Mushrooms, Microbes & Mediums - AUS32

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BENEFITS

39

74

70

46 All Mushrooms are Medicinal

52 The Complexity of Farm to Fork Food Loss

56 For Peat’s Sake! A Gardener’s Debate

60 The People’s Bog

64 Cultivating Cannabis with Jiu-Jitsu

68 Locals vs. Laboratories - Which Microbes Reign Supreme

70 Soilless SmackDown: Peat Moss vs. Coco Coir

74 A Day in the Life of a Community Garden

78 Airflow and It’s Importance in All Grow Rooms

80 5 Cool Ways

FOREWORD CREDITS

After ten years of publishing Garden Culture, we have seen many fads come and go. Some stuck, others did not. Some of the biggest trends that genuinely changed the game were the introduction of coco coir as a substrate, microbes as a supplement, and LED grow lights. There is another craze booming outside our industry, and it’s mushrooms. The global mushroom market was valued at $58.8 billion in 2021 and will reach an estimated $86.5 billion by 2027, according to market research firm IMARC (imarcgroup.com/mushroom-market). The year 2022 was not the best for indoor gardening shops or the companies that manufacture and supply the products they sell. Can mushroom cultivation be a new product category that helps our local hydro shops succeed? I hope so.

If you have been growing for years and have never tried growing mushrooms, NOW is the time. Not only are they fun and a beautiful thing to grow, but they are also super healthy and delicious. This edition has articles to motivate and educate you on how to do it.

If mushrooms are not for you, don’t worry! This issue also contains valuable and interesting information, such as how best to use vermiculite and seaweed in the garden. Take a look at which microbes reign supreme and discover who wins the substrate battle in “Soilless SmackDown: Peat Moss versus Coco Coir” by Av Singh. Adam Clarke’s “Airflow And Its Importance In All Grow Rooms” will be a breeze to read and give your plants the environment they crave and you the garden of your dreams.

Happy growing, and remember to get out and support your local grow shop. They need us more than ever. So pick up a mushroom growing kit, and let us know how it goes!

SPECIAL THANKS TO:

Adam Clarke, Anne Gibson, Av Singh, Catherine Sherriffs, Chris Johnson, Cody J. Garrett-Tait, Emma Carter, Jennifer Cole, Jesse Singer, Joanna Berg, Martin Osis, Tom Forrest, and Xavi Kief.

DESIGN Job Hugenholtz job@gardenculturemagazine.com

DIGITAL & SOCIAL MARKETING social@gardenculturemagazine.com

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PUBLISHER

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ISSN 2562-3540 (Print)

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Garden Culture is published six times a year, both in print and online.

@GardenCulture @GardenCulture @GardenCultureMagazine @Garden_Culture

The gods must be crazy

This summer, one mushroom took my breath away: Mycena acicula is a tiny little mushroom that almost glowed with an intense red cap and a micro thread-like stalk that was practically fluorescent yellow

Author Spotlight

We’re thrilled to have Martin Osis as a Garden Culture contributor, especially when it comes to exploring the incredible world of mushrooms.

Martin is an amateur mycologist who has been educating mushroom enthusiasts for decades, but there’s nothing ‘amateur’ about him! The dude knows his stuff. Check out his article about the many medicinal benefits of mushrooms on page 46.

Is there a motto you grow or live by?

Not a motto as such but more of a state of being. When I am in the wilderness, it bathes all my senses. I stand and see a leaf etched on a rock from the fathoms of time, a hawk soaring free and imagine the mycelium pumping under my feet, feeling the life force around me.

What drew you into the world of mushrooms?

My first outings in the woods were picking mushrooms with my family. Mushrooms are so mystical and spring from an invisible world out of my view. Like Einstein said when asked why he was interested in Physics - he wanted to figure out how God did it. Plus, serendipity drops a rare, choice, edible mushroom in my basket from time to time.

What is one of your favourite mushrooms?

Favourites are difficult, as there are edible mushrooms and medicinal mushrooms that I enjoy and turn to regularly. But this summer, one mushroom took my breath away: Mycena acicula is a tiny little mushroom that almost glowed with an intense red cap and a micro thread-like stalk that was practically fluorescent yellow. The tiny thread curves and twists up and around to bring the mushroom cap above the world’s detritus. This keeps the cap perpendicular to the ground and in the breeze to distribute its spores. This mushroom only fruits about once a decade in my area, so seeing it is a real thrill!

What is your favourite food?

Wild foods. Many of these are priceless as you can’t just go out and buy them, but you can earn them. Foraged, fished or hunted, you never know what will grace your plate, if anything at all. These ingredients never go to waste and are treated with the deepest respect and culinary care in my kitchen.

Where in the world would you like to travel to next?

