OHS Library acquires Brunzema documents

Organbuilding in the United States and Canada is a thriving art practiced in hundreds of shops throughout the continent. Emerging from decades of stylistic extremes, organbuilders are combining a wealth of knowledge from the past with new technologies to meet contemporary design challenges. North American builders, compelled by a unique spirit of cooperation and openness, are successfully raising the artistic standards of this time-honored craft. (American Institute of Organbuilders, descriptive statement.)

The organ has occupied a prominent place in the musical culture of Canada since the days of the first European settlement, chiefly because of its close connection with church music and the ambitions of many congregations. The first organs, brought from France, were installed in Québec City around 1660. An anecdotal report mentions the acquisition by a Halifax church of a Spanish instrument that had been seized on board a ship in 1765.1 Following a period in which organs continued to be imported from England and France, organbuilding began as early as 1723 and flourished mainly in Québec and Ontario from the mid-19th century onward.2 By the second half of the 19th century, organ building had become a relatively important industry in Eastern Canada, where companies had acquired sufficient expertise to compete in the international market, including the United States.3

The development of organbuilding in Canada proceeded through several phases, beginning with early builders.4  The first known organbuilder was Richard Coates, who arrived in Canada from England in 1817; he supplied mainly barrel organs to several small churches in Ontario. Joseph Casavant, the first Canadian-born builder, installed his first instrument in the Montréal region in 1840; he transmitted his skills to his sons, who later established the company that achieved world-wide recognition. The arrival from the United States of Samuel Russell Warren in 1836 marked the introduction of professional-calibre organbuilding into the country. His family firm had produced about 350 pipe organs by 1869; it was sold in 1896 to D. W. Karn (see below). Other prominent organ builders included Napoléon Déry (active 1874-1889), Eusèbe Brodeur (a successor to Joseph Casavant in 1866), and Louis Mitchell (active 1861-1893) in Québec, and Edward Lye (active 1864-1919) in Ontario.

The years 1880-1950 were marked by unprecedented growth in organbuilding, beginning with the establishment of Casavant Frères in 1879 in Saint-Hyacinthe, Québec. The Canadian Pipe Organ Company/Compagnie d'orgues canadiennes was established in 1910 by some former Casavant staff, also in Saint-Hyacinthe (when the firm closed in 1931 its equipment was acquired by Casavant). Prominent Ontario builders included the firms of Richard S. Williams (founded 1854 in Toronto), Denis W. Karn (commenced 1897 in Woodstock), C. Franklin Legge (founded 1915 in Toronto, joined by William F. Legge 1919, who later established his own company in Woodstock around 1948), and the Woodstock Pipe Organ Builders (an organization of skilled craftsmen in that Ontario town, 1922-1948). Several smaller, independent builders were active for a time in Ontario, the Maritime provinces, and Manitoba (late 1880s). British Columbia, on the other hand, seems to have had no indigenous organbuilders, for instruments were imported from the United States or from England on ships that sailed around Cape Horn; one of the earliest arrived in Victoria from England by this route in 1861.

In the early 1950s some organbuilders, encouraged by younger organists who had played European instruments, as well as the increasing availability of sound recordings of these organs, turned to classical principles of organbuilding to counter what they perceived as the colorless sound palettes of Canadian organs of the 1930s. The return to earlier tonal aesthetics, inspired by the so-called 17th-century "Baroque organ," found expression in the construction of bright-toned, tracker-action instruments. The "new orthodoxy" was enthusiastically assimilated by Casavant Frères and by a number of independent builders in the same region, some of whom had received their training in Europe. Karl Wilhelm, Hellmuth Wolff, André Guilbault and Guy Thérien, Fernand Létourneau, Gabriel Kney, and Gerhard Brunzema were prominent in this movement, and many of them are still in business. Their accomplishments, along with the activities of other known organbuilders of the 1990s, will be described in chronological order, according to their founding dates, in the remainder of this article.5

Casavant Frères, Saint-Hyacinthe, Québec (1879)

Casavant is the oldest continuing name in organbuilding in North America. Joseph Casavant (1807-1874), the father of the founders of the company, began his organbuilding career while still a Latin student at a Québec religious college, where he completed an unfinished organ from France with the help of a classic treatise on organbuilding. By the time he retired in 1866, after 26 years in business in Saint-Hyacinthe, Québec, he had installed organs in 17 churches in Québec and Ontario, but none of them survive. His sons, Joseph-Claver Casavant (1855-1933) and Samuel-Marie Casavant (1850-1929), worked for Eusèbe Brodeur, their father's successor, for a few years. They opened their own factory in Saint-Hyacinthe, Québec, in 1879, following an extended tour of western Europe inspecting organs and visiting workshops; Claver had apprenticed briefly with a Versailles builder before the tour. In the early years the Casavant brothers were conservative in their tonal design, emulating the ensemble sound of the kind they had heard in old-world instruments that they had examined during their European tour. But from the outset the brothers were innovators, beginning with improvements in the electric operation of their organs in the 1890s. As their reputation spread beyond the cities and towns of their province, production increased steadily.

The company experienced difficult times in the 1930s due to economic conditions, much standardization, and repetitive tonal design. Production was curtailed during the years of World War II due to a shortage of materials, and the company manufactured many unit organs during this period. Later, new initiatives were undertaken by several imaginative artistic directors who served with the firm between 1958 and 1965: Lawrence Phelps from Aeolian-Skinner in the U.S.A.; and European-trained Gerhard Brunzema, Karl Wilhelm, and Hellmuth Wolff.

Most present-day Casavant organs exhibit a conventional design that retains both symphonic and modern elements in subtle synthesis. Casavant organs are recognized for their special tonal qualities and the way the individual stops are blended together into a chorus at all dynamic levels. Time-tested actions include tracker, electrically operated slider windchests, and electro-pneumatic (since 1892; tubular-pneumatic was last used in the mid-1940s). The company workshop has eight departments: metalworking, woodworking, mechanism, consoles, painting, racking, voicing, and assembly. Virtually all components are made in the workshop, including all flue and reed pipes (to 32-foot-length), reed shallots, windchests, consoles, keyboards and pedalboards, and casework, although specialized wood carving and gilding are done by outside artisans. A few electrical components, such as blowers, power-supply units, electromagnets, solid-state combination and coupling systems, and hardware, are purchased from world-wide suppliers. All visual designs are coordinated with their intended surroundings; there are no stock designs. Organs are completely assembled for rigorous testing and playing in preparation for on-time delivery.

The company resumed the construction of tracker-action instruments in 1961 after a lapse of about 55 years, producing 216 such organs since that date. By the end of 1998 the total output amounted to 3,775 organs of all sizes, and many of these have received enthusiastic testimonials from renowned recitalists over the years. Although sales were limited mainly to North America until World War II, Casavant organs now have been installed in churches, concert halls, and teaching institutions on five continents. The firm's largest instrument is a five-manual, 129-stop organ with two consoles installed in Broadway Baptist Church, Fort Worth, Texas, in 1996. The great majority of the very large instruments have been installed in locations in the United States; the exception is the four-manual, 75-stop organ in Jack Singer Concert Hall, Calgary Centre for the Performing Arts, in 1987. The company also engages in renovation projects and additions to existing organs.

The key personnel include Pierre Dionne, President and Chief Operating Officer (from 1978), formerly Dean of Administration at the Business School of the University of Montréal; Stanley Scheer, Vice-President (1984), formerly Professor of Music and Head of the Department of Fine Arts at Pfeiffer University, Misenheimer, North Carolina, holds a Master of Music degree in organ performance from Westminster Choir College, Princeton, New Jersey; Jean-Louis Coignet, Tonal Director (1981), a professionally trained physiologist with a doctorate from the Sorbonne, contributor to music journals, the most knowledgeable authority on the work of Cavaillé-Coll today, was formerly organ expert for the City of Paris; Jacquelin Rochette, Associate Tonal Director (1984), formerly Music Director of Chalmers-Wesley United Church, Québec City, holds a Master's degree in organ performance from Laval University, performs regularly on CBC radio, and has recorded works by several French composers for organ; Denis Blain, Technical Director (1986), with many years of practical experience in virtually all aspects of organbuilding, is in charge of research and development; Pierre Drouin, Chief Engineer, holds a Bachelor of Architecture degree from Laval University, introduced computer-assisted drafting, and supervises the design and layout of each organ. In 1998 the company had 85 full-time employees, many with more than 30 years of service with the company. All levels of management and production personnel function as a team.

Keates-Geissler Pipe Organs, Guelph, Ontario (1945)

The company was established in 1945 in London, Ontario, by Bert Keates (he came from England in his infancy) and relocated to Lucan, Ontario, in 1950. When it was incorporated in 1951 the assets of the Woodstock Pipe Organ Builders (formerly Karn-Warren) were purchased. The company moved to Acton, Ontario, in 1961, a more central location in the province. In 1969 the growing firm took over the business of the J. C. Hallman Company, a manufacturer of electronic instruments and pipe organs, when it discontinued making pipe organs (but not parts for them). For several years some organs were manufactured under the name of Keates-Hallman Pipe Organs.6 The company moved to Guelph, Ontario, in 1994.

Dieter Geissler was born in Dittelsdorf, Saxony, Germany, where he began his trade as a cabinetmaker. At the age of 14 he commenced his apprenticeship with Schuster & Sohn, Zitau, where he remained from 1946 to 1950. In 1951 he moved to Lübeck, West Germany, where he worked as a voicer with E. Kemper & Sohn for five years. In 1956 he moved to Canada to join Keates's staff. When Keates retired at the end of 1971 Dieter Geissler became president of the firm, which he purchased in 1972, and adopted the present company name in 1982. His son, Jens Geissler, joined the company in 1978.

Keates-Geissler organs are offered in all types of action and are custom built to any required size. Altogether, 147 new organs7 have been installed at locations in Canada, the United States (about 15), and Barbados, West Indies. The output includes a number of four- and five-manual instruments; the largest is a five-manual, 231-stop organ, installed in the First Baptist Church, Jackson, Mississippi, in 1992 (a compilation of its original 1939 E. M. Skinner instrument, a 1929 five-manual Casavant organ removed by Keates-Geissler in 1986 from the Royal York Hotel, Toronto, and some additional structures by the company). The firm has undertaken a substantial number of renovation, rebuilding, and reinstallation projects over the years, about 1,500 altogether, about 75 of these in the United States.

