adding:
“The concept begins, as usual, with a complete principal chorus, 8' through mixture, on the Great. Next, on the Swell, I use a pair of strings (real string tone, not hybrids), a medium-bright Trumpet, and (where space and finances permit) a 4' Principal or Fugara. Budgetary concerns generally limit independent pedal ranks to the ubiquitous 16' Bourdon. The Great also contains an open metal flute, which, in the Colton prototype, was originally part of an Aeolian house organ. The pipes looked ridiculous to one brought up on Neo-Baroque ideals. The heavily nicked mouths were cut-up two-thirds in a half circle, and, yet, when you blew on them they were magically beautiful. I began to realize that you couldn’t depend on what other people said was good, you had to trust your own ears.
“The 85 to 97 pipes of a Lieblich Gedeckt are located on a unit chest in the Swell box. This rank is made available at three pitches on the Great, six on the Swell, and four to six pitches on the Pedal. Importantly, the Gedeckt stop tabs on each division are grouped together to the right of the straight stops and couplers, and they are not affected by the couplers.
“This arrangement makes the structure of the tonal design quickly apparent to an organist, while simultaneously making registration practically goof-proof. For instance, it is impossible to mix the derived mutations on the Swell with the principal chorus on the Great. I settled on the Lieblich Gedeckt for the one unified rank because it blends well at all pitches and because the pitch-beats caused by an equal-tempered rank used at mutation pitches are only barely discernible.
“In an organ of only 12 or 13 ranks, one can make dozens of useful combinations and build ensembles suggesting a much larger instrument. For instance, on the Pedal the 51⁄3' through 2' pitches—when used with the Great chorus coupled—reinforce the 16' line and create the impression that there is a Pedal mixture. A solo Cornet effect can be registered as follows: couple the string and celeste to the Great and silence them on the Swell using the Unison Off. Then set a solo combination of Gedeckt pitches such as 8', 4', 22⁄3' and 13⁄5' on the Swell (tremulant optional).
“The point of all this is to provide excellent sound and unusual flexibility in a small church organ design. To keep these organs even more affordable, we incorporate many used parts and pipes. A brand new console shell is hardly a necessity when so many are available used. I like to put the money where it counts the most—in careful voicing and tonal finishing, new electronic relays, and high quality visual designs.”30
The discovery of the Aeolian open metal flute, quixotically called Flute Piano (apparently for people barely musical and certainly not organists) was to mark a milestone in Goodwin’s career. Placed in the Great of his instrument in Colton, it proved to be of such great value as both a solo and ensemble stop that it led him to incorporate 8¢ open flutes on that division routinely. Most instruments, having a Chimney Flute on the Great and Gedeckt on the Swell, don’t have the flexibility of an open 8' flute, an important color in his judgment, adding, “I voice it quietly in the bass and midrange and somewhat ascendant from middle C up so one rank can be used three ways: as an accompaniment stop in the left hand, a solo stop in the treble and a lighter foundation than a Diapason in a Principal chorus.”31
Perhaps the most impressive example is found at Holy Cross Church in Santa Cruz, California. Built in 1889 on the site of one of the famous Spanish Missions, Holy Cross is an imposing neo-Gothic brick building with splendid acoustics. Starting with a 13-rank A. B. Felgemaker tracker obtained through Alan Laufman and the Organ Clearing House, Goodwin added 10 ranks including an open metal flute, two mixtures, two chorus reeds and a string celeste (see before and after stoplists above right, and photo on page 28).
In 1995, Steuart installed his Opus 15, a remarkably cohesive two-manual and pedal organ of 12 ranks, featuring the unit Gedeckt and the 8' open flute discussed above in St. George’s Episcopal Church, Riverside (see stoplist on page 26, and photo left). The striking white oak case is accented with bronze moldings and padouk wood stripes.32

Voicing and tonal finishing

In 1980 Steuart became associated with the Schoenstein firm in San Francisco, which marked still another chapter in his career, one that would grow and distinguish his work today. He worked closely with Jack Bethards, Schoenstein president, in the major renovation of the epic Aeolian-Skinner organ in the Mormon Tabernacle in Salt Lake City, where he did most of the flue voicing. Bethards does extensive consulting coast-to-coast, and when he concludes that the major problem with an organ is inferior tonal work, he often recommends Steuart, who, working with his assistant Wendell Ballantyne, has had nationwide assignments: New York, Georgia, Texas, and North Carolina. Reworking an older instrument almost always begins with a sensitive new organist, and one job leads to another. This work typically involves removing sizzle and chiff, increasing foundation tone, repitching a mixture with new breaks, and replacing unsuitable pipes. With his fine reputation as a voicer and finisher, when prospects hear his work, they want the same thing. For example, Steuart’s current work at the Covenant Presbyterian Church in Charlotte, North Carolina, is the direct result of his work at Myers Park Baptist Church there. Goodwin’s recent theatre work includes voicing, in collaboration with Lynn Larsen, a large theatre and romantic instrument in the home of Adrian Phillips in Phoenix, Arizona, and completing a mostly seven-rank Wurlitzer organ in his own home in Highland. His much admired tonal work on the epic four-manual, 26-rank Wurlitzer in Plummer Auditorium, Fullerton, led to his election to the governing board of the Orange County Theatre Organ Society.33

Summary

In a varied career marked by many accomplishments, Steuart Goodwin represents the individual organbuilder, working alone or in collaboration with others, a vital segment in the spectrum of organbuilding in America today. Long neglected but deserving of greater recognition, the work of these persons may well assume greater significance in the future of the trade and the instrument. Beginning with a rich musical background, often both instrumental and vocal, which continues, they acquire the knowledge and skills of building the pipe organ through travel, reading, observation and apprenticeship. In their deep commitment to the King of Instruments, they gladly sacrifice more lucrative occupations. Today and tomorrow, amid the manifold and far-reaching changes in our culture, the majestic pipe organ is recognized as a work of art and the work of an artist. There can be no better example of this truth than the life and work of Steuart Goodwin.
 

Steuart Goodwin & Co. Opus List

1. 1970. Two-manual, six-rank tracker practice organ. Now in home of Dr. Harold Knight in Dallas, Texas.
2. 1972. Two-manual, 11-rank tracker, 4th Ward, Church of Jesus Christ of Latter-day Saints, Riverside, California.
3. 1974. One-manual, four-rank portable rental organ. Now in home of Bruce and Mary Elgin, Altadena, California.
4. 1976. Three-manual, 35-rank tracker, Trinity Episcopal Church, Redlands, California. With components of an 1852 Jardine from Rome, New York, obtained through the Organ Clearing House.
5. 1977. Two-manual, 17-rank tracker, St. Mark’s Episcopal Church, Upland, California. Rebuild of E. & G. G. Hook & Hastings #734, 1873, obtained through the Organ Clearing House.
6. 1978. Two-manual, four-rank practice organ in the home of Frances Olson, Mount Baldy Village, California.
7. 1978. Two-manual, six-rank unit organ, now in St. John’s Episcopal Church, Corona, California.
8. 1979. Two-manual, 13-rank electro-pneumatic, First Baptist Church, Colton, California.
9. 1984. Two-manual, 13-rank tracker, Our Lady of the Rosary Cathedral, San Bernardino, California. Rebuild of Moller #1701, 1913, obtained through the Organ Clearing House.
10. 1988. Two-manual, 23-rank tracker, Holy Cross Church, Santa Cruz, California. Based on A. B. Felgemaker #506, 1889, enlarged and considerably modified visually and tonally.
11. 1991. Two-manual, 11-rank, electric action, Stake Center, Church of Jesus Christ of Latter-day Saints, Simi Valley, California. Incorporates many pipes and parts of Moller #5482, 1928, obtained through the Organ Clearing House.
12. 1992. Two-manual, 13-rank electro-pneumatic, Fontana Community Church, Fontana, California. Incorporates console and many pipes from the church’s 1920s Spencer organ.
13. 1993. Three-manual, 38-rank, electric slider chests, First Christian Church, Pomona, California. Extensive tonal revisions. Based on Hook & Hastings #2240 with prior modifications and additions by Ken Simpson and Abbott & Sieker.
14. 1995. Two-manual, 19-rank, electric and electro-pneumatic, St. Timothy Lutheran Church, Lakewood, California.
15. 1995. Two-manual, 12-rank, electro-pneumatic, St. George’s Episcopal Church, Riverside, California.

Other work

The tonal finishing team of Steuart Goodwin and Wendell Ballantyne has done extensive work on organs in California, Georgia, North Carolina, New York, Texas and Utah.
Steuart has worked on many case design and voicing projects with Rosales Organbuilders and Schoenstein & Co. For photographs and details visit .
For research input and critical comments on earlier drafts of this paper, the author gratefully acknowledges: Edward Ballantyne, Jack Bethards, Ken W. List, Albert Neutel, Donald Olson, Michael Quimby, Robert Reich, Manuel Rosales, Jack Sievert, and R. E. Wagner.

New Organs

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Cover

Buzard Pipe
Organ Builders, Champaign, Illinois

Opus 29,
completed November, 2003

All Saints
Episcopal Church, Atlanta, Georgia

Some years ago I was contacted about a new organ for All Saints Episcopal
Church by the assistant organist, Jefferson McConnaughey. We seemed to be
speaking the same language concerning how we thought organs should sound, and I
was eager to meet him, music directors Ray and Elizabeth Chenault, and to visit
the church. Our conversations were put on hold while the parish called a new
rector and undertook other projects. At the time we were blessed with
commissions to build the organ at St. Paul's Episcopal Cathedral, Oklahoma
City, and large instruments for Glenview Community Church (III/71) and Holy
Family Catholic Church of Rockford, Illinois (III/56).

A few years went by, and I was invited to visit the church. Judging from the
size of the instrument under discussion, I expected to enter a huge space.
Instead, the church was more modest than vast, the acoustic more understated
than generous. At first blush, it seemed that 40 stops could have adequately
met their needs. But, no real lady ever gives up all her secrets at once, and
so I patiently looked and listened.

I listened to their former instrument while walking around the room, and
observed the acoustical phenomena under which the musicians had been laboring
for so long. The organ, although installed in the chancel in relatively close
proximity to the congregation, diminished drastically in volume in the nave. I
concluded that a part of the organ had to be installed in the body of the
church, to support singing and "pull" the sound out of the main part
of the organ installed in the chancel. Additionally, sound generated in the
nave lost its energy quickly; sound simply didn't travel well without becoming
garbled.

The musicians wanted to be able to properly register an organ to
"text-paint" Anglican Chant, choral anthems and ceremonial music in
the Anglican musical tradition. They needed a wide variety of accompanimental
tone colors at every dynamic level so that the organ could always support the
singers, even at pianissimo volume levels. It was equally important that the
organ musically render the great body of organ literature, even that of the
French Baroque school, of which Mr. McConnaughey seemed quite fond. And, the
Chenaults are duo organists; the literature which has been (and has yet to be)
commissioned for them had to be accommodated. This requires a large organ, as
coloristic stops outside the component voices for the essential choruses had to
be included and integrated into the design. Fortunately, these stops were never
in competition for space or funding, nor were our classic concepts of the
hierarchical scaling of divisions within the instrument ever compromised. Some
specific organs were studied: The Temple Church, London; King's College,
Cambridge; and St. Paul's Cathedral, London.

There is a beautiful chapel behind the Epistle side choir stalls, at 90
degrees to the axis of the church, which also serves as an overflow room on
Sundays. Worshippers there were relegated to viewing services on a small
closed-circuit TV, and could not participate in the hymn-singing because, being
outside the body of the church, they couldn't hear the organ. If the new organ
were to address and meet all the musical and acoustical requirements of the
church, then the chapel also needed to have some pipes in it, so that those
seated there could feel a part of the worshiping community.

All of these requirements were brought to bear upon a single instrument. Yes,
I agreed, this instrument has to be large--very large. Even if the room seats
only 550 souls, the musical and physical requirements dictated an organ of a
size which one might initially think out of proportion.

The position and installation of the new Main Organ was relatively
straightforward. The Great, Swell, Choir, Tuba, and Pedal would have to be
installed in the chancel, in an enlarged version of their existing chamber,
plus spaces created by cantilevering steel platforms into the chancel space on
both Epistle and Gospel sides.

The antiphonal division, a romantic Solo Organ including a Diapason Chorus
which mirrors the Great, had to be installed in the nave. But there was no
floor space for cases, no desire to see columns, and windows everywhere, many
of them signed by Louis Comfort Tiffany. By clever engineering of the diatonic
windchest layouts (which we had first used at St. Paul's Cathedral in Oklahoma
City) we were able to tuck the Solo Organ cases up in the rafters of the church
above the narthex, on either side of a central great window. By creative use of
perspective, we were able to engineer the location of the supporting steel
platforms so that they wouldn't block the view of the Tiffany windows in the
side aisles, yet give us sufficient height for the pipes inside the cases.

