Whether you are interested in creating a shiitake mushroom operation or just want to have fun with a backyard production of mushrooms for yourself and others, growing shiitake mushrooms is a fascinating and delicious enterprise.
Below are some great facts about Shiitake mushrooms. They are a wood rotting fungus that grow on a wide variety of hardwood tree species, with “shii” – meaning oak and “take” meaning mushroom in Japanese. Florida is a major market for mushrooms in general, as the State’s population is a large consumer of mushrooms. Fresh mushrooms haven’t always been available at markets in the U.S. Prior to 1972, only dried mushrooms were available. Worldwide, Asia is still the leader in yearly production, boasting a billion-dollar industry.
Please join us on March 12th at the UF/IFAS Extension Franklin County Office on 261 Dr. Frederick S. Humphries St. in Apalachicola for a Shiitake Mushroom Workshop. Learn how to select the correct wood, inoculate logs with spawn, care for the logs and important tips on harvesting & storing the yield. Plus, you’ll get to take home your very own shiitake mushroom log!
Twigs dangle from a branch, held in place by horsehair fungus rhizospheres. Photo credit: Carrie Stevenson, UF IFAS Extension
Imagine walking through the woods, enjoying the fresh air and birdsong, when you notice a twig just dangling midair. On first glance, you might presume it is stuck in a vine or a large spider web. However, this material is thinner than a vine and there are no spiders or webs to be found. On closer inspection, you see the twig is entangled in a dark knot of string, slightly thicker than a human hair. Following the source of the black string leads to a lacy network of the same material, flat against and around the branch from which the twig hangs. Fifteen feet down the trail, you come across the same thing—more twigs hanging from “string” in the trees, dangling from a knot of thin black material. What is going on here?
After some research, my conclusion is that we have come across horsehair fungus (Mirasmius spp). Mushrooms and other fungi have long, thin, rootlike structures called rhizomorphs. Rhizomorphs are composed of large numbers of microscopic hyphae, which are tubular and exchange nutrients and water among other parts of the fungus. The hyphae are typically located underground, but in this instance, they are visible in the open.
The ropy network of rhizospheres is visible on the branch, then turns into thin fibers that can trap plant debris. Sample provided by Suzy Marshall.
Aerial rhizomorphs are an excellent example of an evolutionary strategy known as resource partitioning. By forming a netted trap to intercept falling leaf material on a tree, the fungus gets a jumpstart on the decomposition process, taking nutrients from dying plant material before it falls to the ground. The tree-dwelling fungus is thus not competing directly with fungi on the ground, and both types of fungi can thrive. In human terms, this is loosely analogous to co-workers labeling their own food in a shared refrigerator. Everyone eats, but no one has to compete with another for nutrition.
A bird’s nest in Argentina is composed primarily of strong horsehair fungus fibers. Photo credit: Danny Newman
The common name, “horsehair fungi” applies to many species around the world. They are most common in nutrient-poor subtropical and tropical forests, where any available nutrients in the soil are used up quickly by the lush tree growth. They can be found here along the Gulf Coast, up to the Appalachian Mountains, and as far away as equatorial rainforests. In a Malaysian study, researchers found that the aerial fungi trapped up to 225 pounds of fallen plant material per acre! This network of material also supported a significant population of arthropods, which were crucial parts of the overall ecosystem by providing pollination, herbivory, and serving as detritivores. One study of spruce-fir forests in the northeastern United States showed that birds are known to use the material as a nest lining, as it is lightweight but very sturdy. In this particular research, 85% of the nests (particularly of warblers and thrushes) examined utilized the material.
Potting soil, potting mix, garden soil, topsoil. The bags are all sitting side-by-side on the shelf at the garden center. Your challenge is to figure out which one you need for your project. What’s the difference? To begin with, none of them are dirt. The Soil Science Society of America defines dirt as “displaced soil”, the dead nuisance material left on your hands after working with soil. Soil is a blend of sand, silt, clay and organic matter. It is alive with nutrient and water holding components. But, all soil is not equal.
