M. Siddigueullab and W.W. Cram investigating the chemistry of natural products.

The Science Service Laboratory for the Department of Agriculture. Taken from the southwest just after completion.

View from southwest of the Science Service Laboratory of the Canada Department of Agriculture.

Touring the Vaccine and Infectious Disease Organization (VIDO) facilities are (l to r): R.W. Begg, University President; Dr. Christopher H. Bigland, director of VIDO; and Allan Blakeney, Premier of Saskatchewan.

Bio/Historical Note: The Vaccine and Infectious Disease Organization (VIDO) is a research organization of the University of Saskatchewan that operates with financial support from the Government of Canada, the government of Saskatchewan, livestock industry councils and agencies, foundations and human and animal health companies. VIDO worked to find cures for common infectious diseases in cattle, swine and poultry. VIDO scientists carved out an international reputation for their pioneering work in the 1980's on vaccines aimed at combating shipping fever and a disease which produces pneumonia and arthritis in cattle. In addition to the 2,500,000 sq ft facility on campus, VIDO-InterVac also operates a 160-acre research station. The laboratory took on its current name, International Vaccine Centre (VIDO-InterVac), in March 2003. In October 2003 a large expansion was completed. In March 2004, VIDO received funding for the construction one of the world's largest and most advanced biosafety level 3 facilities, the International Vaccine Centre (InterVac), for research into emerging and reemerging human and animal diseases. In 2020, VIDO-InterVac began developing a vaccine for SARS-CoV-2 during the COVID-19 pandemic.

Dr. Choi C. (Chuck) Lee, professor, Department of Chemistry, takes readings from a machine in the Thorvaldson Building.

R.W. Begg, University President, speaking from podium during an outdoor ceremony marking the opening of the Veterinary Infectious Disease Organization lab. Attendees seated behind Begg are Dr. Niels O. Nielson, dean, Western College of Veterinary Medicine; W. Weir, E. Kaeding, Dr. Chris Bigland, director of VIDO; and George Shepherd.

Bio/Historical Note: The Vaccine and Infectious Disease Organization (VIDO) is a research organization of the University of Saskatchewan that operates with financial support from the Government of Canada, the government of Saskatchewan, livestock industry councils and agencies, foundations and human and animal health companies. VIDO worked to find cures for common infectious diseases in cattle, swine and poultry. VIDO scientists carved out an international reputation for their pioneering work in the 1980's on vaccines aimed at combating shipping fever and a disease which produces pneumonia and arthritis in cattle. In addition to the 2,500,000 sq ft facility on campus, VIDO-InterVac also operates a 160-acre research station. The laboratory took on its current name, International Vaccine Centre (VIDO-InterVac), in March 2003. In October 2003 a large expansion was completed. In March 2004, VIDO received funding for the construction one of the world's largest and most advanced biosafety level 3 facilities, the International Vaccine Centre (InterVac), for research into emerging and reemerging human and animal diseases. In 2020, VIDO-InterVac began developing a vaccine for SARS-CoV-2 during the COVID-19 pandemic.

View of Chemical Engineering Lab with equipment; located in Engineering Building.

Dr. Edward N. (Ed) Larter, professor, Crop Science, crossing varieties of barley in the growth chamber of the Crop Science Building.

A technician stands beside the Linear Accelerator.

Bio/Historical Note: The building of the Linear Accelerator (Linac) was not a random event but rather the result of a series of developments on campus. The Department of Physics had over the previous decades built a reputation for experimentation and innovation. The post-war period saw the University of Saskatchewan in the forefront of nuclear physics in Canada. In 1948, Canada’s first betatron (and the world’s first used in the treatment of cancer) was installed on campus. It was used for research programs in nuclear physics, radiation chemistry, cancer therapy and radiation biology. Next the world’s first non-commercial cobalt-60 therapy unit for the treatment of cancer was officially opened in 1951. With this unit research was undertaken in the areas of radiological physics, radiation chemistry and the effects of high energy radiation on plants and animals. When the construction of the Linear Accelerator was announced in the fall of 1961, it was portrayed as the next logical step on the University’s research path. Varian Associates, Palo Alto, California, designed and built the accelerator with Poole Construction of Saskatoon employed as the general contractor. The 80 foot electron accelerator tube was to create energy six times that of the betatron. The cost of the $1,750,000 facility was split between the National Research Council and the University of Saskatchewan with the NRC meeting the cost of the equipment and the University assuming the costs of the building. The official opening in early November of 1964 was more than just a few speeches and the cutting of a ribbon. It was a physics-fest, with 75 visiting scientist from around the world in attendance presenting papers and giving lectures over the period of several days. Three eminent physicists were granted honorary degrees at the fall convocation and hundreds of people showed up for the public open house. For three decades the Linac has served the campus research community and will continue to do so as it has become incorporated into the Canadian Light Source synchrotron.