As conversations concerning the tonal design took shape, Ray, Elizabeth, and
Jeff fell in love with our tonal style which, while embracing eclecticism, has
its own unique personality. They visited both our large organs, and Jeff
actually played Sunday services on our Opus 7 organ at The Chapel of St. John
the Divine in my wife Linda's stead. The All Saints organ is a very logical
outgrowth of our style as practiced in our smaller organs, and as our two
larger organs have led us. The humble beginnings of Opus 7 at the Chapel, in
which we made 29 stops into a cathedral organ, can be seen all over this much
larger organ. Well-informed national and historical inspirations are
distributed throughout, so that the whole is at unity with itself. No German
Hauptwerk, French Récit or English Chair Organs for us. For example the
Great includes the mature English practice of 8' First & Second Open
Diapasons, married nicely to the French Fonds d'Orgue. A voluptuous Full English
Swell has continental fire by virtue of the authentic (but modified) French
reed battery, but the lyrical soft solo reed is a plaintive English Oboe. No
quirky nomenclature either. Although rooted in 19th-century English practice of
"Diapason, Principal, Twelfth, Fifteenth," etc., the stops in our
organs are what they say they are. If the Swell reed is spelled
"Trompette," you can be assured that you will hear a Trumpet with
French shallots and pipe construction.

The Great is based upon a 16' Double Open Diapason of tin which stands
proudly in the Gospel side case along with the rest of the division. A complete
Diapason chorus through Mixture, flutes at 8' & 4', and a Viola da Gamba
make up the flue work, and the reeds are Trombas, brought up to the manuals from
the Pedal Trombone. The Mixture breaks at octaves, rather than at fifth
intervals. In this way, one doesn't hear alternating unison and fifths playing
as the top rank, and the breaks are virtually unheard.

The Great also incorporates an harmonic corroborating stop which was more at
home in English and American concert organs of the early part of the last
century. Our four-rank Harmonic Mixture has in it a unison, a quint, a tierce,
and a flat-seventh. These are all the harmonics present in Tromba class reeds,
which are on the Great at 8' and 4' pitches. We originally included the
Harmonic Mixture as a way to prevent the dark Trombas from covering the
brightness of the mixture work in full organ, but have found that when used
sans Trombas, the ancient flavor of 18th-century Dutch organs is perceived in
an uncanny way. One could even imagine the wind to be unsteady--but of course
it's not!

The Solo has a Diapason Chorus nearly mirroring the Great, and despite its
distance from the Main Organ, it can exactly balance the Great Plenum in
certain contexts. The Solo contains a pair of E. M. Skinner-inspired Gambas,
the celesting rank in the case across the church from its unison pair. Now
that's a Celeste! The Flügel Horn, while a lyrical romantic solo reed, has
just enough harmonic interest to function beautifully as a chorus reed. The
Bassett Horn is certainly at home playing obbligato parts in Elgar, but has
just enough Cromorne in it to play Daquin with a French nose in the air.

One can use the Choir in a classic context, as a Positiv when a lighter foil
to the Great is desired. But this division is the real choral accompanying
workhorse. It's one of the most elegant, light, but profound Choir divisions we
have created. The Choir features a flute chorus from 16' up, and a proper
Diapason chorus complete with a four-rank quint mixture, a fifth interval
higher than the Great. But the luxurious feature in this day and age is our
Dulciana Chorus, which includes a three-rank mixture in which the 4' enters
early on at tenor C. Our Dulcianas are truly small Diapasons, and there is
nothing like the effect of accompanying voices with Diapason color, but at such
a soft volume. The Dulciana Mixture has many uses in coloring and painting
texts, 90% of which I would never have envisioned. Our Cornopeans are
small-scaled, but fundamental Trumpets as the original prototypes were, not the
horn-like Cornopeans one would otherwise love to hate. The Clarinet is truly of
English style, and the English Horn is orchestral in color with enough body to
be the foundation of the Choir reed battery, yet enough jazz in the color to
differentiate itself from the more fundamental Swell English Oboe.

The Chapel Organ includes a small-scaled Diapason Chorus at 8' and 4' to
lead the hymn-singing, and an 8' Aeoline and Vox Angelica. These very, very
soft string-toned stops allow the worshippers there to feel connected, and also
provide a powerfully effective pianissimo "wrap-around" effect as the
softest sounds concluding a smooth decrescendo. These little strings can just
be barely heard in the nave as the expression box closes on the Solo Flute
Cœlestis. When they play alone, they are literally in another room, off in
the distance.

In the All Saints organ, the Great, Swell, Choir, Solo, and a portion of the
Pedal divisions play upon 4 inches of wind pressure. The Trombones and Trombas
play upon 7 inches of wind, the Solo Festival Trumpets on 6 inches, and the
Major Tuba plays upon 20 inches of wind. The Tuba is housed in its own
expression box, and the organist can easily select which expression shoe may be
used to operate the Tuba's expression (or whether it is to remain open) by a
simple rotary switch. We aim to expand the color and dynamic range of the pipe
organ, while keeping the console controls simple and straightforward.

Before I was selected as their builder, Ray, Elizabeth, and Jeff charged me
to design the perfect instrument for all their requirements, and they would
undertake the responsibility of presenting this plan to the organ committee to
get their reaction, and see if the instrument would have to suffer at the hands
of "value engineers." Although my past experience made me somewhat
timid about presenting such a large (expensive) instrument as part of a
selection competition, we arrived at the specification of 63 straight speaking
stops, 87 ranks of pipes (5229 pipes overall), in five free-standing cases
throughout their church.

I will never forget the evening of a crucial organ committee meeting when I
received an excited telephone call from Ray. The musicians presented the
proposal and the room fell silent. People on the committee asked questions to
the effect: "Now, do all three of you musicians agree on this builder? Do
all three of you agree with each other in every respect to this instrument?"
When the answer was an emphatic yes, a committee member said: "How many
times do musicians agree with each other about anything, let alone every of the
many thousands of details in this organ's design!? This is what we need for All
Saints, and we need John-Paul to build it for us." A member of the
committee, Sarah Kennedy, later wrote a check for the entire project, in loving
memory and in honor of her family, The Kenans.

The organs' visual designs were developed during August and September of
2001. The first draft of the Chapel Organ's design was revised to be more in
keeping with the modern nature of the chapel (and less like King's College,
Cambridge). The Main Organ and the Solo Organs were built according to my first
pen-and-ink renderings.

All of my design drawings are executed by hand. The discipline of cleaning
the drafting table and truing the parallel bars and 90-degree instruments
contributes to clearing my mind of everything except what I need to think about
for the organ on the blank piece of paper.

It is always my goal to design organ cases which appear as though they had
always been in the church. The All Saints cases use shapes and colors found
throughout the room, and mirror the restrained nature of the Victorian Gothic
design. But the cases become vivid, exciting, and dramatic by incorporation of
the fabulous red enamel and gold leaf adorning the church's clerestory. The
inclusion of the red gave me license to add contracting pieces of red-stained
Honduras mahogany in the stained white oak cases. The soaring nature of the
Solo Organs, as their lines ascend while moving toward the great window, seemed
to cry out for heraldic angels, announcing the Great Day of Judgment on
gold-leafed trumpets. Thanks to parishioner David Foerster for making these
possible.

All of us will remember exactly where we were on 9/11. I was at the drafting
table finishing the designs for the Main Organ cases. I had penciled the
drawing the day before and was preparing to ink the drawing when I heard the
news reports. My entire staff came up to the drafting room and we all went to
the conference area where a small television showed us the horrors unfold as
the second airliner smashed into the second building. As we heard a large
airplane overhead, being sent to land at our local airport, I was asked if we
were going to close for the day. I said, no. We had to go about our task of
making beautiful things, especially in light of the ugliness that visited
itself on our country that day. If we wanted to take time off individually to
mourn our country's losses, go with my blessing, but the doors would remain
open and I would continue to draw a beautiful pair of pipe organ cases.

I set to cleaning out my India ink pens, and put on a CD of The English
Anthem II
from St. Paul's Cathedral,
London.

Oh Lord, look down from heaven, and behold the habitation
of Thy holiness and of Thy glory: Where is Thy zeal and Thy strength? Thy
mercies towards me, are they restrained?

My deepest thanks to the musicians at All Saints Church, everyone on the
organ committee, Greg Kellison, chairman; Paul Elliott, the rector; David
Foerster, and Sarah Kennedy for selecting me and my firm for this tremendous
commission.

My overwhelming gratitude goes to the members of my staff whose hard work
and dedication made such an excellent instrument so sublime: Charles Eames,
executive vice president, general manager and chief engineer; Brian K. Davis,
associate tonal director; Keith Williams, service department director; Shayne
Tippett, shop manager; Jay Salmon, office manager; Evan Rench, pipe maker,
voicer; Steve Downes, tonal assistant; C. Robert Leach, cabinetmaker; Stuart
Martin, cabinetmaker; Kenneth McCabe, winding systems; Ray Wiggs, consoles,
windchests; Robert Ference, service technician; Stuart Weber, service
technician; Jonathan Borchardt, service technician; JoAnne Hutchcraft Rench,
receptionist.

--John-Paul Buzard

GREAT (4-inch wind pressure)

Manual II - unenclosed pipework

16' Double Open Diapason

8' First Open Diapason

8' Second Open Diapason (ext 16')

8' Viola da Gamba

8' Harmonic Flute

8' Bourdon

4' Principal

4' Spire Flute

22/3' Twelfth

2' Fifteenth

2' Fourniture V

13/5' Harmonic Mixture IV

16' Double Trumpet

8' Trombas (ext Ped)

4' Clarion (ext Ped)

Tremulant

Chimes

8' Major Tuba (20" wind)

8' Tuba Solo (melody coupler)

8' Fanfare Trumpets (Solo)

SWELL (4-inch wind pressure)

Manual III - enclosed and expressive

8' Open Diapason

8' Stopped Diapason

8' Salicional

8' Voix Celeste

4' Principal

4' Harmonic Flute

22/3' Nazard

2' Flageolet

13/5' Tierce

22/3' Full Mixture V

16' Bassoon

8' Trompette

8' Oboe

8' Vox Humana

4' Clarion (ext 16')

Tremulant

8' Major Tuba (Gt)

8' Fanfare Trumpets (Solo)

CHOIR (4-inch wind pressure)

Manual I - enclosed and expressive

16' Lieblich Gedeckt (wood)

8' English Open Diapason

8' Flûte à Bibéron

8' Gedeckt Flute (ext 16')

8' Dulciana

8' Unda Maris

4' Principal

4' Koppel Flute

2' Recorder

2' Mixture III–IV (Dulcianas)

11/3' Fourniture IV

Sesquialtera II (22/3' & 13/5')

16' English Horn

8' Cornopean

8' Clarinet

Tremulant

Cymbalstern (14 bells)

8' Major Tuba (Gt)

8' Fanfare Trumpets (Solo)

Harp (digital)

Celesta (digital)

ANTIPHONAL SOLO (4- & 51/2-inch wind)

Manual IV - in twin cases over the narthex (expressive)

8' Open Diapason

8' Viola da Gamba

8' Gamba Celeste (CC)

8' Melodia

8' Flute Cœlestis II (Ludwigtone)

4' Principal

4' Flûte d'Amour

2' Doublette

11/3' Mixture IV

8' Flügel Horn

8' Corno di Bassetto

Tremulant

Cymbalstern (8 bells)

Chimes (Gt)

8' Fanfare Trumpets

8' Major Tuba (Gt)

Harp (digital)

Celesta (digital)

PEDAL (various wind pressures)

32' Double Open Diapason (digital)

32' Subbass (digital)

32' Lieblich Gedeckt (Ch, digital)

16' First Open Diapason

16' Second Open Diapason (Gt)

16' Bourdon

16' Lieblich Gedeckt (Ch)

8' Principal

8' Bass Flute (ext 16' Bourdon)

8' Gedeckt Flute (ext 16' Lieblich)

4' Choral Bass

4' Open Flute (ext 16' Bourdon)

22/3' Mixture IV

32' Contra Trombone (wood)

16' Trombone (wood, ext 32')

16' Double Trumpet (Gt)

16' Bassoon (Sw)

8' Trumpet (ext 16')

4' Clarion (Sw)

8' Major Tuba (Gt)

8' Fanfare Trumpets (Solo)

CHAPEL (4-inch wind, floating)

8' Open Diapason

8' Aeoline

8' Vox Angelica (tc)

4' Principal

Chapel on Great

Chapel on Swell

Chapel on Choir

Chapel on Solo

Chapel on Pedal

Intraddivisional couplers

Gt/Gt 16-UO-4

Sw/Sw 16-UO-4

Ch/Ch 16-UO-4

Solo/Solo 16-UO-4

Interdivisional couplers

Gt/Ped 8, 4

Sw/Ped 8, 4

Ch/Ped 8, 4

Solo/Ped 8, 4

Sw/Gt 16, 8, 4

Ch/Gt 16, 8, 4

Solo/Gt 16, 8, 4

Sw/Ch 16, 8, 4

Solo/Ch 16, 8, 4

Pedal Stops to Divisional Pistons


The Wicks Organ Company, Highland,
Illinois has built a new organ for the Barrington United Methodist Church,
Barrington, Illinois. In 1999 the church building was destroyed by fire. Their
losses included a 41-rank Möller pipe organ, which had been rebuilt as
recently as 1988. As planning for their new building began, the search for a
new pipe organ started. The church’s demands for their new organ were
that it had to be a great congregational organ, but also able to perform for
recitals as well. The sanctuary was to be a top-notch performance facility as
well as a place of worship. The church desired an organ of 3 manuals and 5
divisions, including an antiphonal. Each division was to have a principal
chorus, and the foundations of the Great organ were to be exposed.