Foray Newfoundland or the next NAMA (North American Mycological Association) Foray. These mushroom forays bring you to interesting places with interesting mushrooms and even more interesting people.! 3

Are you interested in writing for Garden Culture Magazine? We’d love to hear from you! Send us an email introducing yourself with a sample of your work. editor@gardenculturemagazine.com

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The Ripple Effect

Deadhead’s Influence On The Evolution Of Cannabis

The Myth

From their very origin, the Grateful Dead (Jerry Garcia, Bob Weir, Phil Lesh, Bill Kreutzmann, Mickey Hart, Robert Hunter, and Ron “Pigpen” McKernan) were synonymous with the “drug” scene as much of the financial backing for the band coming from the sale of LSD. Owsley’ Bear’ Stanley, the sound engineer for the Dead, produced some of the best LSD for the mid-60s counterculture, and the profits from that helped the band get started. And from that, the myth grew.

In 1969, the free concert at Altamont Speedway featuring the Rolling Stones, Jefferson Airplane, Crosby, Stills, Nash, & Young got a little too rowdy as concertgoers began clashing with the Hell’s Angels, who had been hired to perform security. The violence was too much for the Grateful Dead, and they declined to perform. However, concerts like Woodstock and Altamont set the stage for the distribution of “weed,” and with the Grateful Dead’s heavy touring schedule and their loyal travelling fans, truckin’ cannabis from west to east and back became commonplace.

Shakedown

Before each show, the parking lot of the venue was transformed into a Deadhead bazaar (known as “Shakedown”) where you could get everything from chilli dogs and tie-dyed anything to weed and perhaps even some weed seed, leading to more folklore - the birth of Chem Dog.

Supposedly, a deal goes down in June 1991 at a Shakedown outside the Deer Creek Amphitheater, Indiana. A Deadhead named ‘Chemdog’ or ‘Chem’ buys a bag of pot called

Dogbud (maybe from Colorado?) for $500, sold to him by Joe Brand and P-bud. Not surprisingly, Chem returns to Massachusetts and finds 13 seeds in his ‘Dogbud’ and plants some of them out, and the legendary ‘strain’ Chem Dog (Chem 91) emerges. Some of Chem Dog’s offspring and influences may include Sour Diesel (at least East Coast Sour Diesel), OG Kush, San Fernando Valley OG, Bubble Chem, and even Deadhead OG.

With the advancement of the internet in a post-prohibition world, the notion of ‘concerts’ as the nexus of cannabis genetics exchange may seem far-fetched, when nowadays seeds are sent by mail to your door after a few clicks on a website. But, when we look back over the thousands of years that our species has been consuming cannabis and its spread to all corners of the world, we recognise the tremendous social capital that this plant helps create. Deadheads’ love of great music and cannabis has helped shape cannabis genetics like no other cultural influence.

Special Connections

As for the Grateful Dead and cannabis, the connection continues. Family members of Jerry Garcia have carefully and respectfully created a brand (“Garcia Hand Picked”) that genuinely honors Jerry Garcia’s vision of life and love. Similarly, drummer Mickey Hart has released a product line called “Mind your Head,” which hearkens back to his famous quote, “The Grateful Dead aren’t in the music business, we’re in the transportation business,” which may be extrapolated to not only including transporting our minds but perhaps, inadvertently our cannabis genetics. 3

“Don’t be out collecting more than you need. Got a lot of things growing, keep watching those seeds.”

- Robert Hunter

The violence was too much for the Grateful Dead, and they declined to perform

Deadheads’ love of great music and cannabis has helped shape cannabis genetics like no other cultural influence

Vermiculite Benefits of and How to Use in your Growing Mediums

Create custom potting mix blends by combining vermiculite with other ingredients like sand, compost, vermicast or coir peat

What is Horticultural Vermiculite?

Vermiculite is a naturally occurring volcanic silicate and multi-layered clay mineral closely related to mica. It is mined in many countries, including Australia, the US, South Africa and Brazil. During the heating process, the mineral expands as the layers separate.The resulting substrate is known as exfoliated vermiculite. It is graded into different sizes based on diameter. The accordion-shaped brown-grey coloured granules range from extra fine (0-1mm) to fine (2-4mm), medium (3-6mm) and coarse (5-8mm). Vermiculite is helpful in various applications due to its many attributes.

Properties and Benefits

Vermiculite has many beneficial characteristics that make it extremely useful for home gardeners and growers, particularly in growing mediums:

• It is clean; odourless; non-toxic; highly porous, and won’t become mouldy, rot or decompose. Vermiculite can be expensive but provides long-lasting value.

to its many attributes

• It is sterile and pathogen-free, so it is ideal for seed-raising media to avoid damping-off diseases.

• It can hold air and make minerals and nutrients available to plants.