All wooden pipes are made in the factory, but metal pipes are made by Giesecke or Laukhuff in Germany to the company's scaling specifications; preliminary voicing is done in the factory before final voicing on-site. The windchests of electro-pneumatic instruments feature Pitman-chest action that includes some unique features to overcome the effects of extremes in temperature and humidity; the company is the only such manufacturer in Ontario and one of a few in Canada. Expandable electronic switching systems are designed and made in the factory from readily available components to facilitate replacement. Solid-state switching and multiple-memory combination actions are also manufactured. Console shells are handcrafted from solid wood in the factory; tracker touch is an available option. Keyboards are custom made to the company's specifications by Laukhuff, Germany, and blowers are acquired mainly from the same company. The company had four full-time employees in 1998; other part-time workers are hired as needed.  

Guilbault-Thérien, Saint-Hyacinthe, Québec (1946)

This company originated with the Providence Organ Company, established in Saint-Hyacinthe in 1946. The partners, André Guilbault, whose father Maurice Guilbault had worked for Casavant, and Guy Thérien, a voicer from Casavant, joined forces in 1968 when the elder Guilbault retired. The present company name was adopted in 1979. When André Guilbault retired in 1992, Alain Guilbault (no relation) acquired an interest in the company.

At the outset the company manufactured electro-pneumatic instruments, but built its first mechanical-action instrument (Opus #1 in a new series), a two-manual, 7-stop organ, in 1970, immediately followed by several small one- and two-manual instruments. From 1974 onward the typical instruments were medium-size, two-manual organs. Larger instruments of three or four manuals began to appear with greater frequency after 1983, the largest being a four-manual, 45-stop organ installed in Grace Church, White Plains, New York, in 1989, the only installation in the United States to that time. While the tonal layout of the organs is mainly inspired by European sources, mainly French, the swell divisions of the larger instruments are sufficiently versatile to handle symphonic literature.

The output of new organs was about 55 to 1998, mainly in Québec and Ontario. The company's work has also involved the restoration and reconstruction of a similar number of Québec organs, mainly by Casavant, but including some of historical significance that are over a hundred years old by such early builders as Napoléon Déry and Louis Mitchell. 

Several compact discs featuring performances by Québec organists on instruments manufactured by the company, or on reconstructed historical Casavant instruments, have been released in the past decade.8

Principal Pipe Organ Company, Woodstock, Ontario (1961)

The company was established by Chris Houthuyzen in Woodstock, Ontario, a town with a continuing tradition of organbuilding. The founder served his apprenticeship and received further training in The Netherlands before coming to Canada. Small to medium-sized instruments, employing electro-pneumatic action, are the company's specialty, with a contemporary emphasis on the guiding principles of Dutch organbuilding. A total of 119 installations have been completed over the years; the largest was a four-manual, 58-rank instrument. Wooden pipes are made in the shop, but most metal pipes come from suppliers in the United States; their scaling is dictated by the acoustics and intended use of the organ. Chests, reservoirs, ducting, consoles, and casework are manufactured on the premises. Much of the company's work involves rebuilding and maintaining organs, as well as the installation and servicing of church bells, including cast and electronic carillons on behalf of the Verdin Company, Cincinnati, Ohio. The company had three employees in 1998.

Gabriel Kney, London, Ontario (1962-1996)

Gabriel Kney was born in Speyer, Germany; his father was a master cabinetmaker and amateur bassoonist, and his mother was a singer. He served his apprenticeship in organbuilding with Paul Sattel in Speyer (1945-1951), where he assisted in the restoration of historic, sometimes war-damaged, instruments, along with new organ construction. Since the era was a time of transition from the "Romantic" style of organbuilding to the concepts of Orgelbewegung, this trend provided him with the opportunity to learn about and participate in the building of organs of both concepts. Concurrently he was a student of organ literature, liturgical music, harmony, and improvisation at The Institute of Church Music in the same city.

He emigrated to Canada in 1951 and joined the Keates Organ Company in Lucan, Ontario, as an organbuilder and voicer. In 1955 he was co-founder, with John Bright, of the Kney and Bright Organ Company in London, Ontario, with the intention of specializing in tracker instruments. The timing was premature, for only a few musicians and teaching institutions found such instruments of interest; with the exception of two teaching organs of tracker design supplied to a college in the United States, most of the early organs were requested to have electric key action. In 1962 Gabriel Kney established his own company in London, Ontario, where, with enlarged facilities and a staff of six to eight, he specialized in mechanical-action instruments. Organs from the period between 1962 and 1966 were designed in the historic manner of Werkprinzip, with organ pipes enclosed in a free-standing casework and separated into tonal sections. The tonal design of smaller instruments followed 18th-century North European practices, with some tuned in unequal temperaments of the period.

Altogether, his shops produced 128 organs since 1955; the largest in Canada being the four-manual, 71-stop, tracker-action instrument with two consoles in Roy Thomson Hall, Toronto. Since the early 1970s almost three-quarters of the installations were in locations in the United States, several of these in large universities. Occasionally maintenance and historic instrument restoration projects were undertaken.

Wooden pipes were made in the shop, with the exception of very large pipes made to specifications by suppliers in the United States, England, or Germany. Metal pipes also were made to order by independent pipemakers in Germany or Holland. Some console components, such as keyboards, were obtained from suppliers in the United States, England, or Germany. Electric switching devices came from the United States in earlier years, later from England. Blowers were imported from Laukhuff in Germany, Meidinger in Switzerland, or White in the United States. All casework and chest construction was done in the shop.

In 1996 Gabriel Kney retired from active organbuilding and closed his company. Since then he has acted as a consultant to churches seeking advice on organ purchase, restoration, and tonal redesign, and sometimes to other organbuilders.

Karl Wilhelm, Mont Saint-Hilaire, Québec (1966)

Karl Wilhelm was born in Lichtenthal, Rumania, and grew up in Weikersheim, Germany. At the age of 16 he entered apprenticeship with A. Laukhuff, Weikersheim (1952-1956), followed by working experience with W. E. Renkewitz, Nehren/Tübingen (1956-1957), and Metzler & Söhne, Dietikon, Switzerland (1957-1960). After moving to Canada, in 1960 he joined Casavant Frères, where he established the department and trained several employees for the production of modern mechanical organs; while there he was responsible for the design and manufacture of 26 organs. In 1966 he established his own firm, first in Saint-Hyacinthe, then moved to new facilities in Mont Saint-Hilaire, near Montréal, Québec, in 1974. For a while he was assisted by Hellmuth Wolff, now an independent builder (see below).

Karl Wilhelm specializes in building mechanical organs of all sizes, 147 to date, of which 69 are located in the United States and two in Seoul, Korea. Of the total output, 43 are one-manual instruments, 93 are two-manual instruments of medium size, and 11 are three-manual instruments--the largest is a 50-stop instrument in St. Andrew's Presbyterian Church, Toronto, installed in 1983. Two have detached consoles, and four have combination actions with electric stop-action; all instruments have mechanical key action. The design and layout of instruments adhere to the principles of the classical tradition of German and French organbuilding. Three-manual instruments feature a large swell division, suitable for the performance of Anglican Church music and the Romantic repertoire.

All wooden pipes are made on the premises, along with almost one-half of the metal pipes that are handmade of a tin-lead alloy; other metal pipes are imported from Germany. Scaling and voicing are done in the classical open-toe manner for natural speech and mellow blend. Windchests and bellows, consoles and action, and cases are manufactured in a 9,000 sq. ft. workshop. Organs may have cases of contemporary design, or perhaps are more ornate with moldings and hand-carved pipe shades that are compatible with the architecture of the location. Blowers are acquired from Laukhuff, Germany; miscellaneous parts come from other suppliers. The firm does not engage in rebuilding or renovation but services and tunes its own instruments throughout North America. In 1998 the firm had five employees, all trained by Karl Wilhelm.

Wolff & Associés, Laval, Québec (1968)

Hellmuth Wolff was born in Zurich, Switzerland. While a teenager he apprenticed with Metzler & Söhne, Dietikon, Switzerland (1953-1957); in his spare time he built his first organ, a four-stop positiv instrument. He received additional training with G. A. C. de Graff, Amsterdam (1958-1960) and with Rieger Orgelbau, Schwarzach, Austria (1960-1962). In the United States (1962-1963) he worked with Otto Hofmann, in Austin, Texas, and Charles Fisk, in Gloucester, Massachusetts. After moving to Canada he worked with Casavant Frères (1963-1965) in its newly established tracker-action department, and then with Karl Wilhelm (1966-1968), with whom he had worked at Casavant. In the interval 1965-1966 he returned briefly to Europe to work as a designer and voicer with Manufacture d'orgues Genève, in Geneva. Besides playing the piano and singing in choirs wherever he went, he completed his musical training by taking organ lessons with Win Dalm in Amsterdam and later with Bernard Lagacé in Montréal.

In 1968 he opened his own business in Laval, Québec, with one employee; his present associate, James Louder, started his apprenticeship with Hellmuth Wolff in 1974, after training in classical guitar and English. The first large project undertaken in that year was the construction of a three-manual, 26-stop instrument at the Church of St. John the Evangelist, New York City; this was one of the city's first modern tracker-action organs and it incorporated features not yet seen in North America. In 1977 the company moved to a new shop; the firm became incorporated in 1981, and James Louder became a partner in 1988.

Hellmuth Wolff has been part of the Organ Reform in North America since the movement came to this continent in the early 1960s. He specializes in mechanical-action instruments, large and small, whose design is inspired by French or German classical traditions, although other styles are represented that are designed to accommodate a wide range of organ literature. A total of 42 organs have been manufactured; about one-half of these were installed in locations in the United States. While a few small residence or practice instruments have been built, the majority are two-manual organs, in addition to eight three-manual organs, and one four-manual, 50-stop/70-rank instrument installed in Christ Church Cathedral, Indianapolis, Indiana, in 1989.9 Other related activities include rebuilding, restoration, and maintenance work, chiefly in the Montréal area.

Wooden pipes are made on the premises, while metal pipes are acquired from several pipemakers in Canada, U.S.A., and Europe; some reeds are made there, also. Windchests, consoles, and cases are also manufactured on site. Blowers are acquired from Meidinger and Laukhuff in Germany. Several installations feature both mechanical stop-action and capture systems; the first was built in 1977 for the Eighth Church of Christ, Scientist, in New York City; it was probably the first such system in North America. Both sequencers and traditional multilevel capture systems are used. There were eight employees in 1998.

