Apiary Laboratory

Last updated

Apiary Laboratory
MAC-Apiary.png
The Apiary Laboratory, as it appeared in 1915.
Apiary Laboratory
Alternative namesApiculture Building
Apiculture Laboratory
Bee House [1]
General information
TypeAcademic offices, research laboratory, and workshop
Architectural styleVernacular
Current tenantsDept. of Microbiology
Construction started1911
Completed1912
Technical details
Floor count3

The Apiary Laboratory, more often referred to as the Apiary, is a research laboratory at the University of Massachusetts Amherst. Originally built for the study of honey bees and apiculture, today it is primarily used to study native pollinator species and the chemicals and pathogens impacting their populations. This academic building is unique in that it is credited as being the first in the United States to be erected exclusively for the teaching of beekeeping. [2] [3]

Contents

Prior to the construction of the building, the Massachusetts Agricultural College had maintained a beekeeping program for a number of years as one of the first land-grant agricultural colleges to teach the subject in the United States. [4] In time, techniques in apiculture progressed, leaving beekeeping as no longer simply a hobby, but rather a viable agricultural business. [5] [6] The college's program had remained limited to a single short-course for a number of years but was expanded however, when in 1911, a bill passed establishing the office of "state apiary inspector". [7] Dr. Burton N. Gates, the man first appointed to this position was also the college beekeeping lecturer at the time, and would oversee the expansion of the program as an asset to the college and a service to the state in the years to come. Construction began on the apiary in February 1911 and with its completion in June of the following year for a total cost of $3000. [8] [9] At the time the building contained a laboratory, a wintering cellar, a wood workshop, an office with a comprehensive library of apicultural books, honey and wax extraction rooms and a two-person apartment used by student tenants. [2] [10] It was also the first structure built in the college orchard, a section of campus now known as the Central housing area. [11]

In the time that Gates was there, research focused mainly on honey production, brood diseases, wax extraction and horticultural pollination in the cucumber and cranberry industries. [1] From 1913 to 1920 the laboratory was also operated by a superintendent, John L. Byard, hired on by Gates to maintain the facilities from day to day as well as perform wax extractions and other services to beekeepers from around the state. [12] Following Gates' resignation in 1918, the school ceased to offer its summer beekeeping school, many of its state extension services, and the college went through several different professors before hiring Frank R. Shaw as the new professor of beekeeping in 1931. [13] With Shaw's retirement in 1969, the laboratory was rededicated to urban and medical entomology research, with the former beekeeping program falling into relative obscurity. [14]

At the present time the apiary is used exclusively for research on native pollinator decline and ecology, with the last beekeeping classes taught at the university nearly a decade ago. [15] The building is currently on the university's "defer and do not reinvest list", suggesting that it will ultimately be dismantled at some point in the near future. [16]

History

Origins of the beekeeping program

Beekeeping class on Sunset Avenue, Amherst. The man in the top left corner is instructor James Fitts Wood. c. 1903. EarlyBeekeepingMAC.jpg
Beekeeping class on Sunset Avenue, Amherst. The man in the top left corner is instructor James Fitts Wood. c. 1903.

Since the early days of its founding as the Massachusetts Agricultural College, UMass Amherst has maintained apiculture and ecological studies of bees throughout much of its history. In 1870 the first short courses on beekeeping were taught at the college by Alonzo Bradley Esq., an expert on honeybee behavior and the president of the Massachusetts Beekeepers' Association at the time. These lectures were given for several of the years that followed and appear to be "the first instruction in the subject given in any agricultural college in this country" as indicated by H.T. Fernald in his account of the college's history. [4] Only two decades earlier western Massachusetts had been home to Lorenzo Langstroth, a man considered to be the father of modern apiculture. Although he had spent much of his time developing his innovative hive (now considered an international standard) in Philadelphia, in 1852 he moved to Greenfield, Massachusetts to recover from illness and further his study of honeybee behavior. [17] In the following year he published his widely acclaimed primer, The Hive and the Honey-Bee at the Hopkins, Bridgman & Co. press of Northampton.; [18] this book, having gone through several editions since, has become a mainstay of American beekeeping literature. One of Langstroth's own apprentices, James Fitts Wood, would go on to serve as the lecturer of beekeeping at the agricultural college for several years. [19] During this time he continued to make significant contributions in queen-rearing and became known in the apicultural community for developing a strain of notably docile Italian honeybees. [19] Despite his success in academia and apiculture, Wood unfortunately would not live to see the establishment of the college apiary, he died after a period serious illness on February 15, 1905 at the age of 44. [19]