Soil contains decayed organic remains. It may be composted leaf tissue and/or microorganisms. The terms potting soil and potting mix are often used interchangeably, but there is a significant difference. Potting soil contains compost or the flora responsible for the breakdown process. Potting mix is soil-less. It is a blend of sphagnum moss, coir, bark, perlite and/or vermiculite. While these are natural occurring materials, they are in their original state. No decomposition has occurred. In the absence of compost, the resulting potting mix is sterile and free of fungus spores and insect eggs. Potting mixes are excellent choices for container growing, especially for house plants. The sphagnum moss, coir and bark hold and release water and nutrients, while the vermiculite or perlite keep the mix loose and well-drained. Some blended products add microbes, which then requires the word soil be added to the packaging. These are still suitable for potted plants.
But, if the potting soil is made from mostly compost, the potential of having poor drainage and fungus gnat problems increases substantially. The only containers these type of potting soils should be used in are raised gardens. Depending on the compost source, these soils can sour, grow mushrooms or become extremely hard.
Garden soil is a blend of soil and soilless ingredients. It can be used in very large containers (24” or greater) or added to native soils to enrich planting areas.
Then there is topsoil. It varies widely in composition and quality. Use it to fill holes in the yard, build berms or mix it will compost to increase water retention in dry garden areas.
So, when standing in the store comparing prices, don’t let price dictate your purchase. To keep your containerized plants doing well, do some bag reading. Choose the product that has aged forest products, sphagnum moss and perlite. Use the soils made from bio-solids and composted materials to improve the sand in the yard. When you’re done, go wash the dirt off your hands.
The Jackson County Master Gardeners are hosting a hosting a Mushroom Growing Workshop on Saturday, February 10 at the Jackson County Extension Office, 2741 Penn Ave., Marianna, FL.
Shiitake mushrooms growing on a log. Photo Credit: University of Florida/IFAS
MUSHROOM GROWING WORKSHOP
SATURDAY, NOVEMBER 18
9:00 AM to 2:00 PM
• Learn to grow shiitake mushrooms on logs.
• Learn about mushroom nutrition.
• Take home an inoculated mushroom log!
• A home cooked lunch is included!
Registration Fee $20.00
Includes Lunch
Space is Limited
To register, contact the Extension Service at (850)482-9620 or s.farr@ufl.edu.
Pre-register by February 7th.
The Jackson County Master Gardeners are hosting a hosting a Mushroom Growing Workshop on Saturday, November 18 at the Jackson County Extension Office, 2741 Penn Ave., Marianna, FL. MUSHROOM GROWING WORKSHOP
SATURDAY, NOVEMBER 18
9:00 AM to 2:00 PM
• Learn to grow oyster mushrooms.
• Learn about mushroom nutrition.
• Learn to culture your own mushroom spawn.
• Take home two inoculated mushroom bags!
• A home cooked lunch is included!
Registration Fee $20.00
Includes Lunch
Space is Limited
Bring a jar of peanut butter to donate to the Backpack for KIDS program and you will be entered in a special raffle!
To register, contact the Extension Service at (850)482-9620 or s.farr@ufl.edu.
Pre-register by November 16th.
potting mix are often used interchangeably, but there is a significant difference. Potting soil contains compost or the flora responsible for the breakdown process. Potting mix is soil-less. It is a blend of sphagnum moss, coir, bark, perlite and/or vermiculite. While these are natural occurring materials, they are in their original state. No decomposition has occurred. In the absence of compost, the resulting potting mix is sterile and free of fungus spores and insect eggs. Potting mixes are excellent choices for container growing, especially for house plants. The sphagnum moss, coir and bark hold and release water and nutrients, while the vermiculite or perlite keep the mix loose and well-drained. Some blended products add microbes, which then requires the word soil be added to the packaging. These are still suitable for potted plants.