Hellmuth Wolff, along with his associate, James Louder, have contributed to symposiums and written publications on organs and organbuilding.10 Fourteen compact discs, featuring performances by Canadian and American artists on Wolff instruments, have been released, and three others are in preparation.11

Brunzema Organs, Fergus, Ontario (1979-1992)

Gerhard Brunzema was born in Emden, Germany, and grew up in Menden on the Ruhr river, a northern part of the country where there was an abundance of historic organs. After World War II he apprenticed with Paul Ott in Göttingen and worked with him as a journeyman organbuilder (1948-1952). He received extensive technical training, including acoustics, at the Brunswick State Institute for Physics and Technology (1953-1954), and received a Master's degree in organbuilding in 1955. In 1953 he joined the prominent European organbuilder Jürgen Ahrend in the construction and restoration of organs, some in Holland and Germany of great historical significance; this association continued for 18 years. After emigrating to Canada he joined Casavant Frères in 1972 and served as artistic director until 1979; during that time he was responsible for the design of several notable organs in Canada, the United States, Japan, and Australia, along with the restoration of a number of historic Casavant instruments in Ontario and Québec. His experience at Casavant gave him the opportunity to work with very large organs, an experience that was lacking in Germany.

In 1979 he established his own business in Fergus, Ontario. Throughout his career he specialized mainly in small, one-manual, four-stop, continuo organs (25 in all); most of his nine two-manual instruments--the largest was 25 stops--were made between 1985 and 1987. In 1990 he was joined by his son, Friedrich, who had completed his apprenticeship in Europe. Until the time of his death in 1992, Gerhard Brunzema's total output amounted to 41 instruments; of these, 20 were installed in Canadian locations (mainly in eastern provinces), 17 in the United States, one in the Philippines, one in South Korea, and two in European countries. The tonal design of his instruments was strongly influenced by Schnitger organs that he had studied and restored while in Europe. He believed that basic organ design cannot be learned through restoration work, because such instruments were conceived by others; nevertheless, in restorations the intentions of the original builders should be respected. As for new instruments, his philosophy was that "An organbuilder should choose a style and stay with it, so that he not only continues to develop his own skills, but also continues to help improve the skills of the people working for him. . . . Become a master of one thing, get over the initial difficulties very quickly, and then polish your knowledge, the details of which will finally add up to a very good result."12

Koppejan Pipe Organs, Chilliwack, British Columbia (1979)

Adrian Koppejan was born in Veenendaal, Holland, and apprenticed with his father, who was an organbuilder there. He worked with Friedrich Weigle in Echterdingen by Stuttgart, Germany (1963-1966), with Pels & Van Leeuwen in Alkmaar, Holland (1968-1972) as shop foreman of the mechanical organ department, and with his father's company, Koppejan Pipe Organs, in Ederveen, Holland (1968-1972). He moved to Canada in 1974 and established his own company five years later.

Adrian Koppejan strives for a clear, warm, but not loud sound in his instruments, a preference inspired by classical organs of North Germany. This sound palette is reflected in the instruments in which he specializes: small and medium-size tracker instruments; he has built five electromechanical organs, as well. His output to date consists of 19 organs; these have been installed in churches and private residences in British Columbia, Alberta, and Washington state. His largest organ is a three-manual, 31-stop, electromechanical instrument, with a MIDI system, installed in the Good Shepherd Church, White Rock, B.C., in 1995. An instrument of similar size was constructed in 1998. Rebuilding, restoration, maintenance, and tuning are also part of regular activities.

Wooden pipes are mostly acquired from Laukhuff, Germany; metal pipes come from Stinkens in Holland and Laukhuff in Germany. Keyboards are made in Germany by Laukhuff or Heuss. Winding mechanisms, consoles, solid oak cabinets, and casework are manufactured in the shop. Blowers are supplied by Laukhuff, and electrical control systems come from Peterson in the U.S.A. There were two part-time employees in 1998 as Adrian Koppejan reduced the scope of his operations in anticipation of retirement.

Orgues Létourneau,  Saint-Hyacinthe, Québec (1979)

Fernand Létourneau was born in Saint-Hyacinthe, Québec, where he worked for while as a carpenter before entering employment with Casavant Frères in 1965; there he apprenticed with his uncle, Jean-Paul Létourneau, who was head reed voicer. He remained with the company for 14 years, where he was head voicer from 1975 to 1978, when he decided to set up his own independent company. First, with the help of a Canada Council grant, he embarked on an organ tour of Europe to study the voicing of old masters. Upon his return to Canada in 1978 he began building organs in Sainte-Rosalie, Québec, and became incorporated in 1979. His first organ, a two-manual, 6-stop instrument, was started in the basement of the family house and then displayed in the shop of a cabinetmaker; it was later acquired by the Conservatoire de Musique du Québec, Hull, where dozens of students have learned to play the organ on this small instrument. In 1984 he moved back to Saint-Hyacinthe, where three other organbuilders were already established. The factory's first building was formerly a municipal water-filter plant; the partially underground space provided a room 35 feet in height, ideal for erecting organs. A second industrial building was acquired recently to supplement the original premises.

A total of 55 organs of various sizes have been built to 1998; 13 others are in progress. The great majority have mechanical action, utilizing classical principles used in European instruments, and with the flexibility provided by ranks inspired by Dom Bédos, Schnitger, and Cavaillé-Coll. The largest will be a four-manual, 101-stop, mechanical-action instrument intended for the Francis Winspear Centre, Edmonton, Alberta. International distribution has been common from the outset, beginning with three early instruments that were installed in Australian locations in the early 1980s (the builder had become known on account of his activities as a voicer of Casavant instruments in that country). Others have been placed in New Zealand, Austria, England (Pembroke College, Oxford, 1995; an instrument is under construction for the Tower of London for completion in late 1999), the United States (over one-third of the total production), and Canada (chiefly eastern provinces, a few in the west). The company now has permanent representatives in the United States, England, and New Zealand. Fernand Létourneau prefers to build instruments of eclectic tonal design that are suitable for the performance of a wide range of organ literature. Historic restorations have also been undertaken.

All organ components, with the exception of electronics, are made in the factory, including wooden and metal pipes to 32-foot length, keyboards, consoles, and casework. Blowers are acquired from Laukhuff, Germany. Middle-size organs are equipped with electronic sequencers, card readers, and similar devices. The company is constantly engaged in rebuilding and restoring instruments of different vintages to original condition, about 50 to date, several of which have been designated as historical or heritage instruments. In 1998 there were 45 full-time staff in the Létourneau "family," of which a number are related to one another as father-son/daughter, uncle, brother, cousin, and husband-wife.  

Grant Smalley Pipe Organs, Victoria, British Columbia (1984)

Born in Sidney, near Victoria B.C., Grant Smalley has worked as an organbuilder since 1966. He was associated with Gabriel Kney from 1968 to 1979, primarily building tracker-action organs and installing them throughout Canada and the U.S.A. During the last eight of those years he assumed Kney's tuning and maintenance business in addition to his organbuilding duties. He returned to Victoria in 1980 and established his own business four years later, buying out the organ maintenance service of Hugo Spilker, who had done restorations in the area. His associate, Douglas Adams, received formal training in instrumentation and systems technology, and manufacturing engineering technology; in addition to assisting in the construction of the new shop, he is responsible for electrical design, construction, and mechanical work. Beverly Smalley, the wife of Grant Smalley, handles the business and financial operations. All three are active participants in community choral groups.

Grant Smalley has built several small organs: a four-stop positiv organ, mechanical action (1985); a four-stop, portable, continuo organ with 56-note transposing keyboard, mechanical action (1989); and two continuo organs of 31/2 and 41/2 ranks, both with mechanical action (1995, 1997). The major activity, however, is organ restoration, along with regular tuning and routine maintenance work: about 50 organs throughout Vancouver Island and Greater Vancouver. A number of heritage organs in Victoria, including several instruments built by Casavant Frères in the early 1900s, and others by English and American makers, have received extensive overhauls in recent years.

Wooden pipes, most windchests, consoles, and casework are built in the shop; metal pipes are ordered to specifications and voiced there. Other components acquired from suppliers include keyboards, drawknobs, switching systems, and blowers.

Blair Batty & Associates, Simcoe, Ontario (1985)

Blair Batty was born in Simcoe, and as a teenage organ player he acquired an interest in the mechanical workings of organs. His organbuilding career began with the Keates Organ Company, Acton, Ontario, where he learned windchest construction, wiring, tuning, and installation procedures. In 1976 he moved to Europe, where he learned the craft of metal pipemaking with Jacques Stin-

kens, Zeist, Holland, and the art of reed manufacturing with Carl Giesecke & Sohn, Göttingen, West Germany. During that period he travelled extensively throughout Europe to study examples of French, German, and Dutch organbuilding. In 1977 he went to Gloucester, Massachusetts, to join C. B. Fisk as a pipemaker and draftsman, then in 1979 he was invited to head the pipe shop of the Noack Organ Company, Georgetown, Massachusetts. In 1981 he returned to Canada to work for Brunzema Organs, Fergus, Ontario, then returned to Simcoe in 1985 to establish his own firm. Since then he has visited England on several occasions to study the instruments of Willis and Hill.

The company has built three new organs. One is a two-manual, 27-stop instrument of eclectic design incorporating Schnitger-inspired choruses, a French-character trumpet, and Dutch/French-style Swell mutations, with console-equipped MIDI (1991). Another is a two-manual, 19-stop instrument of British-inspired design in which the basic choruses follow William Hill, but includes a Schnitger-style trumpet, a cornet and mutations of classical French design, and string stops scaled and voiced on Cavaillé-Coll principles (1993). A four-rank box organ was built for a private customer.

The company specializes in restoring and rebuilding older organs, employing the techniques and materials of the original builder as far as possible, and provides tuning and maintenance service to about 100 churches annually throughout southwestern Ontario. Most of the components of organs are produced in the factory: Pitman and slider windchests, bellows, rollerboards, tremulants, keyboards and pedalboards, and consoles. Pipes, both wooden and metal (including reeds), are generally made on the premises; the metal pipeshop and foundry section has a 12-foot, polished granite casting table, one of the few in Canada. Blowers and electrical combination and switching actions are acquired from external suppliers. The firm also provides services, parts, and pipes to other builders and tuners. A large reference library of historical and current organ design data, including pipe scalings of hundreds of historic organs, is maintained. A computer-assisted design (CAD) system is used. The firm had three full-time employees and several part-time helpers in 1998.