Construction of the apiary

The idea of a campus apiary was first conceived for the sole purpose of pollinating the campus orchard. However, by the time the facilities had been built, President Kenyon L. Butterfield and his administration had seen and realized a much greater purpose and potential in it than was previously considered. Around this time beekeeping was considered a new business venture which had otherwise been thought of as a hobby or side business of farmers for many decades prior. [5] [6]

Dr. Burton Noble Gates BurtonGatesPortrait.png
Dr. Burton Noble Gates

Just as much of the pioneer work in beekeeping originated in New England, Massachusetts was one of the first states to create a "State Inspector of Apiaries." [7] The man who first led UMass's beekeeping program, a Dr. Burton N. Gates, was also the first to fill this position. [3] As the apiary's first professor, he was originally hired part-time to give a series of lectures as a guest speaker during the spring semester of 1906. This would continue until 1910 when the administration hired him as a permanent faculty member, and concurrently built the new apicultural laboratory, equipped with all modern amenities of its time. [2] [20] They saw the opportunity they had, to further research on the diseases and ecology of the honey bee, something that up to that point had never been pursued so thoroughly by a public organization of higher education. [3]

In 1911, ground was broken on the site of the "old creamery building" [note 1] at the foot of Mount Pleasant for the new apiary building and yards, [9] and by June of the following year the building had been completed for a total cost of $3000. [8] At the time of its completion, the grounds contained several species of native nectar-yielding flowers and were home to fifty bee colonies of multiple races. [1] [2] The building itself contained wax and honey extraction rooms, a wintering cellar, an office with an extensive library of beekeeping books, a wood workshop, a laboratory and a two-person apartment occupied by student caretakers. [2] [10]

As the apiary became a research laboratory, classroom and an extension service to the state, the demand increased for these services and thus it became necessary to maintain additional hives. It is for these reasons that, in 1913, Dr. Gates hired John L. Byard as superintendent of the apiary. Some of Byard's responsibilities included performing wax extractions, running the college's apicultural exhibit at fairs and maintaining the hive yard from day to day. [12]

John L. Byard standing in the hive yard, 1915 ByardBeeYard.png
John L. Byard standing in the hive yard, 1915

He would continue to maintain the building, the equipment and the hives until his death in 1920; professors Henry T. Fernald and Arthur I. Bourne would continue his work until his successor arrived the following year. [4] Gates had been promoted from an assistant to an associate professor in 1915, and had continued to work both as a lecturer and as the apiarist of the experimental station. [21] From 1913 to 1914 he was made president of the National Beekeepers' Association, twice hosting conventions in Amherst concluding the college's winter and spring sessions of the college beekeeping school. [22] [23] However, in 1918 he left Amherst for a professorship at the Ontario Agricultural College in Guelph, leaving his former position open for the two years that followed. [24] Gates' and Byard's duties would be taken up by several different people in the next decade. From 1921 to 1923 all beekeeping and apiology work at the Experimental Station was taken up by Professor Norman Phillips, who soon resigned for a job at a commercial apiary. [4] He was replaced by Professor Morton H. Cassidy, an alumnus of the college, who stayed for 3 more years but ultimately had to resign due to his severe asthma. [4] In 1926, a Mr. Clayton L. Farrar was made instructor of beekeeping. Farrar, a graduate of Kansas Agricultural College, also performed extensive work on several entomology projects as a research assistant before leaving in 1931 to work at a Federal laboratory. [4]