The church committee heard many styles of instruments built by Wicks over
the last seven decades. This included, a North German neo-Baroque style
instrument, a symphonic organ scaled and designed by Henry V. Willis, an
American Classic, and an Aeolian instrument from the 1920s that had been
rebuilt by the Wicks Organ Company in conjunction with Mr. Madison Lindsey. The
service playing abilities of each instrument were demonstrated to the
committee, and they identified and found themselves drawn to the
English/symphonic style of the rebuilt Aeolian instrument. The organ committee
chose Wicks over several other builders after hearing several new Wicks
installations and the company ‘s recent success in exactly this style of
instrument.

The completed organ is described as an English service organ with orchestral
capabilities. The instrument is able to not only provide a seamless crescendo
from ppp to fff, but can do it with flair. In addition to service music, the
organ is able to perform every possible type of organ literature from the
Renaissance to the present. It is also able to realize orchestral
transcriptions with great skill, thanks to the presence of many orchestral solo
stops in each division, blending choruses, and 2-inch thick beveled and overlapping
felted shades. The completed organ consists of 24 ranks of pipes and 25 digital
voices. The Wicks design team pre-engineered space to accommodate real pipe
ranks to replace these voices. The Swell is on 7 inches of wind, the Pedal 10
inches; the Choir and Great are on 6 inches, with the exception of the
Clarinet, English Horn, and Tuba in the choir, which are all on 10 inches.

The solo reeds of this organ are of a unique style, derived from the
Willis/Wicks style reeds used in many Wicks organs over the decades, married to
the traditional ideas of Skinner solo reeds. The end results were clear,
smooth, stops of unique color and great versatility throughout the compass. The
greatest asset to the organ is the lively acoustical environment of the sanctuary.
The collaboration of the building committee, acousticians Kirkegaard &
Associates of Chicago, and the Wicks Organ Company have resulted in a
beautiful, successful combination of organ and room.

The console is drawknob style with 45-degree side jambs, a glass music rack,
and P&S keys with ivory resin naturals and ebony sharps. The drawknobs are
made of polished hardwood. Made of red oak, the interior is very light and the
exterior is stained to match the woodwork of the chancel furnishings. The console
features a tilt tab that allows the digital Tuba and Festival Trumpet to
emanate from the antiphonal division located in the rear of the church instead
of their native divisions. The console also has a Manual I/II transfer for
French literature.

Installation of Opus 6412 began in August of 2003, and an initial tonal
finishing and adjustment of digital voices took place in early September. After
the church’s dedication, Wicks tonal director Dr. William Hamner and reed
voicer Greg Caldwell completed an entire tonal finishing.

--Brent Johnson

Great (exposed)

16’ Violone*

8’ First Open Diapason

8’ Second Open Diapason

8’ Violoncello

8’ Harmonic Flute (Ch)

4’ Principal

4’ Flute Octaviante

2’ Fifteenth

IV Full Mixture

8’ Chorus Tuba (Ch)

8’ Festival Trumpet* (Ant)

8’ Tuba Mirabilis* (Ant)

Chimes* (Ant)

Swell (expressive)

16’ Minor Bourdon*

8’ Open Diapason

8’ Stopped Diapason*

8’ Viola*

8’ Viola Celeste*

8’ Flauto Dolce*

8’ Flute Celeste*

4’ Octave Diapason

4’ Triangular Flute*

22/3’ Nazard*

2’ Recorder*

13/5’ Tierce*

IV Plein Jeu

16’ Waldhorn*

8’ Cornopean

8’ Oboe*

4’ Clarion

8’ Festival Trumpet* (Ant)

8’ Tuba Mirabilis* (Ant)

Tremolo

Choir (expressive)

8’ Geigen (1-12*)

8’ Concert Flute

8’ Dolcan*

8’ Dolcan Celeste*

4’ Octave Geigen

4’ Transverse Flute

2’ Harmonic Piccolo

16’ Bass Clarinet

8’ Clarinet

8’ English Horn

8’ French Horn*

8’ Festival Trumpet* (Ant)

8’ Tuba Mirabilis* (Ant)

8’ Chorus Tuba

Tremolo

Harp*

Antiphonal (unenclosed - floating) (prepared)

8’ Festival Trumpet*

8’ Tuba Mirabilis*

Chimes*

Antiphonal Pedal (prepared)

Pedal

32’ Contre Bourdon*

16’ Open Wood

16’ Major Bourdon

16’ Violone* (Gt)

16’ Minor Bourdon* (Sw)

8’ Principal

8’ Flute

8’ Stopped Flute

4’ Octave

4’ Harmonic Flute (Gt)

32’ Ophicleide*

16’ Trombone (1–12*)

16’ Waldhorn (Sw)

8’ Tromba

8’ Trumpet (Sw)

4’ Oboe (Sw)

7-bell zimbelstern

*= Digital Voices

New Organs

Default

Cover Feature

Kegg Pipe
Organ Builders, Hartville, Ohio

First United
Methodist Church, Winnsboro, North Carolina

In an organ builder's life there come projects that for one reason or
another always remain close to one's heart. First United Methodist Church of
Winnsboro, South Carolina, is one such project. From the first contact by
consultant Stephen Williams of Allentown, Pennsylvania, to the final day of
tonal finishing, this project was and continues to be a delight to the eye, the
ear, and the heart of this builder.

The organ committee, headed by Jim Gladden, had one goal in mind: to have a
fine instrument that would serve the congregation in all its needs through the
21st century. The room is not large, seating about 300. The acoustic is on the
dry side, but sound travels well in the room. They knew that they did not need
or have room for a large instrument, but they desired an instrument that gave
them maximum musical versatility. Our design has provided them an instrument of
16 ranks and 13 independent stops. These ranks are used carefully to provide an
instrument that seems larger than it is. The previous Estey organ provided
three wood stops that fit well into the new design, namely the Gedeckt,
Hohlflute and Pedal Bourdon. There are no electronic imitation voices in the
organ.

There are several features of particular note in the design. The organ is
installed in a very compact space. I wanted to provide a 16' open flue stop,
and the Viole extension done in Haskell pipes has proven very valuable while
taking up little space. It provides the soft 16' line when used alone and also
adds point to the 16' Bourdon when used in combination. Its use as a double on
the Great adds just the amount of weight needed in a modest room. In order to
provide a strong leading voice in the organ, we have provided a Sesquialtera on
the Great; this is a 37-note stop running from C13 to C49. The pipes of the
22/3' pitch are taken from the bottom 37 pipes of the first rank of the
Mixture. Thus the Sesquialtera only requires the extra space for the small
pipes of the 13/5' rank. This stop can easily lead hymn singing when built
using the principal chorus. When built using flutes, it is a charming solo
voice.

Another feature that furthers the reputation of organ builders as innovators
is the air conditioning ducts. The previous organ had large A/C grilles
directly on the front of the case, blowing out over the heads of the choir
members. These had to stay and were not negotiable in the deep South, and being
a chorister myself, I could completely understand the request. But what to do?
I couldn't have grilles on the new case, or so I thought. Another look at the
case and you will find that there are indeed A/C grilles on the front in the
form of quatrefoils just below the impost.

This organ is installed in the existing chamber that opens out through the
right of three arches. The space available was 6' deep, 13' wide at the front
and 16' wide at the back. The height of the chamber went above the opening creating
a tone pocket that would hinder sound egress. The solution was to build a swell
box in the chamber, eliminating the excess space above the tone opening and
with it the tone pocket. The entire organ is under one expression except the
Great Principal 8', the Pedal Bourdon 16' and the chimes. While the organ is
very dense in the space available, all parts and pipes are easily accessible
for tuning and maintenance. The largest pipes of the wood Pedal Bourdon are
laying on the floor under the main chest. The blower is in a dedicated space in
the basement under the organ.

The stepped terrace drawknob console is what we normally provide with our
two-manual organs. It is very compact and easy to see over, and is fitted with
bone and rosewood keys as is our custom. The combination system by Z-Tronics
provides piston range and copy functions along with archive of memory levels to
disk. There is also a performance sequencer.

The organ was dedicated in concert on November 10, 2002 by consultant
Stephen Williams. I would like to acknowledge the organ committee chaired by
Jim Gladden, organist Esther Baughman, and Al Williams, without whom this
project would not have been possible. The people of First United Methodist
Church embraced the new organ from beginning to end in a way that brought
uncommon joy to the Kegg company. We were indeed honored to have been chosen.
We would invite you to stop and see this instrument when you find yourself in
the Charlotte or Columbia area.

--Charles Kegg

GREAT

9
ranks, 6 stops, 549 pipes

16' Violone
style='mso-tab-count:1'>
73 pipes

8' Prestant*
style='mso-tab-count:2'>
61
pipes

8' Hohlflute
style='mso-tab-count:2'>
73
existing pipes

8' Viole
(ext 16' Violone)

8' Viole
Celeste TC (Sw)

4' Octave
61
pipes

4' Gedeckt
(Sw)

2' Flute
(ext Hohlflute)

II Sesquialtera
style='mso-tab-count:1'>
37
pipes & from Mixture

IV Mixture
style='mso-tab-count:1'>
244 pipes

8' Trumpet
(Sw)

Chimes
(existing)

Great
4

Swell
to Great 16

Swell
to Great 8

Swell
to Great 4

*Unenclosed

SWELL

6
ranks, 6 stops, 390 pipes

8' Gedeckt
style='mso-tab-count:2'>
73
existing pipes

8' Viole
(Gt Violone)

8' Viole
Celeste TC 49
pipes

4' Principal
style='mso-tab-count:2'>
73
pipes

4' Hohlflute
(Gt)

22/3' Nazard
TC (ext Quinte)

2' Octave
(ext 4')

11/3' Quinte
49
pipes

16' Contra
Trumpet 85
pipes

8' Trumpet
(ext)

8' Oboe
style='mso-tab-count:2'>
61
pipes

4' Clarion
(ext)

Tremulant

Swell
to Swell 16

Swell
Unison Off

Swell
to Swell 4

PEDAL

1
rank, 1 stop, 44 pipes

32' Resultant
(from Bourdon)

16' Bourdon
style='mso-tab-count:2'>
44
existing pipes

16' Violone
(Gt)

8' Prestant
(Gt)

8' Bourdon
(ext)

8' Viole
(Gt)

8' Gedeckt
(Sw)

4' Octave
(Gt 8')

16' Trumpet
(Sw)

8' Trumpet
(Sw)

4' Oboe
(Sw)

Great
to Pedal 8

Great
to Pedal 4

Swell
to Pedal 8

Swell
to Pedal 4

Tonal Resources

13
stops

16
ranks

983
pipes

Accessories

Expression
Pedal with indicator

Dual
level Crescendo Pedal with numeric ndicator

Concave
and radiating pedal clavier

Adjustable
Bench

Full
Organ indicator light

Combination
lock with indicator

Transposer

Performance
Sequencer

Photo credit: Charles Kegg

Kegg Pipe Organ Builders

1184 Woodland St. SW

Hartville, OH 44632

330/966-2499

www.keggorgan.com

Muller Pipe Organ Company, Croton, Ohio

First English
Lutheran Church, Mansfield, Ohio

Muller Pipe Organ Company has completed installation of the III/50 organ at
the First English Lutheran Church of Mansfield, Ohio. M. P. Möller
installed the original organ in 1950 (Opus 7997), and made tonal additions in
1961. In the 1980s, minor stopgap repairs were completed, and the Great 8'
Principal and 4' Octave ranks were replaced. In recent years, the condition of
the windchests and console had deteriorated nearly to the point of failure.

In addition to the new pipework, select ranks of the existing pipework were
restored, then revoiced and rebalanced to serve in new capacities within the
ensemble of the new instrument. The Great Organ now features a robust principal
chorus of new pipework, a full complement of flutes and strings, and a fiery
Trompette. The Swell Organ boasts a secondary principal chorus and a battery of
chorus reeds. The Choir Organ is both the most intimate and most colorful
division of the instrument, containing a flute-based Cornet and the sonorous
Clarinet from the original organ. The Antiphonal Organ (the Great principal
chorus in the original instrument) helps support congregational singing for
those seated in the rear of the nave. Due to its relatively poor placement,
this pipework was substantially revoiced and regulated to speak on much higher
wind pressure to insure adequate volume. The Pedal Organ, with its independent
principal chorus and powerful Posaune, provides an exciting foundation for the
instrument. From the softest stops to full organ, the instrument is versatile
and exciting, a wonderful example of the American Classic tradition.

The church completed significant renovations to the chancel area while work
was in progress at our facility. The new area is much more flexible, providing
a suitable space for orchestras or large choirs. Acoustics were improved by
replacing the plush carpeting in the chancel with hardwood flooring. In
addition, substantially improved tonal projection was achieved by removing the
original plaster wall that served as the front of the organ chamber and
replacing it with grille cloth.

The entire playing mechanism is new, with the exception of selected offset
windchests, replacing a problematic Möller mechanism. The beautiful
original console cabinet was refinished and fitted with wheels, and is playable
from three locations in the chancel. The ivory and ebony manual keyboards and
the pedal keyboard were restored. New solid-state operating systems were
installed, including MIDI with record/playback capability, as well as new
drawknob and tilting tablet assemblies. A custom music rack was built,
featuring walnut with bird's eye maple inlay, and a new adjustable bench with
backrest was provided.