Gober Organs, Toronto, Ontario (1985)

Halbert Gober was born in Austin, Texas, and began his organbuilding career with Otto Hofmann (1969-1972), an organbuilder in Austin known as an early proponent of the tracker revival. Following university studies in liberal arts and architecture, he lived in Germany from 1972 to 1980. During the first four years he studied music, architecture, and organbuilding; in the remaining years he was employed with various organbuilders, including Rensch in Lauffen-am-Neckar (1972); Jann (1977-1980), where he completed his formal apprenticeship in 1979; and Felsberg in Chur, Switzerland. Following his move to Canada in 1981 he was employed as a voicer with Karl Wilhelm until 1985, before opening his own shop in the Montréal area in that year. From there he served as a freelance voicer and pipemaker for several organbuilders in North America and Europe.

He established his own shop in Toronto in 1991, where he commenced building tracker-action organs. Output to date amounts to six two-manual instruments of medium or small size; the most recent of these is a five-stop studio organ for the University of Notre Dame, South Bend, Indiana. Rebuilds and tonal revision projects are also undertaken. His philosophy is to draw on the full heritage of historical organbuilding in the construction of cohesive and logical instruments, with equal priority to dependability and musicality.

Wooden pipes, along with metal pipes made of cast and hammered lead, are manufactured on the premises. Reed pipes, including shallots, are also made in the shop. Action parts are from Germany. There were three employees in 1998. 

Pole & Kingham, Chatham, Ontario (1985)

 Donald Pole and Ron Kingham founded their company in 1979 and then incorporated in 1985, when the construction of complete new organs commenced. Earlier, between 1966 and 1968, Ron Kingham had been an employee of John Bright, a co-founder with Gabriel Kney of the Kney & Bright Organ Company in 1955; he built a house organ under John Bright's supervision. In the first five years of their association, the partners' work was limited to tuning, repairs, cleaning, and general maintenance.

Since 1985 they have built and installed seven new electrical-action instruments (two incorporating some older parts), mostly of medium-size, all in Ontario churches; two other instruments were provided to churches in Michigan, U.S.A. While their instruments are designed to meet both liturgical and performance needs, recent organs have a Romantic bias, and the Symphonic era is recalled in a new, three-manual, 36-stop instrument (the largest to date), with its six-rank String Organ division, installed in Holy Trinity Anglican Church, in Chatham, Ontario, in 1997. Other services include restoration of both tracker- and pneumatic-action organs, rebuilding with solid-state switching, enlargement, and tonal additions, along with general maintenance and tuning.

Wooden pipes (Bourdon, Chimney Flute, Gedeckt, and Doppelflute--the latter scaled after a fine Karn stop), windchests and reservoirs, and consoles are made in the shop; metal pipes are obtained from suppliers in Canada, U.S.A., Germany, and Holland. Five employees worked with the partners in 1998.

Juget-Sinclair, Montréal, Québec (1994)

Denis Juget, a native of the Savoy region of France, received his diploma in fine cabinetmaking in Annency, Haute-Savoy, France, in 1979, then worked as an apprentice with leading organbuilders on both sides of the Atlantic, with whom he acquired skills in all phases of organbuilding: Lucien Simon, Lyon, France (1979-1983); Robert Chauvin, Dax, France (1983-

1985); Wolff & Associés, Laval, Québec, upon his arrival in Canada (1985-1991); Orgelbau Goll, Lucerne, Switzerland (1990-1991); Orgelbau Rohlf, Seitzental, Germany (1992-1994); and Karl Wilhelm, Mont Saint-Hilaire, Québec (1992-1994). Special assignments be-tween 1988 and 1990 involved the restoration, renovation, and voicing of several organs in Austria, Italy, and Spain. His organbuilding enterprise began in 1994 in Saint-Basile-le-Grand, Québec, in a backyard, two-story, former chicken coop, which was converted into a workshop. In the following year he completed a two-manual, 3-stop house organ for a private client.

Following studies in science at McGill University in Montréal, Stephen Sinclair worked first as an apprentice cabinetmaker, then as an apprentice organbuilder with Wolff & Associés (1989-1991). He received practical working experience in general organbuilding and reed-stop restoration with Manufacture d'orgues Franc-comptoise, Courtefontaine, France (1995, 1997); pipemaking with Georges Blaison, France (1996) and N. P. Mander, London, England (1997); and general organbuilding, design, voicing, maintenance, and tuning with Wolff & Associés (1992-1998). He joined Denis Juget as an equal associate in 1998.

The company divides its time between the restoration of historic instruments and the construction of small mechanical-action organs. Since 1995 five two-manual, 3-stop, house organs and one continuo organ have been manufactured; three of the house organs for clients in the United States. Works in progress include two similar house organs for destinations in Québec and Germany, and a two-manual, 10-stop practice organ for the University of Cincinnati, ready in 1999. The house organs incorporate a design by Denis Juget that enables them to be moved relatively easily without breaking down the action.

All parts are made in-house, including wooden and metal pipes, wind chests, bellows, rollerboards, keyboards and pedalboards, drawknobs, and casework (hand-planed in solid wood, using mortise-and-tenon construction). Blowers are purchased from Laukhuff, Germany. Several part-time workers assist in various stages of production and installation. Following relocation in late 1998 to an industrial space with 30-foot cathedral ceilings in Montréal, the associates intend to make the leap from building practice instruments to full-fledged church organs in the near future.

D. Leslie Smith, Fergus, Ontario (1996)

Leslie Smith grew up in southern Alberta, and acquired his interest in music at an early age through involvement in church choirs and piano lessons. He developed an early fascination with organ building and enrolled in organ performance studies at the University of Calgary after completing high school. Using practical skills acquired from his father, who was a carpenter and mechanic, he completed several kits for harpsichords and clavichords, and established an association with a local organ serviceman who introduced him to the techniques of maintaining and tuning electro-pneumatic instruments. In 1973 he moved to London, Ontario, to continue his organ studies at the University of Western Ontario. While in that city, he became acquainted with Gabriel Kney, in whose organbuilding shop he worked on a part-time basis for several years. In 1982 he joined Brunzema Organs in Fergus, Ontario, where he remained for 10 years as a journeyman organbuilder. After the death of Gerhard Brunzema in 1992 and the closing of his organbuilding operation, Leslie Smith worked as an independent contractor in pipemaking and voicing on a number of projects in Canada and the United States. His first organ, a two-manual, 11-stop studio organ was undertaken in 1982 as a part-time project while working with Gerhard Brunzema; it was completed in 1992.

In 1996 he established his new workshop on part of the former Brunzema premises. In the same year he produced his first commission, a one-manual, 6-stop, mechanical-action organ, for a cemetery chapel in Montréal. A similar organ, but without pedals, was supplied to a church in Kansas City, Missouri. Although eclectic and innovative in terms of tonal and visual design, Leslie Smith's approach is inspired by the work of mid-19th-century Canadian and American firms such as S. R. Warren of Montréal and Hook & Hastings of Boston, favoring generous scaling and higher pressures.

Wooden pipes for these two instruments were made in-house, but metal pipes were supplied by F. J. Rogers, Leeds, England. Blowers came from Laukhuff, Germany. Keyboards, and key and stop action were fabricated in the shop. Stops are divided into bass and treble, using a special form of drawstop mechanism developed by the builder. Cases are made from common hardwoods, using traditional construction techniques.

Maintenance work to organs of all makes and construction in Ontario and Québec comprises a significant part of his activity; in 1996 he was appointed curator of the largest pipe organ in Montréal, a four-manual, 86-stop Casavant instrument (installed in 1932, rebuilt in 1992 by another firm) at the Church of St. Andrew and St. Paul, and will soon undertake complete rebuilding projects, as well.

The Future of Organbuilding

The status of organbuilding in the 21st century is not easy to predict, given the variety of factors involved. Generalizations about the number of future organ installations are risky; nevertheless, it is interesting to note that, within roughly the last three decades, while the annual production of instruments of all sizes peaked several times in the 1980s, the low periods of the 1970s were again matched in the years since 1994. Whether this recession will continue in the coming years is uncertain, but some recent trends provide clues to a possible future.13

The fact that few new organs have been installed in Canadian locations in recent years is not surprising, for the distinguishing characteristics of the "golden age" of the organ in the early years of the twentieth century--in terms of the erection of new church buildings, the proliferation of organbuilding firms that supplied both churches and motion picture theaters with instruments, and public enthusiasm for organ recitals played by local and touring recitalists--are not likely to be repeated, considering shifting cultural values along with the various musical and other forms of entertainment now available.

Although most organbuilders have confined their operations to meeting only local and regional needs, several Canadian firms have cultivated the international market with apparent success. The services of the Canadian Commercial Corporation, a crown corporation of the Government of Canada that assumes the role of prime contractor and subcontracts all of the contract back to the Canadian firm, are available for companies seeking worldwide clients.

As for the tonal design of new instruments, the uneasy hybrid designs of earlier years largely have been abandoned in preference to the rediscovered qualities of universally admired older instruments of the 17th and 18th centuries, without blindly copying them. Although instruments of neoclassical design, with their historically "authentic" stoplists, are not entirely suitable for the performance of all schools of organ music, they are probably more versatile than the earlier generation of organs for general liturgical and performance purposes. On the other hand, some organbuilders prefer an eclectic approach, a matter that is subject to ongoing debate.14 The recent strong demand for mechanical-action instruments may eventually stabilize, for reasons relating to architecture, economics, changing musical tastes, and a return to the Romantic idiom in repertoire. Purchasers may prefer some of the advantages of nonmechanical instruments, such as the consistent keyboard touch and flexible console location provided by electric action.15

Much of the earlier activity of new organ construction has been redirected to rebuilding and restoring older instruments, some of historical significance. Most Canadian organbuilders engage in this growing activity, which can provide churches with a cost-effective alternative to the purchase of a comparable new instrument. Routine maintenance work is also part of the service provided by many firms, large and small.

Pipe organs have always been expensive, so electronic instruments utilizing highly developed digital technology now provide an economic alternative for church congregations lacking the will or the means to acquire and maintain a pipe organ. The respective merits of pipe organs and electronic instruments have been debated since the latter were first introduced. Nevertheless, there is an obvious answer, based on musical criteria, to the question, Which is preferable: a poorly designed, badly maintained pipe organ, or a high quality electronic instrument? Electronic instruments have a place in locations where pipe organs are out of the question, whether for space or budgetary considerations. They have proved adequate for the liturgical requirements of many small or medium-size churches with limited budgets, and these instruments have provided competition for more costly pipe organs. The increasing acceptance of electronic instruments further diminishes the probability of a significant number of new pipe organ installations in the coming years. On the other hand, educational institutions (those that are not financially beleaguered, if any) and affluent congregations of some churches (not necessarily the largest) undoubtedly will continue to prefer pipe organs for musical, historical, or social reasons, and such instruments can be supplied only by the larger, well-established, organbuilding companies.