Contemporary history

In the span of only a decade the apiary laboratory had been run by 4 different faculty members until finally, in 1931, a new and more permanent apiology instructor, Frank R. Shaw, was hired. Shaw, a student at the time, had previously been hired on in 1930 as assistant entomologist to the college Experimental Station, but with the resignation of Farrar, his responsibilities would shift as he began to teach courses in beekeeping and pollinator ecology. [13] In 1935, he was made an "Instructor in Economic Entomology and Beekeeping" while concurrently finishing his Ph.D. of entomology at Cornell University. [13] In 1944, Shaw left to serve in the Second World War. Eventually, he would be promoted from being an instructor to an assistant professor in 1954. [25] UMass would continue to offer beekeeping courses and maintain a beekeeping section of the entomology department right up through the 1970s, however it appears there was never another superintendent hired to replace Byard and much of the extension work to state beekeepers seems to have ceased. Professor Shaw went on to coauthor a comprehensive beekeeping and ecology textbook with UC Davis apiologist John Eckert. This textbook, [note 2] intended to replace the beekeeping text of the same name by renowned apiculturalist E. F. Phillips, would be published for a total of seven editions from 1960 through 1977. Shaw retired in 1969 at the age of 61, he would be the first and last "Professor of Beekeeping" to do so as the position was abolished immediately after. [14] Following his retirement, a student scholarship fund for the department of entomology was set up by the department in Shaw's name. [14] [26]

From the late 1970s through the mid-1990s the laboratory was rededicated to medical and urban entomology, with Professor John Edman running projects on mosquitos as vectors and Professor Ron Prokopy focusing on orchard pest control. [27] In 1982, the wintering cellar in the basement of the lab was converted into laboratories, and the workshop was relocated to the garage adjacent to the building that was constructed that same year. [27] [28] [ failed verification ]

Since 2005, the Apiary has housed part of the Laboratory of Medical Zoology (LMZ) under direction of Dr. Stephen Rich. LMZ uses the lab space for studies of ticks and mosquito vectors of infectious disease.

Research

The department of entomology has done several studies in apiculture, chemical ecology, horticultural pollination, and the behavior of honeybee and bumblebee colonies. Although some research was done in the apiary yards, the majority of data had to be collected with higher numbers of colonies at different experimental stations. Today the laboratory is used to conduct research on native pollinator decline for the Managed Pollinator Coordinated Agricultural Project.

Selected publications

Coursework

In the decade following the building's construction, multiple courses were taught in apiculture and honeybee behavior. In 1911, there were 20 college-owned bee colonies as well as several lent by the faculty, and a five course program taught in the summer semester at the college. [29] Within five years the college had assembled 50 hives and an extensive collection of apicultural books and equipment. [2] In the year that followed, a summer beekeeping school was held, composed of five courses taught in previous years with the addition of a class in horticulture: [23]

1. Practical beekeeping. Lectures: laboratory practice in the general work of the beekeeper; beekeeping equipment, practices in the preparation of materials, location of the apiary; commencing with bees, handling of bees, practice in beeyard procedure; spring manipulation, fall preparation, wintering; extracted honey production; bee diseases and their treatment, apiary sanitation; making increase, elements of queen rearing, etc.

Burton N. Gates, Associate Professor of Beekeeping
John L. Byard, Superintendent of the Apiary

2. Life of the honeybee. Lectures.

Henry T. Fernald, Professor of Entomology

3. Special problems of the beekeeper. Lectures: demonstrations in requeening, the races of bees, the introduction of queens; swarming and handling swarms, comb honey production, enemies of bees.

James B. Paige, Professor of Veterinary Science

4. Crops foraged by bees. Lectures: field excursions.

William P. Brooks, Director of the Experiment Station

5. The relation of bees to the pollination of plants, including coloration, odor, nectar secretion. Lectures: laboratory work in blossom structure and dissection.