• It has a strong capillary action that can absorb three to four times its weight in water.

• It increases the water-holding capacity of potting soil blends and seed-raising mixes, reducing the need to water as frequently. It behaves like a sponge, releasing moisture slowly. This characteristic is particularly valuable in hot, dry climates or during drought and for thirsty plants that do best in consistently moist soil.

• It has a high CEC (cation exchange capacity). Vermiculite has a negative charge and attracts positively charged ions. As a result, macro minerals like calcium, magnesium and potassium are released from the particle surface to slowly release vital nutrients to plant roots.

• It is lightweight and inorganic, making it ideal for balcony gardeners or renters where a lightweight mix is required in pots or for people on the move.

• It is a permanent ingredient that will not deteriorate or lose volume in the mix.

• It has thermal properties, which can be very useful to insulate plant roots from high or low-temperature fluctuations. In hot climates or for frost-tender plants, this ingredient can be a lifesaver!

• It typically has a fairly neutral pH, ideal for adding to soil and growing mediums.

• It improves the structure of soil and growing mediums. Larger vermiculite particles increase aeration and enhance the composition of heavy, compacted soils.

• It can substitute perlite in growing media for many applications.

• It is inert, so it is non-reactive to other materials.

Vermiculite Uses

These unique characteristics make vermiculite a very beneficial product in the garden. Here are a few ways to use it to your advantage:

Soilless growing substrate: Create custom potting mix blends by combining vermiculite with other ingredients like sand, compost, vermicast or coir peat. It’s an ideal growing medium for hydroponics for plant support, moisture retention and nutrient release (Voropaeva et al., 2014).

Seed germination: Vermiculite can be used as a moisture-retaining cover layer to help seeds germinate or as an ingredient in a seed-raising mix.

Vermiculite is helpful in various applications due

Vermiculite can be used in potting mix to raise vegetables

Vermiculite can be added to heavy clay soils to improve aeration and structure

Store root crops or bulbs: Placed in a container and surrounded with vermiculite, you can extend the harvest life of root crops and prevent bulbs from rotting during storage. It will absorb excess moisture from outside the crops or bulbs, and the thermal properties insulate them from temperature fluctuations.

Soil improver: Vermiculite can be added to heavy clay soils to improve aeration and structure. Mixed into sandy soils, it helps retain soil moisture and nutrients.

Propagating cuttings: Medium-grade vermiculite is an ideal propagation mix on its own or in combination with coir peat, compost or vermicast. It provides excellent drainage and aeration properties, helps to anchor roots, and holds nutrients and moisture to promote new growth.

Tips for Working with Vermiculite

• The pH of vermiculite can vary depending on the brand and is sometimes slightly alkaline. It’s a good idea to check your potting or seed-raising mix with a soil pH test kit before using. If needed, blend with slightly acidic ingredients to balance the pH.

• Due to its moisture-absorbing properties, vermiculite may not be the best choice as an amendment in growing mediums for succulents or plants that require a drier mix. Drought-hardy species only need minimal soil moisture, so a higher proportion of sand to coarse-grade vermiculite would be appropriate.

• Fine-grade vermiculites help retain water in the growing media. This aids seed germination, but the fine particle size can also impact aeration properties. Therefore, it’s essential to choose a suitable grade for the job. So, vermiculite must be balanced with other ingredients in seed-raising mixes, such as sand and sieved compost or vermicast, to ensure adequate oxygen around the root zone.

• Coarse-grade vermiculites have a larger particle size. These granules help aerate growing media but have lower water-holding capacity than fine-grade.

BIO

A variety of vermiculite grades are used for different plants - ideal for propagating succulents

Safe Handling

Vermiculite is a dry mineral; bags can contain fine dust, so keep them closed when not used. Work outdoors on a non-windy day or in an area with good ventilation. Keep vermiculite damp during use to minimise dust. Store it in a cool, dry place with adequate air circulation out of the sun. You can also wear gloves and a mask to prevent potential irritation.

With many benefits and applications, vermiculite is a substrate worth using in your garden. 3

Anne Gibson, The Micro Gardener, is an author, speaker and urban garden community educator on the Sunshine Coast, in Queensland, Australia. Anne is passionate about inspiring people to improve health and wellbeing, by growing nutrient-dense food gardens in creative containers and small spaces. Anne regularly presents workshops, speaks at sustainable living events, coaches private clients and teaches community education classes about organic gardening and ways to live sustainably. She has authored several eBooks and gardening guides. Anne shares organic gardening tips and tutorials to save time, money and energy on her popular website - TheMicroGardener.com

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the History of mushroom Consumption

Whether feared as poisonous or honoured as a gift from the Gods, humans have had a long and varied history with mushrooms. Especially when it comes to our consumption of them or lack thereof. Let’s walk through a timeline of our history of mushroom consumption.