The role of the organist is of considerable importance in ensuring a future for organbuilding. If a church considering the purchase of a new organ already has a fully trained organist, this person, working with a musically educated and supportive committee, can influence the decision in favor of a pipe organ in preference to an electronic instrument, providing that a realistic fund-raising objective can be achieved. A church with an adequate pipe organ will seek a highly trained individual to play it, and such organists ordinarily prefer appointments to churches with pipe organs; once hired, their presence encourages the continuation of the pipe organ tradition.

Changes in the liturgical practices of some religious denominations may have a subtle, long-term effect on the future of organbuilding. The emergence in some congregations of youth-segregated services, with their unique liturgical practices that employ guitars or other instruments associated with folk music or religious rock groups, may produce a generation of worshippers unfamiliar with the organ, its musical heritage, and its literature. A broader associated issue is the question of the future of institutionalized religion and its possible decline due to the growth of science, education, and secularization, or its theological transformation into various manifestations of individualistic spiritual development. These possibilities undoubtedly will take many years, perhaps centuries, to resolve.      

Shifts in population characteristics introduce another factor into the question of the future of organbuilding. Some suburban churches located in stable neighborhoods now have congregations comprised largely of aging members living on limited incomes, not offset by significant numbers of younger, fully employed members. If the present job of organ maintenance is difficult for such congregations, even with skilled volunteer labor working under the supervision of a trained organ technician, the acquisition of a new instrument is beyond consideration; in fact, the amalgamation or dispersal of these congregations is the more likely scenario. The inevitable result would be the closing of some church buildings, along with the possible removal or relocation of existing pipe organs. The more affluent churches with a wider spread of ages among their members, and which encourage the full participation of younger members in their musical programs, are the only ones that will escape this fate, thus leaving open the possibility of the purchase of a new organ in the distant future. A related consideration, which provides a cause for optimism, is grounded in the speculation that recent declines in per capita real income may stimulate group activities at the expense of individual life styles, and that churches may again become a center of social as well as spiritual activities. In such contexts the pipe organ, as a cultural, religious, and artistic centerpiece, may serve as a source of pride and inspiration, and as a vehicle for the renewal of congregations.16

Over the longer term, increased public awareness, combined with both formal and informal educational opportunities, may contribute to the sustained vitality of the organ culture generally, including organbuilding. Radio broadcasts of organ recordings, instructive television programs, increased concert programming for organ and other instruments, and the development of audiences for subscription series of organ recitals, would increase knowledge of the organ among the general public. In the educational system, in-service sessions on the organ for school music teachers, the preparation of classroom learning materials for use in regular music instruction courses, and the participation of students in on-site inspection trips and demonstrations would provide practical contexts for raising awareness of the organ at a level that students can understand and enjoy.17 As for organists, competitions or commissions for hymn arrangements, sacred songs, or new compositions for the organ could be fostered on both the regional and national levels by the Royal Canadian College of Organists. These informational and educational programs would contribute to the development and maintenance of an appreciative audience for the organ throughout the coming decades. Such forms of revitalization would ensure the future of the King of Instruments well into the 21st century.

REFERENCES

                        13.              Some of the following material is adapted from the chapter, "The Future of the Organ," in Hartman, The Organ in Manitoba (note 5 above).

                        14.              See Quentin Regestein and Lois Regestein, "The 'Right' Organ," The Diapason, August 1998, 13-16; September 1998, 17-18. Radically opposing points of view debate the legitimacy of a "universal" hybrid organ, one that is perfect for everything.

                        15.              R. E. Colberd, "Pipe Organ Building: the Nineties and Beyond," The Diapason, July 1994, 12.

                        16.              Ibid., 14.

                        17.              For a description of a recent educational event for school children, see Valerie L. Hall, "Meet the King of Instruments: A Successful Workshop Model for Kids," Organ Canada, July 1998, 9.

John Brombaugh was a student of Fritz Noack, Charles Fisk, and Rudolf von Beckerath between 1964–68. He worked as an organbuilder in Germantown, Ohio, from 1968–77, and in Eugene, Oregon, from 1977–2005. 

Cor (Cornelius Herman) Edskes, noted organologist, left this world on September 7, 2015, from his hometown, Groningen, in the northeastern corner of the Netherlands, where he was born on August 1, 1925. He is survived by two younger brothers, Herman and Bernardt, the latter who has been building organs in Switzerland for many years. Another younger brother, Bram (Hilbrand Albert), who was an optometrist and organized many organ concerts and excursions for over 60 years, passed away in March 2013.

Cor Edskes was a leader in organ building from its Romantic twilight through the Organ Reform/neo-Baroque movement of the 1920s through 1960s into the compelling search for historic authenticity in building new organs and restoring historic instruments much as his friend, Gustav Leonhardt, and others such as Nikolaus Harnoncourt and Christopher Hogwood led musicians into the historically informed performance of the music of earlier times.

Edskes received his first organ lessons from Johan van Meurs, the organist at Der Aa-kerk in Groningen who had taught many others, such as the Haarlem Bavokerk organist, Klaas Bolt. Edskes later studied with many others including Helmut Walcha. Around 1940 he became church organist on the 1700 Schnitger organ in Uithuizen, Province Groningen and moved ca. 1942 to the Mennonite church in Groningen, where he served until very late in his life, and where he had a new Marcussen organ installed in 1961. He was appointed to the Organ Commission of the Netherlands Reformed Church in 1957 and in 1963, moved on to assist Hendrik Oussoren, the organ consultant for the Netherlands national Monumental Heritage. In 1954, he began working with Het Orgel (the Dutch equivalent of The Diapason), and became that monthly journal’s chief editor from 1957 to 1963.

Living in the region surrounding the Dollart bay where the Ems flows into the North Sea put Edskes next to the largest collection of extant historic organs of any style in the world. (See https://de.wikipedia.org/wiki/Orgellandschaft_Ostfriesland.) Because the area had lost much of its source of wealth as a medieval shipping center during the Hanseatic ascendancy, funds needed for constant upgrading as organ styles changed had not been available for centuries, so these instruments tended to be left in remarkably unaltered condition. As Germany recovered from World War II, it was ready to spend funds making necessary repairs to poorly maintained historic organs. As part of such work, the organ advisor for the Reformed churches in the Emden, Ostfriesland area asked the Jürgen Ahrend & Gerd Brunzema organ shop—newly founded in nearby Leer in 1954—to restore a late Renaissance organ in Larrelt as their first job. Living not far from Leer, Cor Edskes was to discover their seldom-found skills. This developed a productive friendship between Edskes and A&B that instigated the re-introduction of meantone and restoration of the short-octave keyboards for the first time in our modern era when they restored the 1642 Jost Sieburg organ in Westerhusen in 1955. The team continued restoring other nearby historic organs such as Rysum (1457, which was to be found the world’s oldest known organ that was in virtually original condition) and Uttum, ca. 1660. Edskes was consequently able to advance important ideas working with the small, young firm that was not hindered by resistance to change so typical of the established large, production-oriented firms. (See https://de.wikipedia.org/wiki/Jürgen_Ahrend_Orgelbau.)

Cor Edskes and Gustav Leonhardt also became good friends early on. This influenced Leonhardt to encourage his many American Fulbright students to visit the historic organs in the Groningen/Ostfriesland region. Being able to see, hear, and play such a wealth of historic organs unlike those anywhere else had an enormous effect on their musical ideas. Edskes also worked with young organists—e.g., Harald Vogel—who were interested not only in learning to play in the historic manner, but in the construction of the historic organs. 

This prompted Vogel to encourage builders to adapt their work to the ideas found in the extant organs so prevalent in Groningen/Ostfriesland. Certainly that happened when this writer—by fate—was urged by Vogel to make his first visit to the Groningen/Ostfriesland region in May 1968. Vogel introduced me to Edskes as we went to visit the 1702 Schnitger organ in Der Aa-kerk in Groningen. Needless to say, hearing that organ with Edskes sitting at my side changed my life. But I am not unique; the same has happened with many younger builders after learning of my fate with Vogel and Edskes. Such was particularly the case when my former partners, George Taylor and John Boody, had their first visit with Edskes in Fall 1977. Realizing their skills, Edskes quickly summoned them to dismantle the Schnitger organ in Der Aa-kerk’s high brick Gothic building, which was approaching a structural collapse that could also ruin the exceptional organ in its nave. T&B moved all parts to the nearby Martinikerk. By 1990, Der Aa-kerk was completely restored and its organ could be put back to use with almost no alterations. After my first visit to Der Aa-kerk, Vogel, Edskes, and I walked across town to the Martinikerk to hear the mid-15th-century organ of Groningen origin that Schnitger revised in 1690 as his first project in the Netherlands. This muach-recorded organ is the only Schnitger that has its original pedal façade Præstant 32′ pipes (which, however, begin with the 24′ F with no lower bass pipes).

Cor Edskes continued working to understand the great historic organs in Northern Europe to the end of his life. As a result, he was to become the leading consultant for many significant restorations in this vast region. That included advising the Flentrop firm’s 1965 restoration of the 1671 Pieter Backer organ in Medemblik. As part of that work, Edskes required the Werckmeister’s III Well-Temperament to be reintroduced for the first time in our modern time. Upon hearing a recording soon after that work was done, this writer concluded in 1970 that this better way to hear and play organs must be used in his new work in America; that totally ended (except for his changeable-pitch continuo Positives) his use of equal temperament after finishing only one project in ET done while an apprentice in 1966. 

With Edskes’ connections with Leonhardt, he became advisor for A&B’s 1965 restoration of the 1680 Langlez/1734 Christian Müller organ in the Amsterdam Waalse Kerk where Leonhardt was organist. In 1981, Edskes supervised Marcussen’s restoration of the 1655 Schonat organ in the Amsterdam Nieuwe Kerk where Leonhardt had moved to become organist. In 1984 Edskes worked with Jürgen Ahrend on the major renewal/restoration of the Groningen Martinikerk Schnitger organ that had almost been destroyed in 1939 by conversion to electric action and unfortunate attempts at neo-baroquizing the voicing in an attempt to bring it ‘up to date’. Fortunately, with Ahrend’s skills and with Edskes’ knowledge and his good working relationship with Ahrend, this very tenuous project turned into a grand success, as the many recordings on this organ show. 