A. Vincent Osmun, Associate Professor of Botany

6. Bees in horticultural practices; fruit production, market gardening, cranberry culture and greenhouse cucumber growing; beekeeping as affected by spraying practices. Lectures: field work.

Walter W. Chenoweth, Associate Professor of Pomology

From the 1920s through the 1970s the laboratory was used mainly for faculty and graduate research, with two courses offered to undergraduate students in introductory and advanced beekeeping as well as a single course offered to the public in the summers. [30] [31] There was a brief time in the spring semesters of 2001 and 2002 that an introductory course in beekeeping was offered, however, with the reorganization of the department of entomology these classes have since ceased. [15]

Architecture and landscape

Apiary (left), and Butterfield (right); a comparison of the Gambrel roofs GambrelRoof ApiaryButterfield.png
Apiary (left), and Butterfield (right); a comparison of the Gambrel roofs
A portion of a 1912 campus map, with the Apiary visible in the lower right. The laboratory was the first building constructed in the Central housing area, then the campus orchard; the driveway adjacent to the lab would become what is now Clark Hill Road. Handbookmap-apiary-mac.png
A portion of a 1912 campus map, with the Apiary visible in the lower right. The laboratory was the first building constructed in the Central housing area, then the campus orchard; the driveway adjacent to the lab would become what is now Clark Hill Road.

Although now encompassed by trees and other academic buildings, the apiary was surrounded by fields and orchards at the time of its construction. Early photographs show the hive yard was originally 2 acres in size, extending several hundred feet south of the property's present-day boundaries in what has since been developed into a residential neighborhood. [1] [32] The building itself was built into the side of Mount Pleasant, with the entire east side of its basement completely covered by the ground. This "banked barn" design was likely used to allow pallets of beehives to be transported with ease from the yards to the wintering cellar, while alternatively making the temperature of the building more easily controlled for their storage. [33] [34] [35]

The building currently has two dormers on opposite sides of the roof, but neither seems to be part of the original structure. Older photos as late as 1918 show the roof without any windows implying they were added at some later date. [36] Being the building's most prominent design feature, the Gambrel roof would later influence Louis Warren Ross, architect and an alumnus of the college, in his design of the Butterfield dormitory which, for a time, was the only other building on the hill. Since the Apiary and Butterfield Hall are the only two buildings on campus to exhibit this architectural motif, it seems likely that this was incorporated in the latter's design to complement the former.

Explanatory notes

  1. It is not known if the college used this building or if it was only a remnant of the original farms that once occupied the campus land. Although no detailed photos have been found at the present time, an early yearbook drawing of the creamery may be found on the Wikimedia Commons.
  2. Eckert, John E. & Frank R. Shaw. Beekeeping. Macmillan Publishing Company: New York, NY.

Related Research Articles

<span class="mw-page-title-main">Beehive</span> Structure housing a honey bee colony

A beehive is an enclosed structure in which some honey bee species of the subgenus Apis live and raise their young. Though the word beehive is used to describe the nest of any bee colony, scientific and professional literature distinguishes nest from hive. Nest is used to discuss colonies that house themselves in natural or artificial cavities or are hanging and exposed. The term hive is used to describe an artificial/man-made structure to house a honey bee nest. Several species of Apis live in colonies. But for honey production, the western honey bee and the eastern honey bee are the main species kept in hives.

<span class="mw-page-title-main">Beekeeper</span> Person who keeps honey bees

A beekeeper is a person who keeps honey bees, a profession known as beekeeping.

Beekeeping is the maintenance of bee colonies, commonly in man-made beehives. Honey bees in the genus Apis are the most commonly kept species but other honey producing bees such as Melipona stingless bees are also kept. Beekeepers keep bees to collect honey and other products of the hive: beeswax, propolis, bee pollen, and royal jelly. Other sources of beekeeping income include pollination of crops, raising queens, and production of package bees for sale. Bee hives are kept in an apiary or "bee yard".