The Red Lady

In 2010, the remains of a woman - dubbed the “Red Lady” - were found in a burial site dating back nearly 18,700 years. An examination of her dental calculus found evidence of mushrooms in her diet.

3,400-3,100

The mummified remains of a hunter-man, Otzi, who lived in Europe between 3,400 and 3,100 BC, were found with three different kinds of fungal objects. While one may have been used to start fires, the others were likely for medicinal purposes.

Egyptian Royals

In Ancient Egypt, mushrooms were considered so special, a gift from the God Osiris, that they were reserved for royals and their families. Common folk were not allowed to eat mushrooms or even touch them!

480 BC:

Magic Mushrooms

In Ancient Greece, philosophers such as Plato, Homer, and Aristotle, were said to attend secret ritual ceremonies worshipping the goddess Demeter, which involved drinking psychoactive concoctions containing psychedelic mushrooms.

200 BC:

Mushroom Cultivation In Greece

Greek horticulturalists begin growing mushrooms to learn more about their practical uses. In an essay called Concerning Odors, the Greek scientist Theophrastus wrote that fungi grown on dung was not stinky and could be eaten. His student, Nicandros, learned and spread the good word about growing mushrooms in manure-filled holes under fig trees.

1,500 BC:

3,100-300 BC: Central America and Psilocybin

Artwork in Central America portrays mushrooms as a way to communicate with the Gods. Mayan and Aztec people used psilocybin in religious ceremonies for various celebrations and spiritual and physical healing.

450 BC:

Mushroom Medicine

Hippocrates, the “Father of Medicine” himself, wrote about the amadou mushroom as an effective anti-inflammatory and ideal for cauterising wounds.

100 BC:

Mushroom Medicine in China

Ancient Chinese texts dating back to 100 BC discuss several of today’s popular mushrooms, pointing out their ability to cure multiple diseases, including respiratory illnesses.

The 1300s:

Mexican Religious Ceremonies

The Mixtec Vienna Codex, which dates back to the 14th the use of mind-altering mushrooms in ancient Mexican religious ceremonies.

1422:

The death ofEmperor King Charles VI

King Charles died on October 21st, 1422 - possibly from eating amanita or death cap mushrooms. Leading famed French Philosopher Voltaire to say, “A dish of mushrooms changed the destiny of Europe.”

1519:

Seeing the Future

Following the conquest of Mexico in 1519, Roman Catholic priests witnessed Indigenous peoples consuming hallucinogenic mushrooms. They would wait for the effects to wear off and then discuss their visions for the future.

1650:

Western Cultivation

Mushrooms had been cultivated in the east for hundreds of years. But the first record in the west happened around 1650 in Paris, France.

1790:

Attempt to Cultivate Truffles

Frenchman Pierre II Mauléon of Lou dun began to cultivate truffles around 1790. Recognising the correlation be tween the oak tree, the rocky soil, and the truffles, Mauléon attempted to recreate the environment by taking acorns from truffle-producing trees and sewing them in chalky soil.

1824:

Published in 1824, “The Virginia Housewife” contains the first references to mushrooms in a cookbook in the United States.

1755-1826:

Brillat-Savarin and Truffles

Brillat-Savarin, a father of the gastronomic essay, once called truffles the “diamonds of the kitchen”.

“The Virginia Housewife”

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American Cultivation

It was around 1865 that mushroom cultivation started in the United States.

1865: Cooking With Mushrooms

Before this time in the United States, mushrooms were primarily used in condiments. However, once cultivation began stateside, Americans started cooking them up in their kitchens.

“One Hundred Mushroom Receipts”

1899: Mushrooms on Pizza

Lepiota procera Stew and Baked Tricholoma personatum are just two of the 100 recipes in Kate Sargeant’s “One Hundred Mushroom Receipts” cookbook. This is one of the first English-language cookbooks dedicated to the mushroom.

Before 1940:

1911: Italian Brown

Until the early 1900s, pizza was primarily sweet, not savoury. In Pellegrino Artusi’s classic cookbook, ‘La Scienza in cucina e l’Arte di mangiar bene’, he had three pizza recipes, all of them sweet! However, after reader feedback, Artusi added a typed-up sheet to the 1911 edition with a recipe for a savoury ‘Pizza alla Napoletana: mozzarella, tomatoes, anchovies and mushrooms.

Now known as Crimini, the Italian Brown was the most widely available mushroom before 1940.

1934:

Campbell Soup

A staple in many kitchen cupboards these days, the Campbell Soup Company introduced their famous Cream of Mushroom in 1934.

The 1960s:

Japan’s Shiitake Discovery

In a study charting diseases throughout the country, Japanese researchers discovered two remote areas where incidents of cancer were shockingly low. Eventually, this epidemiological phenomenon was linked to the predominance of Shiitake mushrooms in their diets.