For his invaluable contributions to the development of the specification, we
extend special thanks to Dr. Timothy E. Guenther, director of music and
organist of First English Lutheran Church (ELCA), and adjunct instructor in
organ and university organist, Ashland University of Ashland, Ohio.

--John Muller

Photo by Steven Elbert

GREAT

16' Violone

8' Principal

8' Bourdon

8' Viola

8' Erzähler

8' Erzähler
Celeste TC

4' Octave

4' Rohrflöte

2' Super
Octave

IV Mixture

8' Trompette

Chimes

Tremolo

SWELL (expressive)

16' Waldflöte

8' Geigen
Principal

8' Waldflöte

8' Salicional

8' Voix
Celeste TC

4' Geigen
Principal

4' Spillflöte

22/3' Nazard

2' Flageolet

III Plein
Jeu

16' Bassoon

8' Trumpet

8' Oboe

8' Vox
Humana

4' Clairon

Tremolo

CHOIR (expressive)

8' Rohrflöte

8' Dulciana

8' Unda
Maris TC

4' Principal

4' Koppelflöte

4' Dulciana

22/3' Nazard

2' Blockflöte

13/5' Tierce

11/3' Quint

8' Clarinet

Tremolo

ANTIPHONAL (expressive)

8' Principal

8' Spitzflöte

4' Octave

4' Spitzflöte

2' Fifteenth

III Mixture

PEDAL

16' Diapason

16' Bourdon

16' Waldflöte

16' Violone

102/3' Quint

8' Diapason

8' Bourdon

8' Waldflöte

8' Viola

4' Choral
Bass

4' Bourdon

II Mixture

16' Posaune

16' Bassoon

8' Posaune

8' Trumpet

4' Rohrschalmei

Chimes

Couplers

Gt/Gt
16-UO-4

Sw/Gt
16-8-4

Ch/Gt
16-8-4

Ant/Gt
8-4

MIDI/Gt

[if !supportEmptyParas] [endif]

Sw/Sw
16-UO-4

Ant/Sw
8

MIDI/Sw

Ch/Ch
16-UO-4

Sw/Ch
16-8-4

Ant/Ch
8

MIDI/Ch

Gt/Ped
8-4

Sw/Ped
8-4

Ch/Ped
8-4

Ant/Ped
8

MIDI/Ped

Carillon
I

Carillon
II

John-Paul Buzard Pipe Organ Builders
of Champaign, Illinois, has built a new organ for St. Bartholomew Episcopal
Church, Estes Park, Colorado. Our opus 30 was installed during March, 2004,
ready for Palm Sunday, about a month ahead of the contracted schedule.

The church is a simple log cabin structure about 7,500 feet up in the Rocky
Mountains. The view of snow-capped Long's Peak through the plate glass window
behind the altar (along with the thin air) literally takes one's breath away.
Folks who have made their lives in this rugged terrain are used to doing things
pretty much for themselves, and in their own time. Witness their former pipe
organ, fondly nicknamed "Little Toot." This homemade three-rank
instrument (Diapason, Dulciana, Flute) served the congregation for many, many
years, until its deteriorating mechanical condition begged for replacement. The
old organ had been located in a cramped balcony projecting over the last four
rows of pews. It was too small for a choir, or for a pipe organ of adequate
size. The ceiling under the balcony was covered with acoustic tile, which at
best discouraged anyone seated there from singing. We began our conversations
with the church four years ago.

Folks who have made this church their parish home were also used to things
just the way they were, and so it was remarkable that they ultimately agreed to
remove the balcony, locate the organ in the elevated area over the narthex, and
provide space for a choir on the main floor of the nave. The instrument and the
reconfiguration of the space looks natural and relaxed, as though it had always
been that way.

The organ is small, but beautiful things come in small packages! The
instrument has a complete Principal chorus on the Great, flute choruses, a
string and celeste, as well as independent manual and pedal reeds. It is
intended to lead hymn-singing, accompany singers and other musicians, and play
voluntaries before and after services. The altitude was taken into account in
the organ's scaling, voicing, and engineering. The result is that, even though
small in the number of stops, it fills the building with a rich, full sound,
even when playing softly. The visual design plays upon the earth-tone colors in
the room, and the roof line. The organ speaks unimpeded down the axis of the
building.

Thanks to The Rev. M. Paul Garrett, rector; Martha Sandford, organ consultant;
and to The Rev. Al Persons, who, with his late wife Marcia, guaranteed the
purchase of the organ. Thanks also to the dedicated members of my staff who
make every project a special and life's work undertaking: Charles Eames,
executive vice-president; Brian Davis, associate tonal director; Keith
Williams, director of service; Shayne Tippett, production manager; Jay Salmon,
office manager; Stuart Martin, cabinetmaker; C. Robert Leach, cabinetmaker;
Kenneth McCabe, cabinetmaker; Stephen Downes, tonal assistant; Evan Rench,
pipemaker, tonal assistant, tonal department scheduling; Ray Wiggs, consoles,
windchests, wiring; Bob Ference, service technician; Jonathan Borchardt,
service technician; Stuart Weber, service technician; JoAnne Hutchcraft Rench,
receptionist, administrative assistant.

--John-Paul Buzard

[if !supportEmptyParas] [endif]

Buzard Opus 30: 14 stops, 17 ranks, across two manuals and
pedal; voiced on 4 inches wind pressure

GREAT

8' Open
Diapason (polished tin in façade)

8' Flûte
à Bibéron (metal chimney flute)

4' Principal

2' Recorder

11/3' Mixture
IV

Tremulant

Gt
16-UO-4

Sw/Gt
16-8-4

SWELL (expressive)

8' Stopped
Diapason

8' Salicional

8' Voix
Celeste

4' Spire
Flute

2' Principal

8' Minor
Trumpet

Tremulant

Sw
16-UO-4

PEDAL

16' Bourdon
(stoppered, wood)

8' Principal
(polished tin in façade)

8' Bass
Flute (ext)

4' Choral
Bass (ext)

16' Bassoon

Gt/Ped
8-4

Sw/Ped
8-4

Trophy Builders and their Instruments A Chapter in the Economics of Pipe Organ Building

by R. E. Coleberd

R. E. Coleberd is an economist and petroleum industry executive.

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In his seminal article "The Economics of Superstars," in The American Economic Review1, Sherwin Rosen, professor of economics at the University of Chicago and recently (1994) honored as vice president of the American Economic Association, analyzed what he termed "an increasingly important market phenomenon in our time" and developed the economic implications of it. This is the phenomenon of the superstar, the tendency of talented performers to be singled out as superior to all others and, thereby, to dominate the market in which they perform. He asserted that the paradigm is found virtually everywhere in contemporary economic life; in professional athletics, arts and letters and in show business. In economic parlance, the analytical framework is "a special type of assignment problem, the marriage of buyers to sellers, including the assignment of audiences to performers, of students to textbooks, patients to doctors, and so forth."2  Superstars all share what is termed "box office appeal" which is the ability to attract a large following (audience) and to generate a substantial volume of transactions. Rosen was quick to comment that there is no magic formula for becoming a superstar but it involves a combination of talent and charisma in uncertain proportions.

Professional athletes and rock singers are obvious examples
of superstars today. However, Rosen gives one interesting example from the
world of music which occurred nearly two hundred years ago and which was cited
by the eminent nineteenth-century English economist Alfred Marshall.3 In 1801,
a Mrs. Elizabeth Billington reportedly earned the then princely sum of between
£10,000 and £15,000 singing Italian Opera in Covent Garden and
Drury Lane.4 With her extraordinary voice she defined Italian opera and female
vocal performance to the sophisticated urban gentry who flocked to her
performances throughout her career and who discounted other singers of lesser
ability.

Upon reflection, the author, an economist and longtime
student of market phenomena and the economics of pipe organ building, believes
the concept of superstars described by Rosen has a novel and intriguing
application to the King of Instruments and its builders in the last 100 years.
Perhaps it offers a partial explanation of the quixotic, always fascinating,
and endlessly intriguing market for the pipe organ and for the fortunes of
several builders. A glance at the history of the industry shows that certain
builders enjoyed a large following or "box office appeal" during
their era. What was the combination of "talent and charisma" that
accounted for their success?

Our definition of superstar as it applies to the pipe organ
hinges upon the ability of a builder to preempt substantially a particular
market during his era through tonal or mechanical characteristics, perhaps
working together, in his instruments. This builder virtually redefines the pipe
organ with the result that previous instruments are now considered obsolete and
the work of other builders noncompetitive. In economic analysis this concept
rests upon "imperfect substitution" among sellers which, in the
superstar market phenomenon, means that buyers invariably will single out a
particular product or service as best meeting their (individual and group)
needs. They do not consider other products and services to be an acceptable
alternative. Parallel to Rosen's observation of a conspicuous concentration of
output among sellers who have the most talent (as in rock singers) is the share
of certain nameplates in particular well-defined markets for pipe organs.
Although the pipe organ historically has had a large and diverse audience, we
must look at specific categories of the general market:
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movie theaters in the 1920s in which
Wurlitzer fits the definition, the residential market of that period in which
Aeolian gets the nod, and the college and university market in the immediate
postwar period in which Holtkamp is the outstanding example, and Schlicker is
perhaps a very good one.

A word of caution: definitions and concepts are always
arbitrary and frequently narrow. Thus they will evoke different interpretations
and diverging opinions among other observers. The author elects to make Rosen's
word "superstar" synonymous with his own term "trophy
builder." The readers, in their definition of trophy builders and
instruments, may elect to focus on certain instruments (The Mormon Tabernacle),
regions (New England), the work of tonal architects and voicers (Richard O.
Whitelegg) or inventions and systems (John T. Austin). Or, they may wish to
recognize, if not include in the definition, Robert Hope-Jones, whose
pioneering work in the emerging instrument at the turn of the century, was to
exert a pronounced influence on the industry. Well and good. The author merely
hopes that his own interpretation in the following discussion will shed light
on a unique aspect of the rich history of pipe organ building in America.

Roosevelt

Our first illustration of the superstar concept in American
organbuilding is Hilborne L. Roosevelt. His instrument for the Centennial
Exposition in Philadelphia, and many that followed, were truly a watershed in
the evolution of the pipe organ. As noted historian Orpha Ochse observed:
"One may say that the Roosevelt organs actually marked the beginning of a
new era in organ history."5 Through successful application of electricity
in non-mechanical action and the introduction of several new stops, he, in
effect, redefined the instrument. Now tracker action was increasingly
considered out of style in the growing urban market characterized by the
construction of large churches. 
The new voices, embracing the European romantic tradition, made possible
in part by the new action, suggested that the tonal pallet of the tracker was
out of date as well.  His
instruments embodied the hallmarks of the new era:  liberal use of enclosed divisions in divided chambers, echo
divisions, a detached console, 
adjustable combination action and the electric motor blower for wind
supply.  The affluent urban
customer got the message: there was something new in  pipe organs out there. They were quick to recognize it and
they were interested.  Roosevelt's
star rose swiftly and in the brief two decades he flourished he won what must
have been a lion's share of the business in New York City, and important
contracts elsewhere as well. News of the "new organ" traveled swiftly
across the country. Thus we had Roosevelt instruments in Danville, Illinois and
Kansas City, Missouri, among other 
small cities, all of considerable distance from New York. The most
widely publicized instrument of the Roosevelt era, if not in retrospect its
crown jewel, was the four-manual for the Cathedral of the Incarnation in Garden
City, Long Island.6

Ernest Skinner, who was to pick up the baton after
Roosevelt's untimely death (and his brother's decision to liquidate the
business), acknowledged Roosevelt's position in the evolution of the instrument
and the industry when he wrote: "Many organs were built by Roosevelt
according to the above plan (individual valve chest), which, together with his
fine tone, earned for him the most distinguished name of any builder of his
time."7

E. M. Skinner

The next trophy builder, who fits our definition eloquently,
is the renowned Ernest M. Skinner. Roosevelt had opened the door to a new era;
now Skinner would hoist his banner and march triumphantly through the city
church landscape for the next three decades.  The Skinner name became a household word and defined the
pipe organ among the knowledgeable urban gentry. What Tiffany was to glass
Skinner was to the pipe organ among socially conscious city folks. "And we
have a Skinner Organ" is one of the ways these people described their churches. This type of product identification, with perhaps no parallel in the pipe organ industry, is the dream of every advertising manager in business today. Skinner also enjoyed the same preferred position in the college and university market during his era that Holtkamp and Schlicker were to savor in the period after World War II.

Like Roosevelt's, Skinner's instruments were a combination
of mechanical and tonal innovations. "The mechanical and tonal factors of
the organ are dependent upon each other for a fulfillment of their
purposes,"8 he wrote. A major contributor was the pitman windchest,
light-years ahead of the Roosevelt ventil system, which would stand the test of
time and be adopted by numerous builders in succeeding decades. The origins of
the pitman action are found, no doubt, in the many experimenters in
single-valve action during the turn of the century.  One of them, reportedly, was August Gern,
Cavaillé-Coll's foreman, who later built organs in England under his own
name. But it remained for Skinner to take it to Mount Olympus. When the
lightning fast  pitman key action
(thirty-three milliseconds between key touch and pipe speech) and equally
responsive (and quiet) stop action was coupled with exotic orchestral voices,
the Skinner organ quickly became the "box office favorite."