From these significant improvements to the instruments he cared for, Edskes was being recognized elsewhere, and in 1991 he worked as adviser along with support of the cathedral’s organist, Kristian Olesen, when Marcussen restored the oldest extant organ in Denmark—at the Danish National Cathedral in Roskilde where all the Danish kings and queens back to the 1100s are buried—which was built in 1555 by Netherlander Hermann Raphael Rodensteen. In the 1990s, Edskes supervised restorations on organs in the Kongsberg Kirke and Røros Kirke in Norway and others in Scandinavia. Perhaps the most significant of all historic restoration work in northern Europe occurred when Edskes worked with Jürgen Ahrend to restore the largest of all remaining Schnitger organs, the 60-stop instrument in the Hamburg Jacobikirche that Bach played in 1720. This organ was re-inaugurated on Easter 1993 to an audience coming from all over the world to celebrate its 300th anniversary. The many recordings made since demonstrate Edskes’ knowledge as an advisor, achieving the finest restoration work found on any historic organ today. 

Among those describing Cor Edskes, Dutch builder Henk van Eeken states: 

His manner of working in which the organ builder had a central rôle, was striking. In his still phenomenal ‘Report on the organ in the Groningen Martinikerk’ prepared in 1972, he chose to re-create the state of the Martini organ as it was in 1740 (soon after Schnitger’s son, Frans-Casper, had brought his father’s work to its present state).

Van Eeken adds:

The possibility of restoring the organ in this way, it is vitally connected with the capability of the person chosen for the restoration, who shall have to satisfy the very highest requirements. If it is not possible to choose a restorer with these qualifications, then the execution of the restoration plan will be completely illusory.

A Groningen documentation film described 

. . . Cor Edskes, a sprightly 85 year old whose career was devoted to the restoration of the historic organs of Northern Europe. His vast knowledge and experience makes him probably the greatest living authority on the subject, and his sparkling personality makes this subject enthralling and entertaining.

Dutch organist Sietze de Vries writes in his “In memoriam Cornelius Herman Edskes (1925–2015)”: 

His ‘experience’ may be understood in a most literal sense: no organ consultant has left such pioneering and guidance work as he . . . Edskes was one of the most influential art and antiques experts of his time. When he came as an advisor to the reconstruction of the choir organ in the Nieuwe Kerk in Amsterdam, an antiques fair was taking place. All fake glasses disappeared under the table.

Edskes often worked with Harald Vogel and others to publish important historic documentation, such as Arp Schnitger und sein Werk (Hauschild, Bremen 2009, ISBN 978-3-89757-326-0). Much more information (such as many projects not listed here that Edskes was associated with) can be found (in German) at https://de.wikipedia.org/wiki/Cornelius_H._Edskes.

Although some think Edskes tended to keep most of his important information to himself—as almost no one was permitted into ‘his’ organ world—he was never secretive when sharing so much of his knowledge with this writer. In recognizing that knowledge, the University of Göteborg, Sweden, under the guidance of Hans Davidsson, crowned Cor Edskes’ achievements with the Doctor Honoris Causa on October 19, 1996. It was also a great privilege for us Americans that he shared his knowledge with us at the Westfield Center conference in Eugene, Oregon, in April 2010, Heer Edskes’ only visit to North America. His funeral took place on September 15, 2015, in his beloved Martinikerk in Groningen with his longtime friend, Wim van Beek, playing the great Schnitger organ that Edskes helped return to greatness and took so many of us to see whenever we could visit Groningen.

The genealogy of a restored instrument

Andrew Forrest began with Orgues Létourneau Limitée in February 1999 and in his current position as Artistic Director, oversees all of the company’s projects. He travels regularly to meet with clients, architects, and acousticians, as well as to supervise the company’s on-site tonal finishing. Mr. Forrest has a keen interest in the art of pipe scaling and has completed studies of the String division of Philadelphia’s Wanamaker Organ and the 1955 Aeolian-Skinner pipe organ at Winthrop University among others. He served on the local organizing committee for the joint AIO-ISO 2010 convention held in Montréal, and in October 2011, Forrest was elected to the American Institute of Organbuilders’ Board of Directors for a three-year term. He holds a bachelor of arts degree in political science and economics from Carleton University in Ottawa, Ontario. An organist himself, Andrew Forrest has two children and lives in Mont-Saint-Hilaire, Québec.

The present pipe organ at St. James United Church is unique among Montréal’s many interesting organs because much of the organ’s pipework dates back to an 1889 instrument by E.D. Wadsworth & Brothers, Organ Builders. Edward Wadsworth opened his own organbuilding company in Manchester, England, in 1861 after apprenticing with Kirtland & Jardine; his family subsequently continued in the organbuilding trade under various forms of the Wadsworth name until 1946, when the company was absorbed by Jardine & Company of Manchester. Present-day British organbuilding colleagues have suggested that earlier Wadsworth organs with mechanical actions are superior to the later pneumatic examples, but it remains clear that the Wadsworth name never achieved the status of other British builders during the latter half of the 19th century, such as William Hill, “Father” Henry Willis, or T.C. Lewis.

Perhaps sensing new business opportunities, Edward Wadsworth moved to Montréal in 1887 to establish a branch office of the family company at 298 Craig Street (which today is called rue St-Antoine). The company built two instruments in Canada, the first being a small tracker organ of ten stops for Trivett Memorial Church in Exeter, Ontario, in 1888. The second project for St. James Methodist Church (as the church was originally known) was on a grander scale; the handwritten contract dated June of 1888 was for a grand pipe organ of 49 stops with “tractile” key action. The price for the new organ was established at $11,550, less $2,375 for the church’s old pipe organ. For reference, the signing of the Wadsworth contract took place at the same time as construction was ongoing in the workshops of Samuel and Claver Casavant of a 73-stop instrument for Montréal’s Basilique Notre-Dame; the price for the Casavant organ was some $24,800.

With a 32′ flue stop in the pedal division and two divisions on each of the three manuals, the Wadsworth organ was a novel and complex instrument. The two divisions per manual could be played separately, or coupled together by the touch of a thumb piston under each manual. In addition, each manual had its own drawknobs for appropriate pedal stops and a dedicated “pedalier” thumb piston to bring the selected registration into play as one moved from manual to manual. The middle manual controlled the Great and Back Great divisions, while the Solo—in its own swell box—was partnered on the lowest manual with the unenclosed Choir. The Swell and Echo divisions, playable from the third manual, were enclosed together.

A comparison of the 1888 contract to the instrument’s final specification shows that two optional stops—a 16′ Lieblich Gedackt for the Choir and a 16′ Contra Fagotto for the Solo—were added as the organ was being built. Stops were equally rearranged within the specification, presumably for a better musical result: The 16′ Contra Fagotto was moved to the Back Great division with the Great 8′ and 4′ reeds, permitting the reeds to be brought in or retired collectively in a ventil-like fashion via the thumb pistons under the Great manual. The 8′ Vox Humana likewise migrated from the Solo division to the Echo, while the 8′ Gamba and 8′ Voix Celeste stops came together in the Solo from their separated locations in the Swell and Echo divisions respectively.

Lynnwood Farnam served as organist for St. James Methodist Church from 1904 to 1905, and was well acquainted with the Wadsworth instrument. His notebook entry on the organ provides many details on the as-built stoplist and forms the basis for our understanding of the completed 1889–91 Wadsworth instrument. Though Farnham’s pages on the St. James organ are typically meticulous, it is unclear what kind of key action or key actions Wadsworth employed in his instrument; but it seems highly unlikely that the organ had purely mechanical key action. At the least, some form of pneumatic action would have been employed to manage the complexity of two divisions per manual. Farnam does list all couplers as operating pneumatically, with the console having the six usual unison couplers along with sub and octave couplers for the Swell manual, and a Swell to Great Sub coupler.

Unfortunately, the luster literally wore off the Wadsworth instrument at St. James Church within two years of its completion in 1889. The new organ was frequently crippled by problems arising from humidity and heating within the new church building. The church acknowledged this in an indenture document signed with Wadsworth in June  1891, wherein the complaint was also lodged that the organ’s “exterior has not preserved its absolutely fresh appearance.” The agreement offered Wadsworth an additional $1,000 to repair and otherwise complete his instrument, which, according to the document, had already been in place for two years.

The results of this remedial work were proclaimed satisfactory in a letter dated September 23, 1891, from the agreed-upon arbiter, Frederick Archer, to John Torrance, Secretary to the Trustees of St. James Methodist Church:

My dear Sir,

I have this day examined in detail the organ erected by Mr. E. Wadsworth in St. James Church, Montreal with the following results.

I find the wind supply is now ample for every possible purpose, its transmission to every junction of the instrument with uninterrupted “steadiness”. The wind trunks, sound boards, etc. are perfectly air tight and the whole of the mechanism is in thoroughly satisfactory condition.

The repairs have been carefully and substantially done in full accordance with the agreement entered into with him in June last, and with ordinary care and attention, the instrument will, to the best of my knowledge and belief, be now found entirely adequate to all legitimate demands made on it.

. . . I am pleased to be able to report so favourably, but as Mr. Wadsworth has evidently done his work of renovation in so conscientious and thorough a manner, it is but one to him that I could bear witness of the fact. 

Archer was a renowned English organist and choral conductor living in the United States, with a reputation as an expert on pipe organs that extended as far as Montréal; he played three dedicatory concerts on the Casavant organ at la Basilique Notre-Dame in May of 1891.

If the Wadsworth instrument was indeed playing as early as 1889, this raises questions about how such a large pipe organ was built within a year by an organ builder who had only arrived in Montréal a few years earlier. For example, from where did Wadsworth obtain his pipework for the new St. James organ? One distinct possibility is that he purchased pipes from another builder such as S.R. Warren & Sons or from a supply house. Similarly, Wadsworth may have ordered pipes from the family workshops in Manchester, England, and had them shipped to Canada. Having said that, Wadsworth was accused of using old pipework in the new organ for St. James Church, including the Pedal 16′ Trombone and the Echo 8′ Hautbois. Our survey of the organ’s present pipework suggests that some ranks pre-date 1889: the f#19 pipe of the Great 16′ Double Diapason, for example, is clearly scribed “1881”, some seven years before the organ’s contract was signed.