1969:

Cancer Drug

In 1969, the pharmaceutical compound Lentinan was extracted from shiitake mushrooms. It’s now the third most widely prescribed anticancer drug in the world.

The 2010s:

White Buttons Rule

According to a report from the Mushroom Council in the 2010s, white button mushrooms are far and away the most popular variety in the United States. They represent 90% of all mushrooms consumed in the country.

2019:

11.9 million tonnes

The worldwide production of commercial mushrooms and the recorded amount of collected truffles weighed in at 11.9 million tonnes in 2019.

October 15th:

National Mushroom Day

We aren’t sure when it started or who started it, but October 15th is National Mushroom Day.

Sources:

• pbs.org/food/the-history-kitchen/edible-mushrooms

• foodprint.org/real-food/mushrooms

• wikipedia.org/wiki/History_of_pizza

• wikipedia.org/wiki/Cream_of_mushroom_soup

• lowimpact.org/info-articles/history-of-mushroom-cultivation

• Blog.naturalwellbeing.com: bit.ly/3UGwU89

• ncbi.nlm.nih.gov/pmc/articles/PMC4684114

• spiritofchange.org/a-history-of-medicinal-mushrooms

• mpg.de/9173780/mushrooms-food-source-stone-age

• wikipedia.org/wiki/Edible_mushroom

• wikipedia.org/wiki/Truffle

• Mycologistkat.wordpress.com: bit.ly/3HnJx4T

• Tastingtable.com: bit.ly/3UL3HJn

• nationaltoday.com/national-mushroom-day

• Crazyaboutmushrooms.com: bit.ly/3FEB1gN

• Mushroomrevival.com: bit.ly/3iQqW7B

BIO Jesse grew up obsessed with movies and so it only makes sense that he graduated from McGill University with a degree in Political Science. He then put that degree to good use with a job at a video store. After that, he spent months backpacking around Europe - a continent that he has been back to visit many times since. Jesse is super curious and loves to learn and explore new subjects. For the last 15+ years, he has been writing online for a number of different sites and publications covering everything from film and television to website reviews, dating and culture, history, news, and sports. He’s worn many hats - which is ironic because he actually loves wearing hats and he has many different ones.

Setting the Stage For

Mushroom Cultivation Mushroom Cultivation

Whether starting from a spore or pre-inoculated kit, cleanliness will be a significant factor in the success of your first grow.

Like mushrooms, mould and bacteria also love nutrientrich substrates and will almost always out-compete the fungus you are trying to grow

Mushrooms love a nutrient-rich grow substrate to spread their mycelial “roots” and absorb the nutrients around them. Like mushrooms, mould and bacteria also love nutrient-rich substrates and will almost always out-compete the fungus you are trying to grow. Ensuring you have a clean substrate is integral for the success of your first grow, but this article will focus on the importance of giving the mushrooms the best environment possible, and that starts with where we do our lab work.

Small Spaces And Cleanliness

When I was an amateur grower starting to get my hands on the tools and inoculating my grow substrates, my 4’x8’ bathroom quickly became my “clean” room. A small space in your home with little to no foot traffic will be the best place to get your athome mycology work done because it will be the most accessible place to keep clean. And remember, we do not need to take over a room in your home permanently; this is only necessary when doing the clean work portion of mushroom cultivation.

The smaller the room, the better. You want to have the space shining from floor to ceiling, and less space means less time cleaning. Depending on your budget, the most common cleaners are Lysol sprays or bleach. When working with any cleaner in a small, sealed environment, it is vital to wear the appropriate attire to keep yourself safe; I recommend gloves, glasses, and a face mask.

Now that we have our space dialled in, we need to bring in our tools and supplies. As you clean or bring items in, it is essential to wipe them all down with a 70% Isopropyl alcohol solution and allow it to evaporate completely before using them.

Personal Hygiene

After you have identified a place in your home, cleaned it from top to bottom, and have all your tools and supplies, it is time to think about the most significant vector of contamination: you! Humans are walking vessels for moulds and bacteria to latch onto, whether it be on your clothes, hair, or even the spit particles that leave our mouths as we talk. No matter how much work and preparation you put into cleaning your environment, you must remember to ensure you are as clean as possible. Before doing at-home lab work, I recommend you shower, dawn a fresh set of clothing, tie up your hair

(if applicable), and remove any jewellery before we step into our homemade lab.

Once we set foot into the lab, putting the appropriate PPE on is essential. Basic PPE is a set of disposable gloves and a surgical mask. The gloves will help prevent bacteria or dirt trapped in your fingernails from dislodging while working, and the surgical mask will prevent spit particles from landing on your tools or sterilised substrates.