William H. Barnes listed the stops, not always invented by
Skinner, but developed and utilized in his trophy installations, which became
hallmarks of his work and era. All stops are 8' unless otherwise noted.9

Erzähler-Christ Church, Hartford, Connecticut

Orchestral Oboe-Tompkins Avenue Congregational Church,
Brooklyn, New York

English Horn (8' and 16')-City College, New York

French Horn-Williams College, Williamstown, Masssachusetts

Kleine Erzähler-Fourth Presbyterian, Chicago

Gross Gedeckt-Second Congregational, Holyoke, Massachusetts

Corno Di Bassetto-Williams College, Williamstown,
Massachusetts

Tuba Mirabilis-Cathedral of St. John the Divine, New York

French Trumpet-Cathedral of St. John the Divine, New York

Orchestral Bassoon (16')-Skinner Studio, Boston

Gambe Celeste-Cathedral of St. John the Divine, New York

Bombarde (32')-Cathedral of St. John the Divine, New York

Violone (32')-Cathedral of St. John the Divine, New York

Sub Bass (32')-Cathedral of St. John the Divine, New York

Contra Bassoon (32')-Princeton University, Princeton, New
Jersey

Skinner's icon image was eloquent confirmation of the
fact  that an organbuilding
enterprise is the lengthened shadow of the key figure behind it.
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As his biographer Dorothy Holden wrote:  "In all truth, it was this ability to infuse his instruments with all the vitality, warmth, and charm of his own personality that created the very essence of the Skinner organ."10

Aeolian Skinner and G. Donald Harrison

The Aeolian Skinner organ was the gold standard for affluent
urbanites with champagne tastes, many of them Episcopalians, who viewed the
church and its appointments as the logical extension of their commanding
economic and social position in the community. That the instrument was built in
Boston, the fountainhead of American culture, was reassuring, and the name
Skinner in the logo denoted continuity with a firm of established reputation.
G. Donald Harrison had filled E. M. Skinner's shoes admirably and moved ahead
to carve out his own niche in the pantheon of great American builders.

Harrison's lasting imprint on American pipe organ heritage
began about 1932; for example, in Northrup Auditorium at the University of
Minnesota, and was well-established in 1935 with Groton School and Church of
the Advent in Boston instruments, which in the public mind were the
cornerstones of his era. These two trophy instruments were
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milestones in the emergence of the
American Classic tradition of which he was the leading exponent during his
time. As Ochse explains: "He coupled an appreciation for some of the
outstanding European styles with his thorough background in English organ
building."11 His goal was an eclectic instrument on which all schools and
styles of organ music could be played with clarity and with reasonable
authenticity.

In superstar products, endorsement is a key to status as is
the demonstration effect, which is the identification of purchasers with peer
groups and the desire to emulate them. With Aeolian-Skinner the demonstration
effect was most important and endorsement not as crucial. When prospective
clients were reminded of the Skinner legacy and shown the opus list: Symphony
Hall Boston, St. Thomas Episcopal, New York and Fourth Presbyterian, Chicago, to
name a few, they said "that's us" and signed up.
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With Holtkamp and Schlicker, on the
other hand, endorsement was paramount.

Aeolian

The Aeolian Duo Art pipe organ was the instrument of choice
among the business and social elite in the first three decades of this
century.  Their opulent life style
was anchored in castles, Italian villas and French chateaus featuring mirrored
ballrooms, manicured gardens and pipe organs and was augmented
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frequently by polo fields, yachts and
private railroad cars. The Aeolian reputation was initially distinguished by
its self-playing mechanism and superior roll library.  Then, the nameplate took over. The "Lords of
Creation" were only too glad to pay steep prices for the Aeolian
instrument in order to "keep up with the Joneses."
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Below is a sampling of familiar
names  among the captains of
industry who had Aeolian Duo Art residence organs.12

The Automotive Industry:

Dodge, Horace E., Detroit, Michigan

Dodge, John F., Detroit, Michigan

Firestone, H. S., Akron, Ohio

Ford, Edsel B., Detroit, Michigan

Kettering, C. F., Dayton, Ohio

Olds, R. E., Lansing, Michigan

Packard, W. D., Warren, Ohio

Seiberling, F. A., Akron, Ohio

Studebaker, J. M., Jr., South Bend, Indiana

Merchants and Manufacturers:

Armour, J. O., Lake Forest, Illinois

Cudahay, J. M., Lake Forest, Illinois

DuPont, Irenee, Wilmington, Delaware

DuPont, Pierre S., Wilmington, Delaware

Swift, G. F. Jr., Chicago, Illinois

Woolworth, F. W., New York, New York

Wrigley, Wm. Jr., Chicago, Illinois

Publishers:

Bok, Edward, Merion, Pennsylvania

Curtis, C.H.K., Wyncote, Pennsylvania

Pulitzer, Mrs. Joseph, New York, New York

Scripps, W. E., Detroit, Michigan

Railroads and Public Utilities:

Flagler, John H., Greenwich, Connecticut

Harriman, E. H., Arden, New York

Vanderbilt, W. K., New York, New York

Vanderbilt, W. K. Jr., Northport, Long Island, New York

Steel and Oil:

Carnegie, Andrew, New York, New York

Frick, H. C., Pride's Crossing, Massachusetts

Rockefeller, John D., Pocantico Hills, New York

Rockefeller, John D., Jr., New York, New York

Schwab, Charles M., New York, New York

Teagle, Walter C., Portchester, New York

Wurlitzer

The tidal wave of capital pouring into the construction of movie theaters after the turn of the century created an insatiable demand for the wondrous new musical medium, the theater pipe organ, pioneered in concept by
Robert Hope-Jones. Investors clamored to capture the fortunes awaiting them in
motion pictures, a spectacular new form of mass entertainment. No movie
theater, be it an ornate palace in a downtown metropolitan area or a small town
storefront cinema, was complete (or competitive) without a theater organ. The
demand spawned an entirely new industry--Barton, Link, Robert Morton, Marr
& Colton, Page and, of course, Wurlitzer which, bolstered by
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clever streetcar advertising, became
the generic term for the theater organ. What Kodak was to amateur photography
and Gillette was to shaving, Wurlitzer was  to the theater pipe organ.

The new industry emerged because the theater organ was a
radically different instrument; characterized by significantly higher wind
pressures, the horseshoe console, unification of the stoplist, and the tibia
and kinura, among others, as distinctive voices in the tonal pallet.
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Other builders produced theater organs,
chiefly during the years of peak demand, but they were primarily identified
with the church instrument and market. We award Wurlitzer the trophy accolade
because their output of over 2,000 instruments was more than twice the number
of their nearest competitor Robert Morton, who built slightly fewer than 900.13

Holtkamp

Walter Holtkamp was a true innovator in the Schumpeterian
sense, i.e., the concrete expression of ideas in marketable goods.
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He had the wisdom and good judgment to
recognize that the classical revival and the North German paradigm, which he
sought to emulate, required a radical departure from existing norms. It was not
a matter of substituting a stop here and there, of lowering wind pressure an
inch or two, or of dispensing with the ubiquitous strings and celestes of the
1920's. It would begin with the wholesale elimination of melodias, cornopeans,
flutes d'amour and numerous other stops, all arranged in a horizontal tonal
pallet dominated by the eight-foot pitch with an occasional four-foot stop. He
would introduce a vertical tonal pallet with a pitch range of 16' through
mixtures, and underscore the principal as the foundation of
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an organ chorus. Capped or semi-capped
flutes would provide color and harmonic development and blend well. He would
use primarily chorus reeds of Germanic "free tone" style as opposed
to "dark tone" English reeds in his ensemble.

To his great credit, Holtkamp surrounded himself with
knowledgeable people, and these persons of influence found in him the
pathfinder who would lead them to the promised land of a baroque organ. He was
said to be a stubborn man but he was a good listener.  William H. Barnes remarked that he had the good fortune to
be located in Cleveland where he benefited enormously from the friendship and
support of three important people in the organ reform movement: Walter
Blodgett, Arthur Quimby and Melville Smith.14 As his biographer John Ferguson
noted: "The continuing association with organists and musicians
sympathetic to his ideas was of central importance to the development of his
work."15 His close collaboration with architects legitimatized bringing
the organ out of chambers and resulted in the distinctive "Holtkamp
look."  Widely copied by other
builders, it was a distinguishing feature of his instruments and era.

After World War II he built a group of loyal followers, many
of them academics, led by Arthur Poister of Oberlin and Syracuse, whose
students moved on to choice academic and church positions and spread the gospel
of Holtkamp.  Soon he enjoyed a
preferred if not a virtual monopoly position in the upscale college and
university market where these leaders of the organist profession flourished.

The Holtkamp organ was the marquee instrument for
academe.  To have a Holtkamp was to
make a statement.  Installations at
Yale University and the University of California at Berkeley as well as
Syracuse University and Oberlin College, quickly convinced many schools, including small colleges like Erskine in Due West, South Carolina, that an important milestone on the road to academic excellence and peer recognition was a Holtkamp organ. Invidious comparison and competitive emulation (Thorstein
Veblen) were--and are--alive and well in academe. Thus it is no mere
coincidence that each of the three prestigous women's colleges in
Virginia--Hollins, Sweetbriar and Randolph-Macon--has a three-manual Holtkamp
instrument. When Hollins got the first one, the other two schools could not
have done anything else. 

Other builders couldn't compete with him in this market. As
one industry veteran, who asked not to be identified, remarked: "If they
were interested in a Holtkamp or a Schlicker, we knew we might as well fold our
tent." This market had pre-judged other builders and in the clamor for
peer recognition; it was the name that counted. Even if other builders used the
same scales and voicing techniques, they could not build a Holtkamp organ.
Poister, a grand person who was widely acknowledged as one of the finest organ
teachers of his or any generation, exerted what can only be described as a
fantastic influence on the fortunes of this builder. His championing of the
Holtkamp organ was surely the equal of the endorsement for breakfast foods and
athletic footwear by professional athletes today.

Schlicker

The market for a neobaroque instrument embracing the
Orgelbewegung  movement was growing
and the established industry was caught with an image problem it could not yet
overcome, opening the door for yet another builder to rise to prominence and by
redefining  the instrument and
capturing a preferred position in a specific market, to achieve trophy status
under our definition. This was Herman Schlicker. His launching pad was the rebuild of the 1893 Johnson organ in the Grace Episcopal Church in Sandusky, Ohio in 1950 with the advice and encouragement of Robert Noehren.16
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Schlicker would go on to etch his
definition of the pipe organ in bold relief: a comparatively severe instrument earmarked by a mild fundamental, a shift in the tonal balance with an emphasis on upperwork, and a reduction in the percentage of strings in the tonal resources as well as a preference for 18th-century strings of an almost soft principal timbre to the exclusion of romantic (pencil) strings.  Baroque style chorus and color reeds were featured in stoplists favoring early music, often suggesting the Praetorius mantra
(reflecting the influence of close friend and confidant Paul Bunjes).
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To augment his tonal resources, Schlicker devised a
"Tonkanzell" electropneumatic windchest featuring a long channel with
the valve closing against a side rail as opposed to closing directly under the
toehole as in conventional pouch-action chests. This was designed to buffer aerodynamically the effect of the opening valve on the pipe foot and to approximate the wind characteristics of the slider chest.17 He was also an early advocate of the slider chest in nonmechanical construction and incorporated it in several instruments.

Schlicker's tonal philosophy and his instruments were
especially appealing to German Lutheran congregations eager to embrace their
historical roots and to academics who shared his definition of the pipe organ.
Robert Noehren, from his lofty perch as university organist and
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professor at the University of
Michigan, enjoyed a wide following at one of the thriving centers for graduate
study in organ during this period. His recordings, recitals and convention
appearances earned for him a stellar reputation as a leading spokesman for the
organ reform movement and, thereby, directly and indirectly for the Schlicker
instrument.  E. Power Biggs also
was caught  up in the Schlicker
movement.18 The importance of endorsements by key spokesmen cannot be
overestimated in the fortunes of the Schlicker Company.

Fisk

By 1970 a phalanx of American organists had traveled to
Europe--on sabbaticals, tours and Fulbright Scholarships-- and been introduced
to many schools and streams of historical organbuilding. They became aware of
new possibilities in their own situations and responsive to a domestic builder
who articulated their ideas. This was Charles Fisk. His Harvard background was
convincing and his Boston location reassuring. In his writings and appearances
before professional groups, Fisk conveyed an in-depth knowledge of European
instruments, his own sympathy with continental ideas and his ability to execute
them.

The epic two-manual tracker organ Fisk built at Mt. Calvary
Church in Baltimore in 1961 was earmarked by the werkprinzip in case design,
suspended key action and, in this example, the tonal philosophy of Andreas
Silbermann.19  This instrument was
his springboard to an illustrious, though tragically short, career. He became
the first American tracker builder to challenge successfully the dominance of
such European builders as Flentrop, Rieger and von Beckerath, in the
construction of large instruments. In response to a loyal and enthusiastic
following, Fisk built a number of contemporary organs as well as period instruments patterned after specific historical antecedents. His rise to prominence is further evidence that each generation looks for--and finds--a new trophy builder, a shiny new nameplate that commands that elusive "box office appeal" and with it an unchallengeable (monopoly) position in a particular market. Over the years his instruments at Harvard and Stanford clinched his reputation much as Holtkamp's organs at Yale and Berkeley had done for him--a reputation still well-deserved  by the Fisk firm after the premature passing of Charles Fisk.