<span class="mw-page-title-main">Apiary</span> Place containing beehives of honey bees

An apiary is a location where beehives of honey bees are kept. Apiaries come in many sizes and can be rural or urban depending on the honey production operation. Furthermore, an apiary may refer to a hobbyist's hives or those used for commercial or educational usage. It can also be a wall-less, roofed structure, similar to a gazebo which houses hives, or an enclosed structure with an opening that directs the flight path of the bees.

<span class="mw-page-title-main">Roger Morse</span>

Roger A. Morse, Ph.D. was an American bee biologist who taught many beekeepers both the rudiments and the finer practices, through his research and publications. During his long career, three new parasites of the honeybee, acarine mite, varroa mite, and African small hive beetle were introduced to the United States. These, along with the Africanized honeybee and pesticide kills were all important beekeeping issues. Morse was extensively involved in research on each of these and provided guidance to the beekeeping industry.

<i>European dark bee</i> Subspecies of honey bee

The Apis mellifera mellifera is a subspecies of the western honey bee, evolving in central Asia, with a proposed origin of the Tien Shan Mountains and later migrating into eastern and then northern Europe after the last ice age from 9,000BC onwards. Its original range included the southern Urals in Russia and stretched through northern Europe and down to the Pyrenees. They are one of the two members of the 'M' lineage of Apis mellifera, the other being in western China. Traditionally they were called the Black German Bee, although they are now considered endangered in Germany. However today they are more likely to be called after the geographic / political region in which they live such as the British Black Bee, the Native Irish Honey Bee, the Cornish Black Bee and the Nordic Brown Bee, even though they are all the same subspecies, with the word "native" often inserted by local beekeepers, even in places where the bee is an introduced foreign species. It was domesticated in Europe and hives were brought to North America in the colonial era in 1622 where they were referred to as the English Fly by the Native Americans.

This page is a glossary of beekeeping.

<span class="mw-page-title-main">Moses Quinby</span>

Moses Quinby was an American beekeeper from the State of New York. He is remembered as the father of practical beekeeping and the father of commercial beekeeping in America. He is best known as the inventor of the bee smoker with bellows. He was the author of numerous articles and several books on beekeeping.

<span class="mw-page-title-main">Langstroth Cottage</span> Historic house in Ohio, United States

Langstroth Cottage is a historic building on the Western College campus of Miami University in Oxford, Ohio. It was designated a National Historic Landmark on June 22, 1976. The cottage, built in 1856, is now the home for the Oxford office of the Butler County Regional Transit Authority. It was purchased for Beekeeper L. L. Langstroth in 1859, and he lived there for the next 28 years, conducting research and breeding honey bees.

<span class="mw-page-title-main">E. F. Phillips</span> American apiculturist, scholar, and innovator (1878–1951)

Everett Franklin Phillips (1878-1951) was an American apiculturist, scholar, and innovator in the beekeeping field.

<span class="mw-page-title-main">Beekeeping in the United States</span> Commercial beekeeping in the United States

Commercial Beekeeping in the United States dates back to the 1860s.

<span class="mw-page-title-main">Beekeeping in New Zealand</span>

Beekeeping in New Zealand is reported to have commenced in 1839 with the importing of two skep hives by Mary Bumby, a missionary. It has since become an established industry as well a hobby activity.

<span class="mw-page-title-main">Colony collapse disorder</span> Aspect of apiculture

Colony collapse disorder (CCD) is an abnormal phenomenon that occurs when the majority of worker bees in a honey bee colony disappear, leaving behind a queen, plenty of food, and a few nurse bees to care for the remaining immature bees. While such disappearances have occurred sporadically throughout the history of apiculture, and have been known by various names, the syndrome was renamed colony collapse disorder in early 2007 in conjunction with a drastic rise in reports of disappearances of western honey bee colonies in North America. Beekeepers in most European countries had observed a similar phenomenon since 1998, especially in Southern and Western Europe; the Northern Ireland Assembly received reports of a decline greater than 50%. The phenomenon became more global when it affected some Asian and African countries as well. From 1990 to 2021, the United Nation’s FAO calculated that the worldwide number of honeybee colonies increased 47%, reaching 102 million.