A Winning Workflow

Proper workflow is the next step to consider when growing mushrooms. Doing all the work in an orderly fashion, moving from the left to the right, will prevent us from reaching back over the top of something that can be contaminated. For example, suppose I plan to spawn bulk substrate in a bag. In that case, I will set up my scissors, isopropyl alcohol, and paper towel on the far left, followed by my bag of spawn, a bag of the substrate, and lastly, my bag sealer on the furthest to the right side of my workbench. This will allow me to use the clean scissors to slice open the two bags, transfer the contents of one bag into the other, and seal the bag with a bag sealer - all without having to reach back over to grab a tool and potentially contaminate a vulnerable open bag of the substrate.

Take Five

Setting yourself up for success in the lab is time well-spent, as five minutes of prep work can save you two weeks of colonising a substrate only to realise it has been contaminated the entire time. Being intentional with your actions and having a proper game plan will bring you success in all of your myco-endeavours. 3

five minutes of prep work can save you two weeks of colonising a substrate only to realise it has been contaminated the entire time

As the topics of climate instability and global food insecurity demand urgent attention, regenerative growing practices are being adapted and scaled to address the interconnectedness of human and non-human survival on this planet.

Living kelp forests are home to incredible biodiversity

Like land-growing plant groups such as grasses or trees, seaweed is a generic name for many species. In the last several decades, emerging technologies and research have revealed the underappreciated diversity and activities of fungal and bacterial organisms. At the same time, nearly every industry has found novel opportunities to enhance the human experience by working with seaweeds. Their unique characteristics attract people seeking creative solutions in healthcare, food, and environmental wellness.

Feeding the World

Seaweeds have long been collected and cultivated as a primary food source for humans and their companions. Now, AI is used to identify textures and flavours inherent in animal-based products and mimic those using derivatives of land and ocean-growing plants. These “meaty” products can be derived from plants grown with regenerative land-use strategies that incorporate seaweed to produce more appealing, nutritious food.

Of course, coastal agriculturalists have long worked with seaweed and other marine source materials in localised traditions of integrated resource and sustenance management, defying and complicating concepts of boundaries between living lands and waters.

On the Surface

From a land-based human farmer’s point of view, seaweeds are analogous to other domesticated crops. A few countries and locales have historically exploited their natural resources to evolve industrial methods of high-volume cultivation and harvest. The same vulnerabilities and concerns exist within seaweed agriculture, including risks associated with monocropping and genetic intervention (whether through traditional breeding or genetic modification), which allow shortsighted economic gains to take precedence by reducing diversity, threatening ecological balance and future yields.

Like any other agricultural input, when macroalgae are collected and used without regulatory oversight and testing, there is a potential for contamination by bioaccumulation, the redistribution of heavy metals or other chemical pollutants, and ecosystem disruption. Living kelp forests are home to incredible biodiversity. Mammals such as whales, sea lions and otters use them for food and refuge from storms and predators, as do countless fish species and invertebrates like sea urchins, slugs, snails, stars, sand dollars, and octopi.

Sustainability concerns and other pressures have created a global regulatory environment in which seaweed cultivation and wild harvesting are subject to radically different and sometimes seemingly over-complicated schemes. These prevent some stakeholders in countries like the United States from being able to jump in and start farming the oceans. At the same time, the European Commission, Scotland, India, and other nations are openly exploring opportunities for industrialising seaweed as part of integrated hunger-reducing programmes. They cite proof of land-crop yield improvement and spacial use efficiency (i.e. farming kelp in coastal areas already disturbed and depopulated due to windfarming and other human activities) as additional and significant benefits to investing in this sector.

From Forests of Macroalgae to Botanical DNA: Deeper and Deeper Down

Thanks to the generational transmission of traditional ecological knowledge, some contemporary environmental stewards know how to work regeneratively with wild sea plants in their regions. These practices include respecting the growth habits of different types of seaweeds and employing multiplicative techniques similar to coppicing, “pinching back” or topping, while leaving the rock-affixed bases of the plants intact. However, because beach and ocean detritus like rocks and shells comingle with storm-tossed seaweed, machine collection of this resource is generally not considered commercially viable. Instead, these deposits are often available to small-scale hand pickers operating either on their ocean-adjacent properties or with permission from the supervisory bodies that govern other types of wild harvest (e.g. hunting, herbcraft).

In other locations, the public interest is cited as a reason for “cleaning up” significant quantities of beached seaweed, offering the opportunity to employ this otherwise “nuisance” or “waste” in nearby food production and land rejuvenation strategies. In addition, these materials can be valuable to those seeking to repair or improve soil quality for cultivation.