Summary and Conclusions

The trophy builder analysis based upon Rosen's superstar
phenomenon, offers a useful perspective on the all-important market dimension
of the economics of the pipe organ industry.  Its ingredients are: tonal and mechanical innovation,
location, the demonstration effect and endorsement, and each generation's
search for something new under the sun. Veblen's time honored psycho-social
phenomenon of invidious comparison and competitive emulation cannot be
ignored.  Who will be the next
trophy builder?

Perhaps this 
builder will reflect the swing of the pendulum back to the romantic
tradition and the emergence of an eclectic instrument embracing the
contemporary as well as an historical perspective in liturgical music. This
builder, and the entire industry, must be able to confirm the stature of the
pipe organ within the myriad of musical options such as synthesizers,
sequencers and auto-accompaniment being promoted today. The King of Instruments
must be recognized as the legitimate and time-honored vehicle for musical
expression in corporate worship. In retrospect, the history of the instrument
in the American experience is perhaps closely tied to the fortunes of the
mainline denominations and the middle class, both increasingly challenged by
the sweeping socio-economic changes now evident in our society. Ethnic and
language characteristics of migrant populations mitigate against identification
with traditional religious groups and the realities of a rapidly changing
global marketplace impact the wage profile and employment structure of our
economy.  As one industry veteran
explained, the danger as we move into the 21st century is that "the
reorganization of religious expression makes the sounds of the pipe organ less
vital to 'religiousness,' hence less important."20 Our challenge is to
reverse this mindset and to assert that the pipe organ is central to musical
expression in religion and these other developments are ancillary to it.
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n

Cover Feature

New Organs

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Bedient Pipe Organ Company, Roca, Nebraska

St. Paul United Methodist Church, Lincoln, Nebraska

From the pastor

St. Paul United Methodist Church was the very first church in Lincoln,
established in 1857. Located at 12th and M streets in downtown Lincoln, the
present building was completed in 1901 and was used by many groups as the
city's largest auditorium. A major addition was built in 1999, and the
sanctuary was completely remodeled in 2001. It is an active and growing
downtown church with 1,800 members.

We were very excited when an unanticipated major gift allowed us to proceed
with a much-needed sanctuary renovation. One concern that we had to deal with
in planning this renovation was the old organ, a Reuter from 1953. The primary
concern was the appearance of the instrument in the new visual plan; and that
led to a secondary concern: the condition of the organ and its effectiveness in
leading worship at St. Paul.

We investigated renovating the existing organ versus replacement with a new
one. It became apparent that a six-figure renovation would solve the visual
problems but still leave us with an old organ that would eventually need a lot
of work. A decision was made by the organ committee to contract with the
Bedient Company to build a new organ in two phases. Phase one included the
console, a new façade and two major divisions of the new organ, and
allowed us to proceed with funding that was in place to solve the organ
problems. Subsequently, a second generous gift has allowed us to complete phase
two, the remaining two divisions of the organ.

We had serious concerns about replacing the Reuter organ with a new
instrument. Although the organ had many deficiencies, at the same time, there
were many sounds that were beloved by the congregation. Time proved that our
concerns were unfounded. The façade of the new Bedient organ is
magnificent and fits beautifully into the renovated sanctuary. More
importantly, from the first time we began to hear sounds from the new organ, it
was apparent that the tonal qualities of the new organ were equally
magnificent. The organ creates a beautiful, full sound without a hint of
harshness, and there are many lovely individual stops on the organ. It has been
a joy working with the Bedient Company. They have been responsive to all of our
concerns and have created a magnificent pipe organ for St. Paul United
Methodist Church that will enhance the worship experience for generations to
come.

--Dr. C. Rex Bevins

Senior Pastor, St. Paul UMC

From the director of music

When it became apparent that the old organ was going to be replaced, I had
serious concerns about the suitability of the new organ to lead the
congregation and to accompany the many choral and instrumental ensembles at St.
Paul. Gene and company assured us that we would be very pleased with the
result, and they were right! The range of dynamics for accompanying was
remarkable just with the Great and Swell divisions in place. When a string
ensemble from the Lincoln Orchestra Association was being accompanied by the
organ, many remarked that they were unable to tell which sounds came from the
string orchestra and which from the string pipes in the organ! The sounds of
the principal pipes and the principal choruses are excellent for leading the
congregation in hearty Methodist hymn singing. The Bedient Pipe Organ Company's
Opus 70 is well suited for all requirements.

--Dr. William Wyman

Director of Music, St. Paul UMC

Director of Choral Activities,

Nebraska Wesleyan University

From the organist

The St. Paul sanctuary, one hundred years old in 2001, was designed
according to the Akron plan. The organ chamber is located in the corner of a
diamond shape, fronted by the chancel and surrounded by amphitheater-style
seating. Three balconies skirt the outer walls with a total seating capacity of
1100.

The renovation of the sanctuary and the organ were addressed with a primary
concern for flexible use of space. All chancel furnishings were permanently
fixed in place making it difficult to find space for instrumental groups.
Acoustics were another concern. Carpet with a thick horsehair pad and soft
acoustic ceiling tile virtually defeated the courage of the congregation to
sing. The old organ, though rather large, didn't project well enough to support
and encourage singing. And as a concert instrument it was wholly inadequate.

Flexibility was achieved by making all chancel furniture, including the
choir modesty rail, movable. Choir chairs replaced pews. The organ would have a
movable console. The Bedient Organ Company agreed to a major departure from its
practice of building tracker organs to design for us an instrument with an
electric console and with electro-pneumatic slider chests. The low-profile,
French terrace console was placed on a movable platform. Conducting from the
console is now possible for the first time in the history of this church.
Ensemble playing has become a pleasurable experience. Eye (and ear) contact
with the conductor and other performers can always be achieved. An adjustable
pedalboard, both horizontal and vertical, provides relief from back and
shoulder discomfort as well as seating flexibility for younger student players.

To restore acoustical life to the sanctuary, ceiling tiles were replaced
with drywall, glued and screwed down every twelve inches. The new chancel floor
was extended and covered with solid oak. The heavily padded carpet in the nave
was replaced with a thin, tightly woven variety.

But of course, everyone wants to know, is the organ successful? The short
answer is an unequivocal yes! It can do everything required of a church organ
in worship. Tonally, the organ is well matched to the human voice, supporting
congregational singing and accompanying choirs and soloists beautifully. The
strings and reeds blend well with their orchestral counterparts. Brass players
particularly have commented on how much easier it is to tune and play with this
organ. These characteristics also provide the foundation necessary for playing
orchestral transcriptions. In general, three tonal characteristics leap to
mind: gentle, beautiful and robust. But the truly unique contribution of this
instrument is its place on the cutting edge of stylistic development.

Given the tonal qualities of the Aeolian-Skinner organ, it is understandable
why there is a virtual cult following for that style of instrument. But as the
proponents of organ reform realized, its capacity to play the vast repertoire
with any hint of appropriate historic sound and color was nonexistent. The
American Classic organ simply produced a generic sound able to play all
repertoire but with little distinction. Music composed for it, of course, was
the exception.

Now after an in-depth foray into historic building practices over the past
thirty or so years a new "American Classic" organ has emerged. The
sound is clearly influenced by historic models but in the case of some builders
it is still a generic sound, i.e., one basic sound for all styles of music. In
the hands of the Bedient Organ Company, however, a higher ideal is being
achieved.

The higher ideal, to the mind of this author, is an instrument whose
ensemble is not only cohesive but by judicious registration may produce
ensembles clearly reminiscent of French Classic and Romantic, North German and
even English Cathedral sounds. The effect may not be literal but still is able
to act as a tonal chameleon. We find Bedient's Opus 70 to successfully define
this direction in the stylistic evolution of the American Classic organ.

In our recently released recording we have chosen a solo repertoire to demonstrate
the range of the instrument. Whether the organ's use is to support and lead
worship or as a concert instrument there are three requirements for a
successful instrument: dynamic flexibility, varied tonal color (timbre), and
stylistic eclecticism.

Dynamic flexibility, that ability to affect a seamless crescendo and
diminuendo from the softest stops to full organ and back, is demonstrated
beautifully and elegantly by the Adagio in E Major of Frank Bridge. This is
accomplished by the use of two enclosed divisions, the Swell and Choir coupled
to the unenclosed Great division. This ability is essential, as well, for
effective choral accompanying.

The range of timbre is like an artist's palette. Each stop on an organ has a
specific tonal color: strings, flutes, principals and reeds. Additionally, each
manual division has mutation stops which, when used in various combinations,
create new colors. A few possibilities, using flutes, mutations, oboe and
cromorne, are revealed in the charming little dance suite, La Bourrée by
Michael Praetorius.

In most modern church settings an instrument should be stylistically
eclectic, able to play a wide range of literature both for worship and concert.
The music of J. S. Bach shows the instrument's ability to sound German and to
play complex contrapuntal textures with clarity. The music of Gigout,
Saint-Saëns, Mulet, Dupont, and Dupré shows the French personality
of the organ with its true French reeds and the full foundation of 8' flue
stops on the Great organ. And, referring once again to the Adagio in E Major by
Frank Bridge, the English love of building waves of crescendo and diminuendo in
the 19th century is clearly possible on this instrument. Finally, the inclusion
of three American hymn settings demonstrates this organ's ability to be
completely at home in the 21st century.

A new organ invites exploration into its capabilities: stylistic range and
practical uses in the worship service as a solo instrument, with other
instruments, choirs and congregational singing. The St. Paul congregation and
its musicians are grateful for an instrument that satisfies beyond our
expectations.

--Dr. John C. Friesen

Senior Organist and Consultant,

St. Paul UMC

From the builder

The Bedient organ built especially for St. Paul United Methodist Church in
Lincoln, Nebraska is the company's Opus 70. It was designed specifically for
the St. Paul sanctuary. The three-manual and pedal organ has 47 stops, 59 ranks
and a total of 3,063 pipes.

To accommodate the needs of the church, we designed and built the organ in
two phases. Phase one consisted of the structural, mechanical, electrical, and
wind systems to make the organ function. Also included in phase one were
windchests and pipes of the Great, Swell, and part of the Pedal divisions. In
phase two, the windchests and pipes of the Choir division and the main part of
the Pedal division were added.

Inside the organ chamber a three-level structure, consisting of steel
columns and laminated wood beams, provides the support for the windchests and
the wind system. The façade casework and console are made of white oak,
the keyboard naturals are of bone, and the accidentals are of ebony. The pipe
shades are of basswood with the design drawn from the foliage in the stained
glass windows. The Pedal naturals are of hard maple and the accidentals are
capped with teak. The stopknobs are of cocobola. The pedalboard, expression
shoes and toe pistons adjust vertically via electric motor, while the
horizontal pedal and bench adjustments are mechanical.

The tonal basis of the organ is an amalgamation of 19th-century American,
18th-century German and 18th/19th-century French concepts. Pipes were made with
techniques and designs appropriate to their historical derivations. All the
pipes made by Bedient are an alloy of tin and lead, ranging from 2% tin to 85%
tin, based on the historical basis of the various stops. The façade
pipes, made by A. R. Schopp's Sons in Ohio, are of polished zinc up to the
six-foot body length pipes and are 80% tin beyond that size. They also feature
23-karat gold leaf gilding on the mouths. All wooden pipes are made of poplar
except for the one set of pipes that was retained from the old organ, the 32'
Contresoubasse, which is made of mahogany.

The manual windchests are slider chests and the valves that admit air into
the channels are electro-pneumatic. All offset chests are electro-pneumatic.
The electrical control systems of the organ were made by Peterson
Electro-Musical Products, Chicago, and include the Master Stop Processor with
Piston Sequencer.

The dedication concert for Opus 70 was performed on January 27, 2002 by Dr.
John C. Friesen, organist at St. Paul UMC. Dr. Friesen highlighted the evening
with his performance of works of Buxtehude, Bach, Langlais, Franck, and Vierne.
He was joined by members of the Lincoln Orchestra Association in the
performance of the Handel Organ Concerto in F Major, op. 4, no. 4, and the
Poulenc Concerto in G minor.

The new Bedient organ was also featured in a concert by The Lincoln Symphony
Orchestra celebrating their 75th Anniversary. The evening included Rev. Dr.
Victoria Sirota performing on Opus 70, after which she stated:

The new Bedient organ at St. Paul United Methodist Church in Lincoln, with
its classic European sensibilities coupled with American flexibility, worked
wonderfully for the Sirota organ concerto "In the Fullness of Time."
Individual stops have integrity and presence, and yet blend beautifully into an
artistic whole. Gene Bedient is a poet.

From the outset, it has been the goal of the Bedient Pipe Organ Company to
create a majestic organ that will serve St. Paul United Methodist Church well
for many generations to come.