Considering the spatial volume of the sanctuary at St. James’ Church and the organ’s recessed location within the chancel, the scaling of the Wadsworth pipework is surprisingly modest in comparison with the large organs of, say, William Hill. The original Great 8′ Open Diapason approaches the Normalmensur (NM) standard around 4′ C and again in the 1′ octave but never exceeds it. The Great 4′ Principal is consistently two to three pipes smaller than the 8′, and it is only in their uppermost octaves that the Great 22⁄3′ Twelfth (a tapered rank) and 2′ Fifteenth ranks exceed NM. These statements are slightly complicated by Warren’s re-scaling and re-pitching of the original pipework in their later reconstruction, but it remains that the scalings of Wadsworth’s principals and choruses were unexpectedly reticent. The quality of the Wadsworth pipes is unremarkable when compared with the later Warren and Casavant pipes, and while most of Wadsworth’s metal pipes were made from spotted metal, the metal itself is quite thin. The Swell 8′ Viola Ætheria is an extreme example: the spotted metal in the bass octaves is so thin that lifting the pipe carelessly from the top can easily deform the pipe’s body. The effect produced by these moderately scaled pipes sounding on generous wind pressures and having been voiced to fill a large room is one of surprising brilliance and great clarity.

Wadsworth’s wooden stops throughout the organ were unvarying, with stopped bass and tenor octaves that transition to open pipes with inverted mouths at c25, similar to a Melodia. The Solo 8′ Concert Flute and the Choir 8′ Lieblich Flute are traditional in the sense that the open pipe bodies are deeper than they are wide, but the proportions for the Great 8′ and 4′ flutes are notably wide and shallow. The present Choir 8′ Flute Celeste originally served as Wadsworth’s 8′ Echo Flute and also features this type of wide mouth construction. Like the metal pipes, the quality of construction is adequate but unexceptional; the thickness of the wood is consistently thinner than the later Warren pipes, and the quality of the joinery is slightly coarse and uneven.

Though E.D. Wadsworth & Bros. was still advertising in the Montréal area as late as 1902, it is unclear what happened to Edward Wadsworth after the completion of the St. James organ in 1891. Wadsworth did not achieve fame or fortune with the St. James’ organ: within days of Frederick Archer’s note pronouncing the organ complete in September 1891, Wadsworth sent the church trustees a handwritten note requesting an advance of $30 as he found himself “rather short.”

The Wadsworth organ served the church for eighteen years, a period that included Lynnwood Farnam’s tenure as organist. It was replaced in 1909 with a pipe organ by the Warren Church Organ Company, reusing a majority of the Wadsworth pipes, at a cost of $6,000. The Warren Church Organ Company was established in Woodstock, Ontario, in 1907 by Frank, Mansfield, and Russell Warren, and can be considered the last vestige of the once-proud Warren name in Canadian organbuilding.

The Warren organ added a number of new stops and redistributed most of the Wadsworth ranks throughout the instrument. A massively scaled 8′ Open Diapason was added to the Great, displacing Wadsworth’s original to secondary status. The Choir division was enhanced by a new 8′ Cor anglais with free reeds; this stop was likely purchased from a supplier, as its construction details are unlike anything else in the organ. A new Solo division was also provided on some 10′′ of wind and included new Stentorphone, Doppelflöte, German Gamba, and Tuba stops.

It appears Warren provided all-new wind chests rather than reusing the Wadsworth chests; this conclusion is based on Farnam’s description of the operation of the sub octave (G) and octave (A) couplers for the Great division and the general increase in the number of stops per division. The rearranging of the Choir to reside within the same expressive enclosure as the Swell, and likewise the Echo with the Solo, is further confirmation that the 1909 instrument represented substantial change behind the original Wadsworth façade.

The new Warren console of four manuals provided a new level of flexibility for organists, with each piston being adjustable by drawing the desired stop combination and then pulling the piston head out by a fraction of an inch. There were a total of four pistons operating on the entire organ and between three and five pistons operating on each division. The console also featured a pédale à bascule (a balanced pedal) providing a general crescendo and diminuendo effect.

Our examination of the pipework suggests that the pitch of the Wadsworth pipes was sharp of modern concert pitch (A=440Hz). To lower the pitch, Warren moved all of the Wadsworth stops up by one note and provided a new low C pipe for each stop; this served to increase the scale of each stop by one pipe in the process. The Warren company also filled out the gaps in Wadsworth’s numerous short-compass stops, such as the Great 16′ Contra Fagotto, Choir 8′ Clarionet, Echo 8′ Echo Flute, Choir 8′ Dulciana, and the Choir 8′ Voix Celeste.

Warren went beyond re-pitching the organ in some cases and rescaled several ranks, likely to achieve a fuller sound. It is equally possible that Wadsworth himself may have engaged in some re-scaling to suit his purposes, if one allows he recycled older pipework in his 1889 instrument. For instance, the Choir 4′ Flûte Octaviante and Great 4′ Principal ranks both have many pipes marked with three successive pitches, suggesting that the original scale was too small. In the same way, the Swell 8′ Open Diapason and 4′ Octave stops have been rescaled no less than three times by their fourth octave. As with adjusting the scales of various stops, there is no reason to think Warren would have hesitated to increase wind pressures and/or revoice the Wadsworth pipework as needed.

The Warren company was equally revisionist with the organ’s reed stops. The scales for Wadsworth’s original Great reed chorus were surprisingly thin—notably smaller than the Swell chorus—so Warren replaced the Great 8′ Trumpet with a new stop of larger scale. The original 8′ Trumpet was reworked into a 16′ Bassoon for the Swell division, with Warren providing twelve new half-length pipes for the bottom octave. Warren also added eighteen new full-length pipes to complete the missing bass of the Great 16′ Contra Fagotto. In fact, the only Wadsworth reed stops to emerge from the Warren workshops relatively untouched—beyond being shifted up one pipe as part of re-pitching the organ—were the Swell 8′ Cornopean, the Great and Swell 4′ Clarions and possibly the Swell 8′ Vox Humana (which disappeared in 1956). Most of Wadsworth’s color stops were replaced outright, though the 8′ Clarionet was rebuilt with new shallots, blocks, and boots, as well as equipped with new adjustable bells for tonal regulation. The 1889 organ had two oboe stops—the Solo 8′ Orchestral Oboe and the Echo 8′ Hautbois—though Farnam’s notes state that the Orchestral Oboe’s pipes had been “taken out” by the time of his visit. Neither stop survived; the pipes for both the present Swell 8′ Oboe and the Solo 8′ Orchestral Oboe are consistent in terms of construction and materials with Warren’s other work.

Farnam returned to St. James Methodist Church on February 15, 1910, to play the new Warren organ, and his notes again provide useful details about the changes that were wrought. Farnam did not seem entirely pleased with all of the changes made to the instrument, noting that the “32-foot has been quite ruined…” and all of the 2′ stops seemed very “spiky,” especially the 2′ Fifteenth in the Great. He praised the new electric key action, though went on to mention the Swell action was very noisy from inside the instrument.

After nearly thirty years of service from the Warren organ, St. James United Church—note the change in name—signed a contract with Casavant Frères in July 1938 for an organ that reused almost all of the old pipework on new windchests. As stipulated in the purchase agreement, the organ would be installed by December 18, 1938—some five months later—at a cost of $16,000. Wadsworth’s 16′ façade was to be preserved, though Casavant successfully lobbied to have the façade moved two feet towards the nave to accommodate the enlarged instrument. The short amount of time between the contract signing and the project’s anticipated completion may reflect the lingering effects of the Great Depression; it is likewise indicative that Casavant agreed to finance nearly half of the contract amount over a three-year period after the organ had been completed!

Casavant’s Opus 1608 incorporated their state-of-the-art electro-pneumatic windchests with pitman-type stop actions built into the pouchboards for instantaneous registration changes. The compasses of the manual divisions were increased from 61 notes to 68 notes, and the number of pedals increased from 30 to 32 notes. The organ’s wind system was comprehensively redesigned, reusing old wind reservoirs and their cone-valve regulators where practical. A new four-manual console was also provided, incorporating Casavant’s pneumatic combination action and trademark furnishings. Like Warren, Casavant consolidated the instrument’s specification from five manual divisions to four—eliminating the Echo division—and transferred several stops between divisions in the process. The Swell, Choir, and Solo divisions were furnished with independent expressive enclosures, each operated by Casavant’s 8-stage pneumatic motors.

A new Nazard 22⁄3′ made up of stopped pipes was added to the Choir, while a 4′ Violina—made up largely from repurposed pipework—was added to the Solo division. The Pedal division was augmented through new extensions to the existing stops, though the Wadsworth 16′–8′ Violone rank appears to have been entirely replaced in 1938 with new pipes. The original Pedal 16′ Trombone with its wooden shallots was extended downward by twelve full-length pipes to create the 32′ Bombarde stop, with the entire rank sounding on 7′′ wind pressure. The Carillon (or Chimes) tubes were maintained from the 1909 instrument but provided with a new striker rail, and a new 61-note Harp was added. Finally, whatever was left of Wadsworth’s “ruined” 32′ Open Diapason was eliminated, and a new 32′ Acoustic Bass stop was provided with twelve independent pipes sounding at the fifth to create the 32′ effect.

The Wadsworth-Warren instrument would have been a comfortable fit with the tonal inclinations of Stephen Stoot, Casavant’s technical director in 1938. An Englishman, many of Stoot’s instruments drew from this heritage, and in this sense the Wadsworth and Warren materials would not have seemed particularly foreign—though there may have been some disappointment with their quality. As one example, the placement of reed choruses on separate windchests was a trend in English organbuilding during the late Victorian and Edwardian eras, enabling higher wind pressures for the reed stops for a smoother tone. At St. James, the Great and Swell reed choruses were indeed separated in this manner, but the similar wind pressures between flues and reeds ultimately made this something of a hollow gesture.

After 1938, the organ saw a few changes prior to the restoration undertaken in 2011–12. The 8′ Vox Humana in the Swell division was replaced during the mid-1950s with a stopped 22⁄3′ Nazard rank. In the 1980s, the original Great mixtures were replaced with two new stops that were poorly suited to the instrument’s aesthetic. Likewise, the Great and Swell reed choruses were modified to give a brighter tone, with the resonators being cut to length after the original regulating slots had been soldered shut. One other significant change relates to the instrument’s appearance: church photos show a heavy drape hung above and to the sides of the Wadsworth façade, serving to hide the windchests and pipes from the Great and Pedal divisions. This drape was in place until possibly the early 1980s but it is unclear when exactly it disappeared; Philip Crozier, Director of Music at St. James, relates the drape had been removed by the time he was hired in 1986. The drape’s disappearance would have surely had some effect on the sound of the organ, tilting the organ’s tonal balance towards an even more present and brilliant sound—though to what degree can only be guessed.

