New Facility Enhances Penn State Mushroom Research
UNIVERSITY PARK, Pa. — New construction and renovations are giving a boost to Penn State research and Extension programming related to mushrooms, one of Pennsylvania’s top agricultural crops.
The university’s College of Agricultural Sciences has a rich history of mushroom programs, dating to the early 1900s.
The growth of these programs has paralleled — and contributed to — the success of the state’s $570 million mushroom industry, which produces nearly two-thirds of all white button mushrooms grown in the United States.
Since 1960, the university’s Mushroom Research Center has been the focal point of its work in mushroom science and technology.
From 1970 until recently, the nearby Mushroom Test Demonstration Facility — which operated in similar fashion to a small mushroom farm —complemented the center.
However, budget pressures and disrepair closed the demonstration facility in 2011, although researchers continued to use it to make compost needed as a substrate to grow mushrooms in the research center.
When the test demonstration facility was demolished to make way for a water treatment plant in 2015, researchers were forced to acquire compost from outside suppliers.
Now, a newly completed compost building adjacent to the Mushroom Research Center is on line, providing an improved composting system to support cropping needs, according to the center’s manager, John Pecchia, assistant professor of plant pathology.
In addition, the Mushroom Research Center’s nine growing rooms are being renovated to ensure more consistent growing conditions and to improve the reliability of research results.
“Mushrooms tend to be finicky in terms of temperature and humidity,” said Pecchia, who also coordinates the college’s undergraduate mushroom science and technology minor.
“The renovations will give us more precise control over the growing environment, which in turn gives us higher confidence in the data we collect during our studies,” he said.
The Mushroom Research Center follows a three-week cropping schedule. Pecchia said the production process begins with Phase I composting, a six-day process during which straw, water, horse and poultry manure from Penn State farms, and other ingredients are mixed and aerated, reaching a temperature of 175 F.
During a six-day, Phase II composting stage, the compost is pasteurized and conditioned to remove ammonia. After cooling, the substrate is spawned and moved to a growing room for cropping.
The new compost building contains two Phase I bunkers and two Phase II tunnels, as well as a filling conveyor and net puller to empty the tunnels.
“Though the bunkers and tunnels are much smaller than those at a commercial operation, they are sized perfectly for the cropping schedule” at the center, Pecchia said.
“After running several batches through the system, we can confirm that things are working well, and Penn State has a new and improved composting system to support the industry’s needs into the future,” he said.
Source: Penn State Ag Sciences News.
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