--Gene Bedient

The Bedient staff:

Alan Baehr, design, case work, installation

Gene Bedient, concept, design and voicing

Gwen Bedient, administration

Duane Grosse, pipe making, electrical

Jerry Hill, case work

Chad Johnson, wood pipes, electrical, voicing, installation

Rick LaBrune, windchests

Paul Lytle, windchests, installation, administration

Stan Pypenko, pipe making

Ed Stibal, case work, console

Jon Taylor, case work, internal structure

Donna Varney, voicing, installation

Fred Zander, windchests, installation

Todd Znamenacek, pipe shades

The recording of this organ by Dr. John Friesen is available from the church
office: 402/477-6951;

<www.saintpaulumc.org&gt;.

For information on the Bedient Pipe Organ Company: 1060 Saltillo Road, Roca,
NE 68430; 800/382-4225;

<[email protected];

<www.bedientorgan.com&gt;.

GREAT

16'            Principal

8'               Principal

8'               Salicional

8'               Flûte
harmonique

8'               Rohrflute

4'               Spielflute
(prep)

22/3'        Quinte

2                Octave

13/5'        Terz

                   Mixture
IV-V

8'               Trompete

8'               Wesley
Trompette (prep)

                   Tremulant

                   Chimes

SWELL

8'               Violin
Diapason

8'               Viole
de Gambe

8'               Bourdon

8'               Voix
céleste

4'               Prestant

22/3'        Nazard

2'               Doublette

13/5'        Tierce

                   Mixture
III-IV

16'            Basson

8'               Trompette

8'               Hautbois

4'               Clairon

8'               Wesley
Trompette (prep)

                   Tremulant

CHOIR

8'               Principal

8'               Bourdon

8'               Dulciana

8'               Unda
Maris

4'               Principal

2'               Nachthorn

                   Cornet
II

                   Cymbale
III-IV

8'               Trompette

8'               Cromorne

8'               Wesley
Trompette (prep)

                   Tremulant

                   Zimbelstern

PEDAL

32'            Contresoubasse

16'            Contrebasse

16'            Subbass

102/3'      Quinte

8'               Principal

8'               Bourdon

4'               Octave

4'               Flute

16'            Bombarde

8'               Trompette

Couplers

Great/Pedal

Swell/Pedal

Choir/Pedal

Swell/Great 16, 8

Choir/Great 16, 8

Swell/Choir

Reverse Choir/Great

Great 16-UO

Swell 16-UO-4

Choir 16-UO-4

Piston Sequencer

Forward, Reverse, Reset

Reversibles

Great/Pedal

Swell/Pedal

Choir/Pedal

Swell/Great

Choir/Great

Swell/Choir

Pistons

8 General

6 Divisionals

General Cancel

Divisional Cancel

Tutti

Set

The Historical Italian Organ

Tradition and Development

by Francesco Ruffatti
Default

A concert by Luigi Ferdinando Tagliavini and Gustav Leonhardt at the Basilica of San Petronio in Bologna, held on October 27, 2000, provided the inspiration for  writing an article on the historical Italian organ, its tradition and development. My goal is to give a panoramic view of the subject, and anyone knows that when looking at a panoramic view much of the detail is lost. Still, such an attempt is worth carrying out because some general guidelines can in any case be drawn. To do so, it is necessary to go back a number of centuries and try to understand the original role of the organ in the musical world of Italian churches.

 

The Basilica of San Petronio is no ordinary place from the standpoint of organbuilding history. It enjoys the presence of two unique instruments: the oldest Italian organ in existence, built by Lorenzo da Prato between 1471 and 1475, roughly 20 years prior to the discovery of America by Columbus,1 and a later organ, built by Baldassarre Malamini in 1596. The instruments are located face to face in the area traditionally reserved for the choristers, behind the high altar.

The program notes for the Tagliavini-Leonhardt concert, written by Marc Vanscheevwijck, well explain the use for which organs of medieval and renaissance times were intended:

Alternatim performance practice, i.e., the performance of liturgical pieces alternating contrasting musical forces in the various versets of the sacred texts, originates in the old antiphonal singing of psalms of the first centuries A.D. In responsorial music a soloist or a small group of singers alternated with the larger choir. Sometimes they alternated plainchant with polyphonic settings of the text. Probably as early as the organ began to be used in church, the organist already improvised "versets," alternating with the choir singing the counter versets in Gregorian chant. Obviously, the schola never repeated the texts of the versets played by the organist, who improvised (and later composed) on the relative Gregorian melodies. The earliest source of such a practice is the Faenza Codex, compiled c.1420. During the following century this alternatim practice spread throughout Italy. Many alternatim settings, particularly of the mass proper, have been preserved, some of the most famous of which were composed by Girolamo Cavazzoni, Claudio Merulo, Andrea Gabrieli, and (in the 17th century) the Fiori Musicali of Girolamo Frescobaldi.2

 

Two aspects immediately come to mind:

1. The organ location, which for effective responsorial use had to be near the choir and not necessarily in a favorable position for the congregation,

2. A tonal structure suitable for dialogue with a small group of singers.

There was no need for a sound big enough to accompany the choir, simply because the organ was intended as a soloist. And accompanying the congregation was certainly not in the agenda, since people did not sing during liturgy in Italian Catholic churches until very recently.3

What effect did all of this have on the sound? Since power was not the issue, early Italian organbuilders developed their talents in other areas, and tonal quality became the priority. They created relatively small instruments, mostly with only one manual, with gentle, beautifully voiced stops. Wind pressures were in most cases quite low, down to 42-45 mm. at the water column, and the voicing techniques as well as the tonal design in general reflected such an approach.

Listening to music by Antegnati (also a famous Italian organbuilder), Segni, Veggio, Gabrieli and others performed on the beautiful organs of San Petronio gave me and the entire audience (a few hundred people all gathered in the large space behind the high altar, to be able to best hear the organs) a good perspective of the musical experience which was originally expected from such instruments.

It is my belief that the original DNA of ancient Italian pipe organs, as defined by their original use in the liturgy, played a decisive role in the subsequent evolution of the instruments. This was due to a strong sense of tradition among the vast majority of builders and to their reluctance to introduce changes to a practice which was considered successful. Examples to the contrary do exist, but any effort of generalizing, or extracting general rules from a complex reality, always ends up sacrificing notable exceptions.

In post-Renaissance times, organ use became widespread. All Italian churches had at least one organ and often one or two Positivo4  instruments in addition to the main organ. And a very significant change took place: in addition to being used as a solo instrument for improvisations and for the performance of written music, the organ also became an accompanimental instrument for the choir. Its location within the building also changed in most cases, taking into greater consideration the congregation as the beneficiary of musical performances: the preferred location for new instruments became a balcony facing the nave, which is still considered by many to be the ideal location for the best possible diffusion of sound within a building. Naturally, broader tonal resources had to be made available in order to accommodate this new function, but this did not cause a significant change in the original voicing practices. In other words, more stops were introduced and a Pedal division was added (normally consisting of one or two stops), but the basic tonal structure remained the same and no major changes took place in the sound: still low pressures and gentle voicing. After all, organs still did not need to be big or powerful, because they were not intended to support an entire congregation, just a choir.5

A further, major evolution took place as a result of the greater demands by the repertoire of the Romantic period. A great number of new stops were introduced: reeds of various types, more flutes, strings, even percussion: drums, cymbals, bells and the like. The organs built by the Serassi family of Bergamo towards the end of the eighteenth century and during the following century are a good example of the romantic Italian organ. The occupation of Bergamo by the troops of Napoleon (1796-1813) and subsequently by the Austrians (1814-1859) influenced organbuilding practices by introducing new musical models and, as a consequence, by contributing to the development of new devices and new sounds that would improve the performance of the music inspired by the teaching of Simon Mayr (1763-1845), by his pupil Gaetano Donizetti (1797-1848) and by Gioacchino Rossini.6 The famous composer Felice Moretti (also known as Father Davide da Bergamo), a Franciscan monk and a family friend of the Serassi, composed music that was deeply influenced by opera. Also, Giuseppe II Serassi, the most innovative member of the family, introduced new devices aimed at facilitating the dynamic control of sound: the third hand, or mechanical super coupler, the fourth hand, or sub coupler, the expression shades, pedals for pre-set combinations of stops, an easier system for the coupling of the manuals (by means of a pedal and no longer by the sliding of the upper manual into position), settable combinations of stops, and the Tiratutti or Tutti for the Ripieno ranks.7

In spite of all of this, the ancient core of the instrument and the basic tonal concept behind it remained virtually unchanged for a good part of the nineteenth century. Low wind pressures were still the rule, as well as unforced voicing, fairly open pipe toes, and few nicks at the languids. As a consequence,   there was a broad harmonic development in the sound, allowing a very effective use of each stop in combination with others and forming an ensemble of rare cohesion and beauty. Pressures of sometimes less than 50 mm. at the water column naturally presented a real challenge, particularly for the voicing of reed stops, but this had the effect of encouraging builders to find original design and voicing methods to overcome the difficulties.8

At this point, it is necessary to define the tonal core of the organ which I have indicated as an element of continuity in Italian organbuilding throughout the centuries. Its main component is the Ripieno. The term does not translate to Mixture, but rather it defines a series of individual Principal scaled ranks of pipes at various pitches, creating a system of sounds at harmonic intervals, normally beginning with 8' pitch as the foundation of the manual.

The composition of a typical Ripieno with its traditional nomenclature follows:

Principale (I) 8'

Ottava (VIII) 4'

Decimaquinta (XV) 2'

Decimanona (XIX) 11/3'

Vigesima seconda (XXII) 1'

Vigesima sesta (XXVI) 2/3'

Vigesima nona (XXIX) 1/2'

Trigesima terza (XXXIII) 1/3'

Trigesima sesta (XXXVI) 1/4'

And occasionally:

Quadragesima (XL) 1/6'

Quadragesima Terza (XLIII) 1/8'

The highest pitch in the entire Ripieno is in most cases the note C at 1/8'. Beyond this limit a ritornello or break begins with pipes double the length, or one full octave lower in pitch.9

Table 1 is intended to give a clear and comprehensive idea of the tonal composition of the Ripieno. The method I am utilizing is unconventional and it consists of identifying each pipe by a number corresponding to its place in an ideal succession of notes starting with number 1 as low C of the 8' Principal. Low C at 4' will consequently be numbered as 13, low C at 2' will be numbered as 25 and so on. The highest pitch pipe in the Ripieno will be number 73, corresponding to the pitch limit of 1/8'. Once a rank reaches note number 73 it will break back and start a ritornello with note C#62 (or one full octave lower). To simplify matters, I am showing the first octave as complete (12 notes). The most common arrangement in Italian historical organs calls for a short first octave (8 notes, with C#, D#, F# and G# missing). Notes are identified by octave number, according to the Italian system, by which C1 corresponds to note C of the first octave, F3 to note F of the third octave, and so on. The chosen compass for our example is of 49 keys, C1 to C5. This system, by numbers rather than by footage, is intended to provide a more immediate idea of the repetition of equal size pipes throughout the compass for the entire Ripieno. Equal number means equal size pipe.

The conventional method is shown in Table 2. The Ripieno here is comparable, in pure terms of number of pipes, to a Principal chorus with 8', 4' and 2' stops plus a six-rank mixture. But by looking at Table 2 one can immediately appreciate the vast difference from such an arrangement. At note C#2 the first doubling or double pitch appears: pipes from the 1/2' rank (XXIX) and 1/4' rank (XXXVI) become of identical size. Consequently, between notes C#2 and F2 the tonal effect is not that of a six-rank mixture but rather of a five-rank mixture with one of the ranks doubled. This aspect becomes more and more prominent as we move up the keyboard, to the point that at note C#4 (key number 38) with all ranks from Decimaquinta (2') up drawn, only two pitches can be heard: 2', repeated 4 times, and 11/3', repeated three times. As one can easily appreciate, such tonal structure cannot be compared with that of a Mixture, or Fourniture or any other multiple-rank stop designed as a single entity. The Ripieno is simply different. It is conceived as a sum of individual ranks at different pitches, each separately usable in combinations with any other rank and all usable at once as a pleno.10

Obviously, this feature provides a great deal of flexibility in the tonal palette. From an organbuilder"s practical standpoint, it has two effects:

1. It forces the voicer to be extremely scrupulous as to the tonal balance, regulation and speech adjustment of each pipe even in the highest pitched ranks, since each can be separately used;

2. It makes tuning more difficult, due to the drawing effect on the equal pitched pipes when they play together. Only a tuner who knows how to deal with such a problem can obtain a stable tuning of the Ripieno.11

Tuning with double pitches was nothing new to ancient builders. In fact, pre-Renaissance and Renaissance organs, in Italy as well as in other European countries, often had double or even triple notes of equal length in the treble of the Principal, the Octave and sometimes the Fifteenth, to enhance the singing qualities of the instrument in the treble. This practice strangely survived, in some areas of Italy, all the way to the beginning of the 19th century. This proves that the difficulties connected with the tuning of multiple equal-pitched pipes never bothered Italian organbuilders too much.12

Other traditional stops forming the original core of the historical Italian organ include the following:

Flauto in Ottava (4'), normally tapered or cylindrical, sometimes stopped

Flauto in Decimaquinta (2') in the earlier instruments

Flauto in Duodecima (22/3')

The Terzino, or Tierce flute (13/5') was later added and, in the nineteenth century, the Flauto Traverso or Fluta (8', normally in the treble only).