Beekeeping is first recorded in Ireland in the seventh century. It has seen a surge in popularity in modern times, with the membership of beekeeping associations exceeding 4,500. The median average number of hives per beekeeper is three hives, while the average honey output per hive is 11.4 kg. The growth in the practice has occurred despite increased pressures on bees and beekeepers due to parasites, diseases and habitat loss.

<span class="mw-page-title-main">Fernald Hall</span> Academic offices, classrooms, and research laboratories

Fernald Hall is the primary lecture hall and laboratory used by the entomology program of the University of Massachusetts Amherst. The building also houses the university's extensive collection of domestic and foreign insects.

<span class="mw-page-title-main">Urban beekeeping</span> Practice of keeping bee colonies in urban areas

Urban beekeeping is the practice of keeping bee colonies (hives) in towns and cities. It is also referred to as hobby beekeeping or backyard beekeeping. Bees from city apiaries are said to be "healthier and more productive than their country cousins". As pollinators, bees also provide environmental and economic benefits to cities. They are essential in the growth of crops and flowers.

Marla Spivak is an American entomologist, and Distinguished McKnight University Professor at the University of Minnesota specializing in apiculture and social insects.

<span class="mw-page-title-main">Beekeeping in Australia</span> Overview of beekeeping in Australia

Beekeeping in Australia is a commercial industry with around 25,000 registered beekeepers owning over 670,000 hives in 2018. Most are found in the eastern states of Queensland, New South Wales, Victoria and Tasmania as well as the south-west of Western Australia.

<span class="mw-page-title-main">British Beekeepers Association</span> Charitable organization in Warwickshire, United Kingdom

The British Beekeepers Association (BBKA) is a charitable organisation registered in England and Wales that was founded in 1874. It is made up of 75 associations in England & Wales plus one in Northern Ireland, Isle of Man and Jersey. At end of 2018 there were 26,555 members. Its patrons include the Worshipful Company of Wax Chandlers and Jimmy Doherty.

<span class="mw-page-title-main">Honeybee Heroes</span> Nonprofit organisation based in South Africa

Honeybee Heroes is a honeybee sanctuary and beekeeper education non-profit organisation founded in 2020 by Chris Oosthuizen in the Overberg region of South Africa.