The restoration work undertaken by Orgues Létourneau Limitée over a twelve-month period included re-leathering all of the electro-pneumatic windchest actions; restoring all of the wind reservoirs and other wind system components; and documenting in detail the instrument’s pipework. Forty ranks from the original Wadsworth instrument have survived, though many ranks have been subsequently rescaled or rearranged as described above.

As part of the restoration effort, two new mixtures were built for the Great division to replace the unsuitable examples added in the 1980s. In the absence of information regarding their original compositions, the new mixtures’ breaks follow English examples contemporary to the Wadsworth instrument, while the scalings follow progressions established by the Great 2′ Fifteenth and the original Swell mixture. The mild Swell mixture (containing a tierce rank) was restored to its original specification, with the two breaks returning to their original places at c25 and f#31. Finally, a new slotted 8′ Vox Humana in the style of Father Willis was developed and installed in the Swell division.

After nearly 75 years of service, the four-manual console was thoroughly rebuilt to discreetly incorporate modern playing conveniences, including multiple memory levels, additional thumb pistons, and a general piston sequencer. The organ’s switching system and wiring—much of it dating back to 1938—was entirely replaced with a new state-of-the-art system. Beyond the Wadsworth pipework from 1889, some of the instrument’s more intriguing tonal features include the full-length 32′ Bombarde, the Solo 8′ Stentorphone with its leathered upper lips, the free-reed 8′ Cor Anglais, and the 61-note Harp stop in the Choir division.

The organ was tonally regulated within the church by a team of Létourneau voicers over the course of several weeks in early 2012. Shortly thereafter, the church’s offices and meeting spaces were heavily damaged in a fire, though the sanctuary and the organ were spared. The restored organ was first heard in concert during the church’s annual noon-hour series throughout the following summer, and as autumn approached, the organ served as the “home” instrument for the annual Orgues et Couleurs festival, with two major solo concerts performed by Johann Vexo and Philip Crozier. Since Mr. Crozier’s appointment as Director of Music, the organ has been heard in a continuous series of summer recitals over the past 26 years, with the single exception being the summer of 2011, when the instrument was being restored in the Létourneau workshops.

An instrument in the English Town Hall tradition, the pipe organ at St. James United Church has played an important role in Montréal’s organ scene and has hosted concerts by renowned organists such as Lynnwood Farnam, Fernando Germani, Raymond Daveluy, André Marchal, Bernard Lagacé, E. Power Biggs, Francis Jackson, and Simon Preston. More recently, the instrument has been heard in performances by Joseph Nolan and Sietze de Vries. All of us at Létourneau Pipe Organs remain honored to have been entrusted with this significant restoration project and are pleased to see this pipe organ reclaiming its rightful place as one of Montréal’s most noteworthy instruments.

The author would like to thank the following individuals for their assistance in preparing this article: John Mander, Mark Venning, David Wood, Karl Raudsepp, Bill Vineer (The Vineer Organ Library), Allen Fuller, Philip Crozier, Fernand Létourneau, and Dany Nault.

James Earl Bratcher, Garland P. Bruce, Delores Bruch Cannon, Henri Delorme, Morley J. Lush

James Earl Bratcher died on August 14. He was 77. In 1974 he formed the New Mexico Symphony Chorus and served as assistant conductor of the New Mexico Symphony Orchestra. Bratcher earned degrees in voice, organ, and education from the University of New Mexico; after completing his master’s degree, he moved to New York City, where he enrolled in the Union Theological Seminary. He performed with the original Robert Shaw Chorale and as a soloist in concerts with Joan Sutherland and Marilyn Horne, among others. 

Bratcher taught at Bethel College in Tennessee and Columbus College in Georgia, then returned to Albuquerque in 1970 and directed choirs and taught English at Eldorado High School. In the late 1980s, he joined a Lutheran Benedictine monastery in Michigan; when the order became cloistered, he moved to Orlando, Florida, as a Franciscan monk. There he established a home for AIDS patients and homeless men; he returned to Albuquerque in 1995.

Bratcher was one of the originators of Opera Southwest, which began in 1972 as Albuquerque Opera Theatre, serving as its artistic/music director from 1979–1987 and in the mid-1990s. A member of the University of New Mexico John Donald Robb Musical Trust board of directors since 2003, Bratcher arranged and edited John Donald Robb compositions and traditional Hispanic music, most recently editing Robb’s Requiem for its April 2012 debut by the Bach Society of St. Louis. He was completing manuscripts for the second edition of Robb’s Hispanic Folk Songs of New Mexico at his death. He also staged Robb’s folk opera Little Jo at the National Hispanic Cultural Center in 2005, and designed the program for a February 2012 Robb Concert. In 2004, Bratcher received the Albuquerque Arts Alliance Bravo Award for Excellence in Music. 

Garland P. Bruce died July 9 in Bluefield, West Virginia. He was 82. A Bluefield native, in his youth he played in small churches as a substitute pianist and organist; he studied organ with Elizabeth French. For more than 30 years he was organist-choirmaster at Westminster Presbyterian Church in Bluefield, where he built the music program; the annual Christmas candlelight service was the area’s largest musical event. Bruce appeared on the March of Dimes telethon on WVVA, and played at venues throughout the area. Garland P. Bruce is survived by his wife of 45 years, Mary Josephine, four stepchildren, six grandchildren, and four great-grandchildren.

Delores Bruch Cannon, of Lee’s Summit, Missouri, died October 22. Born September 22, 1934, in Independence, Missouri, she earned an associate’s degree from Graceland College in 1954 and a B.S.Ed. in 1956 from Central Missouri States. She taught high school English and music for two years at the Laboratory School in Odessa, Missouri, and subsequently music in elementary schools in Independence, Missouri. 

She received an M.M. from the University of Missouri at Kansas City in 1969 and a D.M.A. from the University of Kansas in 1979. Her college teaching career began at Emporia State University in 1975, followed by three years as an assistant instructor at the University of Kansas. In 1978 she was appointed assistant professor and artist in residence at Park College. She joined the organ department in the School of Music at the University of Iowa in 1979 and was appointed professor of music in 1987; she was head of the organ department from 1989–92, and associate dean of the College of Liberal Arts in 1992–93. She retired from the University of Iowa in 1999. 

Her interest in historic instruments led to fellowships and research grants in Germany, the Netherlands, Italy, and Mexico. She performed in the United States, Mexico, Canada, and Europe. She held leadership positions at local, regional and national levels in the American Guild of Organists. As a founding member of the Association of Lutheran Church Musicians, Cannon served on its national board of directors and was a contributing editor for the journal CrossAccents. As a member of the Organ Historical Society, she was a founding member of the Eastern Iowa chapter. Cannon was married to Ron Bruch and later to Donald Cannon, who survives her, along with sons Cris Alan Bruch and Gregory Scott Bruch; a sister, a brother, stepdaughters, and stepsons, along with numerous other family members.

Henri Delorme, organist of the Clicquot organ of Souvigny, France, died on August 18, just before his 69th birthday. As a young man, while studying French, Latin, and Greek to become a teacher, Henri Delorme studied organ with Joseph Hetsch and Michel Chapuis, piano with Hélène Boschi, and musicology with Marc Honegger. After he had passed the agrégation (the highest competitive exam for teachers in France), he spent most of his teaching career at the Lycée Banville in Moulins (Allier), where he was appreciated for his diverse cultural background, his good humor, and love for the humanities, which he endeavored to impart to and share with his pupils. 

Upon the untimely death of organist and organ scholar Henri Legros, Delorme became the incumbent organist (titulaire) of the François-Henri Clicquot organ (1783) of Souvigny, from 1971 until his death. He wrote articles for Marc Honegger’s music dictionary (Dictionnaire de la Musique) and also published the exhibition catalogue and the papers of the symposium he had organized for the 1983 bi-centenary of the Souvigny organ. The publication also included an inventory of the organs of the Allier region. During his career, he wrote several articles on the organ for various journals.

Henri Delorme conducted many organ classes for various age groups, from primary school pupils to university students and professional musicians. He was a guest teacher for the Souvigny week of Summer Institute for French Organ Studies (SIFOS), founded by Gene Bedient and Jesse Eschbach. Delorme was an indefatigable advocate of his instrument and gave organ recitals in France, Spain, Italy, Switzerland, Canada, and the USA.

The founder of the Association Saint-Marc, which now runs the music festival of Souvigny, he was the chairman of the Fédération Francophone des Amis de l’Orgue (FFAO) from 1992 to 2002. He was also the official organ adviser for historical organs in the Auvergne region and in Brittany from 1996 to 1998.

Learned, curious, good-humored, Henri Delorme was an endearing man and very special organist, with a great gift for improvising in the French classical style. He knew, understood, and played the Clicquot organ in Souvigny better than anyone else and contributed greatly to its reputation. His death will be a great loss to the organ world.

—Pierre Dubois

Pierre Dubois is Professor of English at the University of Tours, France. He has been deputy organist at Souvigny since 1984 and is artistic director of the Souvigny music festival (Journées Musicales d’Automne de Souvigny).

In the mid-1970s, when I first began hearing about historic French organs, the name of a town that surfaced regularly was Souvigny. Little did I know that a few years later, I would not only visit the church but have the opportunity over many subsequent trips to study in detail the treasure of St-Pierre et Paul: the 1783 organ of François-Henri Clicquot. Equally important, I would become an acquaintance and subsequently a good friend with the Souvigny organist, Henri Delorme. 

Jesse Eschbach and I hatched the concept of the Summer Institute for French Organ Studies in 1985 and we took our first small group to Souvigny/St-Dizier the summer of 1986. Henri Delorme was first and foremost a gentleman in the best sense of the word. He was always generous with his time, his knowledge, his musicianship, his scholarship, and his willingness to help visitors understand and appreciate French culture and an important part of that: the French organ. In 1994 I organized a small Bedient organ recital tour for him in America.

To quote my colleague, Jesse Eschbach, “Henri was a big voice in France and we will feel his loss acutely.”

—Gene Bedient

Morley J. Lush, age 93, died July 11 in Concord, Massachusetts. Born in Cambridge, he earned bachelor’s and master’s degrees from Harvard. He was the chief engineer and president of Rawson Lush Instrument Co., a maker of scientific instruments in Acton, Massachusetts. Lush served as organist and choir director for the Church of the Good Shepherd, Acton, was a bell ringer at Christ Church, Cambridge, and producer of the radio show The King of Instruments on WCRB for 50 years. He was an active member of the Acton Historical Society and the Boston AGO chapter. Morley J. Lush is survived by his wife of 63 years, Mary Nutter Lush, a daughter, a son, three grandsons, and a brother.