A Substrate Amendment Worth its Salt

When seaweed biomass is incorporated as a compost amendment or mulch, the structural effect is increased water-holding capacity, aiding in wind erosion control and allowing more efficient use of unpredictable rain and cherished groundwater resources.

Sustainability concerns and other pressures have created a global regulatory environment in which seaweed cultivation and wild harvesting are subject to radically different and sometimes seemingly overcomplicated schemes

Growers can observe or imagine chopped seaweed mulch working like other mucilaginous materials, hydrating and holding moisture between soil particles.

Although transferring large quantities of raw, unwashed seaweed will introduce some sand and salt to the land, it more than makes up for this by adding other minerals and beneficial compounds to the mix. Composting seaweed with sawdust is one inexpensive and balanced approach to building soil.

Seaweed concentrates are not merely nutritional supplements and do not create such a strong effect on plants simply by increasing the local food supply; they contain phytochemicals which signal the treated plants to become more resilient to adverse conditions.

Macroalgae enjoy mineralised growing conditions (salt water) where photon availability is affected by sunlight’s penetration through the water. Without a soil-based network of roots to draw nutrients, these organisms use phytochemical processes enabled by different mechanisms than the plants growing inland.

For these reasons, several important phytoeliciting compounds naturally occur abundantly in seaweed, which can be extracted, concentrated, and used to promote desirable outcomes in other crop cultivation projects.

Decades of scientific investigation support serious consideration of seaweed amendments for plant producers of all types. The parameters of a grower’s cultivation plan are essential in how they incorporate seaweed. In a multi-seasonal (or multi-generational) land relationship, the human introduction of raw seaweed biomass in an active composting environment is an opportunity to improve the growing substrate structurally.

For many growers, this direct-tothe-land relationship may locate them far from natural sources of macroalgae, partly because of the high volume of seaweed farming undertaken in the name of other industries (e.g. cosmetics, pharmaceuticals). But agricultural amendments containing seaweed are also widely available.

A mixture of brand loyalty, distribution channels, and local regulatory frameworks will likely impact the choice of products. Many bottled additives contain some amount of seaweed in their formulations, and as a little goes a long way, there may be no sense of urgency to add a dedicated seaweed product to the plan. However, a range of effects can be seen from seaweed use throughout a cultivar’s life cycle. Specialised products are often marketed for use on a specific crop at a particular time. Therefore, growers with diverse gardens or operating under other parameters (e.g. veganics) may be better off choosing the most concentrated, fewest ingredient liquid seaweed extract they can find.

Anyone starting plants from seed can enjoy the benefits from day one. Seed treatment with liquid seaweed extracts has been shown to improve germination rates and increase the vitality of emerging seedlings. The health and vigour of small plants propagated by cuttings have also significantly improved in seaweed-enriched environments.

Thanks to recent DNA analysis, it is now confirmed that seaweed application not only improves the growing environment in treated areas, but the availability of its specialised constituents inherently alters the biochemical journey of the living plants. By up and down-regulating hundreds of genes responsible for growth, defence, and resistance to stress, foliar and drench applications of liquid seaweed concentrates contribute to the robustness of the plants under cultivation and their progeny.

Decades of scientific investigation support serious consideration of seaweed amendments for plant producers of all types

Higher levels of calcium, phosphorous, boron, copper, iron, manganese and zinc have been reported in the leaves and stalks of plants treated with liquid seaweed

It’s not surprising, for example, to discover that genes relating to drought and salt stress tolerance were up-regulated in tomato plants treated with seaweed extracts. Plant pathogen defences, achieved by boosting chemical signalling, metabolic production pathways, and cell structure, are also improved at the genetic level, as is the metabolism of nutrients.

Higher levels of calcium, phosphorous, boron, copper, iron, manganese and zinc have been reported in the leaves and stalks of plants treated with liquid seaweed. The plants’ ability to make use of these minerals is also improved. Improved nutrient use efficiency means that where seaweed is employed, other costly (synthetic chemical, inorganic) inputs may be used less or even eliminated. This increased effectiveness would be an economic benefit to today’s farmers, reduce the seasonal draw of fertility from agricultural lands, and contribute to future harvest quality and yields.

A Well-Defended Community

Regarding flavour and effect, unique cultivars of medicinal herbs are especially prized when exhibiting genetic propensity toward higher concentrations of defence-related compounds. In plain language, the smelliest and stickiest plants are more likely to survive insect damage, attract pollinators and repel predators, and some of the produced phytochemicals are bio/psychoactive compounds prized by humans.

Research has shown that terpenes and thiols, particularly volatile metabolites that provide plants with characteristic scents (and dank stenches), are functional for communicating a threat. For example, they may signal for increased immune responses in the other plant populations themselves or draw the attention of beneficial insects who recognise the damage done as evidence that their herbivorous prey is near.

with

The Future is Fluid

Should the elicitation occur in a plot of cultivars already possessing very desirable phytochemistry, it does not seem unreasonable to expect that seaweed can prime these plants to signal their peers, maximise their existing potential, and generate plentiful amounts of these enjoyable and extractable molecules.