View of heat exchangers.

Bio/Historical Note: The building of the Linear Accelerator (Linac) was not a random event but rather the result of a series of developments on campus. The Department of Physics had over the previous decades built a reputation for experimentation and innovation. The post-war period saw the University of Saskatchewan in the forefront of nuclear physics in Canada. In 1948, Canada’s first betatron (and the world’s first used in the treatment of cancer) was installed on campus. It was used for research programs in nuclear physics, radiation chemistry, cancer therapy and radiation biology. Next the world’s first non-commercial cobalt-60 therapy unit for the treatment of cancer was officially opened in 1951. With this unit research was undertaken in the areas of radiological physics, radiation chemistry and the effects of high energy radiation on plants and animals. When the construction of the Linear Accelerator was announced in the fall of 1961, it was portrayed as the next logical step on the University’s research path. Varian Associates, Palo Alto, California, designed and built the accelerator with Poole Construction of Saskatoon employed as the general contractor. The 80 foot electron accelerator tube was to create energy six times that of the betatron. The cost of the $1,750,000 facility was split between the National Research Council and the University of Saskatchewan with the NRC meeting the cost of the equipment and the University assuming the costs of the building. The official opening in early November of 1964 was more than just a few speeches and the cutting of a ribbon. It was a physics-fest, with 75 visiting scientist from around the world in attendance presenting papers and giving lectures over the period of several days. Three eminent physicists were granted honorary degrees at the fall convocation and hundreds of people showed up for the public open house. For three decades the Linac has served the campus research community and will continue to do so as it has become incorporated into the Canadian Light Source synchrotron.

J.W.T. Spinks, University President, speaks during the Linear Accelerator Building official opening.

Bio/Historical Note: The building of the Linear Accelerator (Linac) was not a random event but rather the result of a series of developments on campus. The Department of Physics had over the previous decades built a reputation for experimentation and innovation. The post-war period saw the University of Saskatchewan in the forefront of nuclear physics in Canada. In 1948, Canada’s first betatron (and the world’s first used in the treatment of cancer) was installed on campus. It was used for research programs in nuclear physics, radiation chemistry, cancer therapy and radiation biology. Next the world’s first non-commercial cobalt-60 therapy unit for the treatment of cancer was officially opened in 1951. With this unit research was undertaken in the areas of radiological physics, radiation chemistry and the effects of high energy radiation on plants and animals. When the construction of the Linear Accelerator was announced in the fall of 1961, it was portrayed as the next logical step on the University’s research path. Varian Associates, Palo Alto, California, designed and built the accelerator with Poole Construction of Saskatoon employed as the general contractor. The 80 foot electron accelerator tube was to create energy six times that of the betatron. The cost of the $1,750,000 facility was split between the National Research Council and the University of Saskatchewan with the NRC meeting the cost of the equipment and the University assuming the costs of the building. The official opening in early November of 1964 was more than just a few speeches and the cutting of a ribbon. It was a physics-fest, with 75 visiting scientist from around the world in attendance presenting papers and giving lectures over the period of several days. Three eminent physicists were granted honorary degrees at the fall convocation and hundreds of people showed up for the public open house. For three decades the Linac has served the campus research community and will continue to do so as it has become incorporated into the Canadian Light Source synchrotron.

T.C. Douglas, Premier of Saskatchewan, cuts the ribbon at the opening of the Saskatchewan Cancer and Medical Research Institute.

Bio/Historical Note: The Saskatchewan Cancer and Medical Research Institute was officially opened on 10 May 1958 by Premier T.C. Douglas. Clad in locally quarried greystone with limestone panels, it was the.last of the buildings that constituted the University’s Medical Complex’s initial phase. Designed by Izumi, Arnott and Sugiyama and completed at a cost of $783,000, the building’s purpose was to provide shared accommodation for both general medical research and cancer specific investigations. Funding came from the federal and provincial governments and the provincial and national branches of the Canadian Cancer Society. A planned third floor was added in 1966. The building was "deconstructed" in 2009, with much of the building's material recycled including the greystone cladding for use with the E Wing that opened in 2013.

Unidentified women dressed in lab coat works with mice. Her hands are in gloves that are built into a plastic enclosure.