The University of California, Riverside’s new plant research facility, a state-of-the-art greenhouse with best-in-class research and climate control technologies, recently held its grand opening. Construction of the two-story, 30,000 sf facility was completed in 2021. It then went through two years of preparation and testing.
The facility will enable students and faculty from UCR’s College of Natural and Agricultural Sciences (CNAS) to conduct innovative studies previously unachievable at the university. Teams are currently investigating how well bees can pollinate in different climates, testing how to grow rice to withstand drought and flooding conditions, and examining how plants can serve as soil decontaminants.
The gables of the surrounding greenhouses inspired the design of the building, which is expressed in the upper-level glass roofs. The serrated concrete walls at the ground level, and the array of fans running across the structure’s south elevation complement the rhythmic quality of the upper-level greenhouses. The minimalist use of concrete, steel, and glass allows the building to display its overall function and historical connectedness. The upper level supports a compact cluster of 16 greenhouse modules, each its own independent laboratory.
The serrated concrete wall that envelops the lower-level acts as a thermal mass that stabilizes swings in internal temperature, reducing the need for mechanical air conditioning and capitalizing on the Southern California climate. Each upper-level greenhouse is encased in double-pane polarized glass, revealing the research activities taking place within.
Humidity, temperature, lighting, and other conditions can be independently calibrated in each module to mimic a diverse range of conditions. Climate control is assisted through vertical and horizontal automated shades that enable researchers to closely tune the natural light. Air-conditioning stabilizes select areas, but an evaporative cooling system covers the whole building, allowing it to maintain temperatures lower than other research greenhouses on the campus.
“We are anticipating placing priority on projects that need more specialized environment, things that need humidity and more accurate temperature control,” says Peggy Mauk, director of agricultural operations and a professor of subtropical horticulture with CNAS. According to Mauk, the facility will work well for research involving insects that need colder temperatures, plants that grow at high altitudes, or pathogens requiring tightly controlled environments. “The building is the first new plant research facility built on campus in close to 40 years,” says CNAS
Dean Kathryn Uhrich, “and is considered instrumental in maintaining UCR's continued leadership in agricultural research for the coming decades.”
On the project team:
Owner and/or developer: University of California, Riverside
Design architect: Perkins&Will Los Angeles
Architect of record: Perkins&Will Los Angeles
MEP engineer: tk1sc
Structural engineer: Coffman Engineers
General contractor/construction manager: DPR Construction
Related Stories
| Nov 15, 2013
Metal makes its mark on interior spaces
Beyond its long-standing role as a preferred material for a building’s structure and roof, metal is making its mark on interior spaces as well.
| Nov 13, 2013
Installed capacity of geothermal heat pumps to grow by 150% by 2020, says study
The worldwide installed capacity of GHP systems will reach 127.4 gigawatts-thermal over the next seven years, growth of nearly 150%, according to a recent report from Navigant Research.
| Oct 30, 2013
15 stellar historic preservation, adaptive reuse, and renovation projects
The winners of the 2013 Reconstruction Awards showcase the best work of distinguished Building Teams, encompassing historic preservation, adaptive reuse, and renovations and additions.
| Oct 30, 2013
11 hot BIM/VDC topics for 2013
If you like to geek out on building information modeling and virtual design and construction, you should enjoy this overview of the top BIM/VDC topics.
| Oct 18, 2013
Researchers discover tension-fusing properties of metal
When a group of MIT researchers recently discovered that stress can cause metal alloy to fuse rather than break apart, they assumed it must be a mistake. It wasn't. The surprising finding could lead to self-healing materials that repair early damage before it has a chance to spread.
| Oct 8, 2013
Toronto Maple Leafs arena converted to university recreation facility
Using steel reinforcement and massive box trusses, a Building Team methodically inserts four new floors in the landmark arena while preserving and restoring its historic exterior.
| Oct 7, 2013
10 award-winning metal building projects
The FDNY Fireboat Firehouse in New York and the Cirrus Logic Building in Austin, Texas, are among nine projects named winners of the 2013 Chairman’s Award by the Metal Construction Association for outstanding design and construction.
| Oct 1, 2013
13 structural steel buildings that dazzle
The Barclays Center arena in Brooklyn and the NASCAR Hall of Fame in Charlotte, N.C., are among projects named 2013 IDEAS2 winners by the American Institute of Steel Construction.
| Sep 24, 2013
8 grand green roofs (and walls)
A dramatic interior green wall at Drexel University and a massive, 4.4-acre vegetated roof at the Kauffman Performing Arts Center in Kansas City are among the projects honored in the 2013 Green Roof and Wall Awards of Excellence.
| Sep 19, 2013
What we can learn from the world’s greenest buildings
Renowned green building author, Jerry Yudelson, offers five valuable lessons for designers, contractors, and building owners, based on a study of 55 high-performance projects from around the world.