References

  1. 1 2 3 4 Beekeeping, Agricultural Vocations, Massachusetts Agricultural College Bulletin, March 1914
  2. 1 2 3 4 5 6 MAC Bulletin, January 1915. Massachusetts Agricultural College. 1915. p. 130. Retrieved 23 March 2011.
  3. 1 2 3 Pellett, Frank C. (April 1916). "Beekeeping in Massachusetts". American Beekeeping Journal.
  4. 1 2 3 4 5 6 Fernald, Henry T. The History of Entomology at the Massachusetts Agricultural College, 1867-1930. Amherst: Fernald Club, Special Publication Number 1, Massachusetts State College.
  5. 1 2 Pellett, Frank C. (1916). Productive beekeeping. J.B. Lippincott Company. pp. 9–17. Retrieved 13 June 2011.
  6. 1 2 Fuller, O.C. (1906). "Beekeeping as a Business". First Report of the State Bee-Keepers' Association of Pennsylvania. Harrisburg, PA: Harrisburg Publishing Company, State Printer. pp. 37–41.
  7. 1 2 G.L. 1911, 220 §1, Manual of Agricultural Laws, State Board of Agriculture, Commonwealth of Massachusetts. Wright & Potter Printing Co., State Printers, Boston. 1916. pp.  29–32. Retrieved 16 May 2011. 1911 220 Massachusetts inspector.
  8. 1 2 MAC Annual Report. Massachusetts Agricultural College. 1913. p. 6. Retrieved 6 May 2011.
  9. 1 2 MAC Annual Report. Massachusetts Agricultural College. 1912. p. 45. Retrieved 6 May 2011.
  10. 1 2 MSC Annual Report. Massachusetts State College. 1933. p. 9. Retrieved 6 May 2011.
  11. Packard; Moore, eds. (1912). M.A.C. Students' Handbook, 1912-1913. Archived from the original on 27 September 2011. Retrieved 10 July 2011.(see map)
  12. 1 2 New Superintendent Appointed at the Massachusetts Agricultural College. The Beekeepers' Review. 1914. p. 15. Retrieved 6 May 2011.
  13. 1 2 3 MAC Index, Class of 1937. Massachusetts Agricultural College. 1937. p. 31. Retrieved 14 May 2011.
  14. 1 2 3 Fernald, Henry Torsey (1977). Fernald Club Yearbook, 1977. pp. 42–43. Retrieved 21 July 2011.
  15. 1 2 SPIRE Course Listings, 2001, 2002. (Internal, available to students only)
  16. Legacy Buildings Report p.16, 21.
  17. Pellett, Frank C. The History of American Beekeeping. Ames, Iowa: Collegiate Press, Inc., Iowa State University.
  18. Langstroth, Lorenzo L. (1853). Langstroth on the Hive and the Honey-Bee; A Bee Keeper's Manual. Hopkins, Bridgman & Company. Retrieved 15 May 2011.
  19. 1 2 3 Paige, James B. (April 1906). "Death of James Fitts Wood". The American Bee-Keeper.
  20. MAC Index. Massachusetts Agricultural College. 1912. p. 27. Retrieved 6 May 2011.
  21. MAC Bulletin. 1915. p. 74. Retrieved 13 May 2011.
  22. Gates, Burton N. (January 1906). "Meeting at Massachusetts Agricultural College". American Bee Journal.
  23. 1 2 MAC Bulletin, October 1915. Massachusetts Agricultural College. 1915. p. 361. Retrieved 14 May 2011.
  24. Burton Noble Gates Collection Archived 2011-07-22 at the Wayback Machine , Archival & Special Collections, University of Guelph Library
  25. MAC Index, Class of 1945. Massachusetts Agricultural College. 1945. p. 40. Retrieved 14 May 2011.
  26. UMass Endowment Funds, 2008
  27. 1 2 Letters, postcards, invoices other correspondence found in the building, December 2010
  28. 2009 Buildings Condition Report Archived 2014-09-03 at the Wayback Machine , page 7
  29. MAC Bulletin, January 1911. Massachusetts Agricultural College. 1911. p. 102. Retrieved 16 May 2011.
  30. MAC Bulletins, 1922. Massachusetts Agricultural College. 1922. Retrieved 16 May 2011.
  31. UMass Bulletins, v. 59, 1967. University of Massachusetts Amherst. 1967. Retrieved 16 May 2011.
  32. MAC Index. Massachusetts Agricultural College. 1918. p. 48. Retrieved 12 June 2011.
  33. Wart, W. H. (September 20, 1916). "Northern New England". The Standard. Boston: The Standard Publishing Company. p. 34. Retrieved 12 June 2011.
  34. The Preservation of Historic Architecture; the U.S. Government's Official Guidelines for Preserving Historic Homes. U.S. Department of the Interior; The Lyons Press. 2004. p.  204. ISBN   9781599217147 . Retrieved 12 June 2011. heating cooling old houses built into side of hill.
  35. Cook, A. J. (March 15, 1888). "Food of Larval Bees; Bees in Winter". Gleanings in Bee Culture. Medina, Ohio: A. I. Root Company. p. 197. Retrieved 12 June 2011.
  36. Apiary Archived 2011-09-30 at the Wayback Machine , YouMass, University of Massachusetts Amherst

42°23′18.15″N72°31′13.42″W / 42.3883750°N 72.5203944°W / 42.3883750; -72.5203944