Early strings appeared in the eighteenth century, at 4' in the bass and occasionally over the entire compass, but such stops were vastly different from what we think of as a string today. They had no ears, no beards, no nicks at the languids. These characteristics, combined with a very narrow scale, contributed to produce a sound with a very prominent transient at the attach and a cutting sustained tone, strongly imitative of early string instruments.

The Voce Umana or Fiffaro, a Principal-scaled stop at 8' pitch (treble only) was also used in the Renaissance and became increasingly more common in the Baroque and later periods. Its pipes were normally tuned sharp against the 8' Principal, except in the Venetian tradition and among a few builders in the south of Italy, where flat tuning was preferred.

The above description, as I have said earlier, represents a simplification of a much more complicated subject, and many examples exist that do not follow the rule.13 Also, all of those who are familiar with ancient Italian organs will agree that the tonal experience that comes from a Callido or a Nacchini organ is vastly different from that of an Agati or a Catarinozzi. They were expressions of very different artistic environments and the builders were very faithful to their own local traditions.

What happened in nineteenth-century Italian organbuilding is worth investigating a bit more closely. Early signs of rejection of the Italian romantic organ appeared. In 1824 the Cardinal Vicar of Rome promulgated an edict stating: "Organists may not play on the organ music written for theater, or with profane character, but only music that can encourage meditation and devotion . . . "14 Still, many of the major builders in the north, as well as many in other parts of the country, continued in their tradition of building instruments without changing their style.15 But at some point, foreign influence became a strong factor16 and the "new inventions," the Barker lever first and then pneumatic and electric action, came into the picture.17 Pneumatic action in particular and the new sounds, such as the "modern strings" and harmonic stops demanded higher wind pressures, and the organ sound became stronger and aggressive. But, as we all know, pneumatic action represented only a relatively short transition period in organbuilding history, and a further evolution of the instrument was soon marked in the following century by a perfected electric action and by the rediscovery, in the mid 1960s, of tracker action. This movement was immediately promoted by some of the major Italian builders18 and it became stronger and stronger over the years. The neoclassical instrument was created, based on mechanical action and on the re-discovery of the traditional sounds and voicing techniques. But, as it is often the case, the intent was not that of copying the past but rather of preserving the best of tradition within a new context which was calling for a new use of the organ: the support of congregational singing.

One may get the impression that it is impossible to extract a general trend from this entire process of evolution. Still, I believe that one common denominator can be found: the unforced, pleasing singing quality that has survived unchanged for over five centuries, and which effectively represents, in musical form, the character of the Italian language.

 

Notes

                  1.              The instrument consists of one manual and short pedalboard, as follows. Manual: F1-A4 without F#1, G#1; divided keys G#1/Ab1, G#2/Ab2, G#3/Ab3; Pedal: F1-D2 directly connected to the corresponding manual keys. The stoplist follows:

Principale contrabasso (24', façade) - doubled from C#3

Principale (12', rear façade - doubled from C#3, triple from Bb3)

Flauto in VIII

Flauto in XII

Ottava (doubled from Bb3)

XII

XV

XIX

XXII

XXVI-XXIX

Spring windchest, A = 470 Hz, meantone temperament; restoration by Tamburini, 1974-1982. The above information is the courtesy of Liuwe Tamminga, recitalist and organist at the Basilica of San Petronio.

                  2.              Concerning earlier use of the organ in western world churches, see Peter Williams (Duke University, Durham, NC) in his essay "The origin of the Christian organ with some particular reference to Italy," Acts of the International Symposium on "I Serassi--L"arte organaria fra sette e ottocento," Ed. Carrara, Bergamo, 1999, p. 12. Referring to the early Middle Ages, he writes: "I don"t know any evidence that organs were brought into church in order to accompany singing--whether it was the celebrant singing at mass, the lay people responding with their own acclamations, or the monks chanting their daily office in private or in public. All that one can be certain about is that organs were there to provide sound, and whatever later music historians may have assumed, it is seldom if ever clear what kind of sound they made, or for what purpose and at what point they made it. Only from the thirteenth century onwards the picture is clear . . ."

                  3.              While the practice of congregational singing at celebrations in Italian churches may have had its first examples at the end of the nineteenth century, it was during the Second Vatican Council that this practice was actually encouraged.

                  4.              A Positivo can be described as a smaller size "cabinet" organ, self-contained, whose casework is normally divided in two sections: the lower case, containing the bellows (normally two multi-fold hinged bellows activated by levers), and the upper case, which sits on top and which holds the keyboard, the windchest and pipes. It was almost invariably built without independent pedal stops,  and its pedalboard, when present, consisted normally of one short octave, whose keys were connected to the corresponding keys of the first octave at the manual by means of strings or wires. Although easily movable (sometimes large handles on the sides of the two sections of the case indicate this possibility), it is different from a Portativo, an even smaller instrument whose primary function was that of providing music during outdoor processions.

                  5.              Larger instruments are not unknown to historical Italian organbuilding. I will mention two examples of rare complexity:

a.) The instrument at the church of San Nicolo L"Arena in Catania, by Donato del Piano (1698-1785), with a total of five keyboards, divided between three consoles attached to the case (1 manual - 3 manuals - 1 manual) with the larger console in the center and one pedalboard for the center console, plus a separate small automatic pipe instrument activated by a rotating drum. This enormous, beautiful instrument, now in a poor state of disrepair (among other things, the pipes have all been removed and stored), includes pipework of extremely unusual shape.

b.) The great organ at the Church of the Cavalieri di S. Stefano in Pisa, built between 1733 and 1738 by Azzolino Bernardino della Ciaia (1671-1755) with the help of other organbuilders from different parts of Italy, with four manuals plus a fifth manual activating a harpsichord. This organ was later converted into a pneumatic instrument and subsequently electrified. Only a portion of the original pipework survives.

                  6.              See Luigi Ferdinando Tagliavini, "Le risorse dell"organo Serassiano e il loro sfruttamento nella prassi organistica dell"epoca," in Acts of the International Symposium on "I Serassi--L"arte organaria fra sette e ottocento", Ed. Carrara, Bergamo, 1999, pp. 80-84.

                  7.              See Giosue Berbenni, Acts of the International Symposium on "I Serassi--L"arte organaria fra sette e ottocento," Ed. Carrara, Bergamo, 1999, pp. 22-24.

                  8.              The lower the wind pressure, the thinner the tongues must be to obtain promptness of speech. But thin tongues also produce undesirable side effects, notably:  a) A thinner timbre in general, with greater development of overtones and less fundamental; b) Uncontrollable sound at the bass register, where any reed naturally tends to become louder; c) Very weak trebles. To overcome these problems, a series of interesting methods were developed. I will mention a few:

a.) Wide and deep shallots to increase the volume of air excited by the tongue, with the effect of increasing the prominence of the fundamental in the tone;

b.) Double or even triple tongues at the low register, to control volume, timbre and stability;

c.) Variable tongue thickness at the treble, with the filing of the tip to obtain promptness while retaining a good volume of sound.

For a more complete description of voicing methods on low pressure reeds, with specific reference to the reeds of Serassi organs, see Francesco Ruffatti in "I registri ad ancia negli organi Serassi," Acts of the International Symposium on "I Serassi--L"arte organaria fra sette e ottocento," Ed. Carrara, Bergamo, 1999 pp. 144-150.

                  9.              When the lowest pitched stop on the manual is the Principal 16' the nomenclature remains the same, although all stops start one octave lower in pitch. The stoplist becomes:

Principale (16')

Ottava (8')

Decimaquinta (4')

Decimanona (22/3')

and so on. In essence, the organ is still seen as based on the 8' Principal, with the extension of a counter octave towards the bass (see my article on Gaetano Callido, December, 1999 issue of The Diapason, p. 17, Note 8).

                  10.           Luigi Ferdinando Tagliavini in his article "Il ripieno," L"organo, Year 1, No. 2, July-December, 1960, Ed. Patron, Bologna, points out the difference between the Italian Ripieno and the northern European mixtures as follows:

"a) The classical Italian ripieno is divided into its constitutive elements, corresponding to separate stops, while the foreign mixtures, starting from a certain pitch (from 4', from 22/3', from 2', from 11/3' etc.) are condensed into one stop;

b) Both in the ripieno and in the northern mixtures a gradual "compression" towards the treble takes place, a compression which is more limited in the German and northern European organ, greater in the Italian organ. In fact a ripieno will have a "compressed" extension in the treble, reduced from 8' to 2', while in the Mixtur-Scharf scheme the treble is extended between 8' and 1';

c) The "masking" of the jumps produced by the breaks is done differently in Italy from abroad; in Italy, by the division of breaks into two different points, one for the octave stops and one for the quint stops; abroad by the partial or complete substitution of the break in quint and fourth with the one in octave.

The northern European mixtures, through a particular interpretation of the break and without any fear of going beyond the pitch limits in the bass and the treble as imposed by the Italian ripieno, tend to make the tonal "density" more uniform, by reducing the difference between the tonal richness of the bass and the treble. Part of such uniformity is sacrificed by the Italian organbuilder in favor of tonal beauty. This is why the use of the Italian ripieno is mostly chordal and for toccatas, while the northern European organum plenum, especially the German, can also perform a polyphonic role."

In c) Tagliavini refers to alternation of quint and unison breaks within the same rank in all ranks of the mixture.

The pitch limit of northern European mixtures and related stops is often C at 1/16', close to the limit of human hearing, one full octave higher than the Ripieno and this factor alone determines a dramatic difference in the sound from the Ripieno.

                  11.           Drawing is an acoustical phenomena by which the sound of a pipe is drawn or pulled into tune by the sound of a second pipe which is playing an interval close to being pure or in tune. This effect is stronger between unison pipes; when tuning the second pipe to the first, its sound will slide into tune as soon as its frequency approaches that of the first pipe, but before it actually reaches the same value, thus determining an apparent tuning condition. Adding a third pipe and trying to tune it to the two previous sounds becomes impossible if the first two pipes are in a status of apparent unison, because each of the two sounds will react to the third pipe differently, according to their real frequency value. The difficulties increase exponentially from note C#4 up in the example shown, where two groups of 4 and 3 equal size pipes respectively play at once. The procedure to tune the Ripieno is consequently different and definitely more complicated than that of a regular mixture stop, as it must take into account the drawing of equal length pipes.

                  12.           I am here mentioning two organs, built in Tuscany by the Paoli family of Campi Bisenzio at the beginning of the 19th century, both restored by Fratelli Ruffatti in recent years:

a.) the organ in the Church of S. Francesco in Pontassieve, near Florence, built by Giacobbe Paoli, which includes doublings at the Principale starting with note Bb3, at the Ottava from note F3 and at the Decimaquinta also from note F3;

b.) the organ built by Michelangelo Paoli in the Basilica of S. Maria, Impruneta - Firenze, utilizing the pipes of a previous instrument by Bernardo d"Argenta, 1535, which has doublings at the Principale starting from note F#3, at the Ottava from note B3 and at the Decimaquinta from C4. Having re-built the windchest entirely, the builder could have easily eliminated the doublings had he not believed in the validity of such tonal approach.

                  13.           As an example, Sicilian organs in the 18th century were often built with multiple Ripieno ranks activated by a single stop control.

                  14.           See "La riforma dell"Organo Italiano" by Baggiani, Picchi, Tarrini, Ed. Pacini, Ospedaletto (Pisa), 1990, pp. 9-10.

                  15.           The largest instrument built by the Serassi family, the "Organum maximum" with three keyboards and over three thousand pipes, was built in the romantic style as late as in 1882. This instrument was restored by Fratelli Ruffatti between 1983 and 1985. It includes many of the effects which were rejected by liturgists, such as the drum, a bell and other percussion.

                  16.           Ferdinando Casamorata (1807-1881), musician and music scholar, introduced the work of Cavaillé-Coll to the Italian musical scene by making public the work of J. A. De La Fage "Orgue de l"Église Royale de Saint Dénis, construit par MM Cavaillé-Coll père et fils, Facteur d"orgues du Roi." Rapport. II edition, Paris, 1846. See "La riforma dell"Organo Italiano" by Baggiani, Picchi, Tarrini, Ed. Pacini, Ospedaletto (Pisa), 1990, p. 12. He gave explanations and favorable comments on some of the most remarkable characteristics of the instrument, notably the variety of wind pressures, the Barker lever, the "strength" of the upper registers, especially the reed stops, etc., and presenting them as valuable innovations worth imitating.

                  17.           An important role in this process was played by George William Trice (1848-1920), a British merchant who became an organbuilder and established a factory in Italy. He built the first electric action organ in 1888 for the Church of S. Andrea, Genoa. Other notable instruments followed, among which the three-manual instrument for the Church of the Immaculate Conception in Genoa, inaugurated in 1890 with concerts by Alexander Guilmant and Filippo Capocci.


18.               

Tamburini and Ruffatti were the first major Italian companies, in the early 1960s, to resume building mechanical action instruments.

 

Francesco Ruffatti has been a partner since 1968 of Fratelli Ruffatti, builders and restorers of pipe organs, in Padova, Italy. Besides being the tonal director of the firm, he is actively involved in the research on historical Italian organs and the supervision of the many historical restorations performed by the firm.

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