Breaking down barriers to using available marine resources in balance with the protection of maritime habitats and ecosystems feels like a natural progression of social psychology, moving away from binarist, black-and-white, short-term thinking.

Although we cannot extrapolate research on tomato plants 1:1 to other crops, the promise of possibly inheritable improvements within a generation is attractive to seekers of the ‘best of the best in plant selection and breeding programmes.

Crop yield and quality benefit from applying various seaweed-derived products. By using both timely, targeted treatments and broad, raw applications, growers can improve the health of today’s living plants. They can also advance the resilience of future food and medicine production through soil enrichment, environmental remediation, and sociocultural shift away from synthetic, petrochemical, and animal-sourced fertiliser regimes.

When food and the next season’s seed stock are collected from healthy plants while the growing environment is rebuilt and restored, the downstream effect is multiplicative; raising the bar for individual and environmental wellness is a targeted and reasonably expected outcome. 3

Seed treatment

liquid seaweed extracts has been shown to improve germination rates and increase the vitality of emerging seedlings

Composting seaweed with sawdust is one inexpensive and balanced approach to building soil

The Wonders Of

The Deep

Some of the most nutrient-dense and potent organic fertilisers and biostimulants come from oceanic sources. Let’s look at some of the more popular ones, what they offer the garden, and how we can use them effectively to supercharge our plants.

Kelp Meal And Kelp Extract

Sometimes referred to as seaweed meal, this ingredient isn’t super high in NPK levels. Still, it makes up for that by offering a wide range of trace minerals, some unique carbohydrates, and perhaps even more importantly, some beneficial growth-stimulating compounds.

Different types of kelp possess individual micronutrient profiles but also vary in the hormone-like compounds they supply. While one may benefit shoot growth, another may be better for root elongation.

Kelp extracts amplify beneficial effects, using various processes to concentrate the biostimulant portion by removing much of the bulk that makes up the kelp meal. The water-soluble end product can be watered in or applied to leaves to get a much more powerful result.

Kelp extracts promote root and shoot growth, help with frost resistance, and improve stress response, producing robust plants in even adverse conditions such as drought.

Fish Meal, Hydrolysates And Amino Acids

Fish meal is another widespread marine-derived ingredient. When taken from whole fish (including the bones and scales), it is an exceptionally complete nutrition source for the garden.

Fish meal supplies generous portions of nitrogen, along with a good helping of phosphorous and potassium, trace minerals, and calcium. Applying a little fish meal product provides many benefits in just one ingredient. It also contains many food sources that microbes love to dine on, especially the natural fats for which fungi have shown voracious appetites.

Whole fish hydrolysates are another excellent option. This process takes fish and breaks them down enzymatically to produce an amino-rich liquid concentrate, easily applied through irrigation. Hydrolysates are ideal for providing a complete, microbe-friendly food source.

Raw amino acids are easily absorbed through roots and tissues and have a marked ability to naturally chelate minerals, making them vastly easier for plants to uptake. In addition, because the natural language of plants is carbohydrates and amino acids, this fertiliser requires no conversion for the plant to enjoy all it has to offer. Fish amino acids supply the benefits of hydrolysates but in an even purer form and can be applied as root drenches or by foliar feeding for speedy and notable effects.

Some of the most nutrientdense and potent organic fertilisers and biostimulants come from oceanic sources

The wonders of the deep await you!

Crustacean Meal And Extracts

Crustacean shells provide a considerable amount of beneficial components. The shells are most often taken from the prawns, shrimp, crabs, and lobster shells left over from food processing.

Crustacean meal is made by drying and grinding the shells to a fine consistency to be broken down by microflora, where it will provide reasonable amounts of NPK. The shells are composed predominantly of calcium carbonate, so they buffer soil against acidity and provide calcium and other trace minerals to the plant.

Crustacean shells are unique because the bulk of the shell is calcium carbonate, but it is held in a matrix with chitin, similar to how insect shells are constructed. Chitin is an incredible compound, and crustacean extracts take advantage of this by purifying the chitin portion into chitosan.

When plants encounter this substance, they accumulate defence-related compounds, improving the naturally induced resistance to pathogens and pests. In trichome-producing plants, chitosan increases specific biomarkers that boost resin production, resulting in a detectable increase in harvest quality.

Performing hydrolysis on chitosan extracts yields an amino-rich fertiliser complementary in its nutrient

profile to fish amino acids but with different peripheral compounds. As a result, crustacean amino acids can be an excellent addition to the flowering cycle, promoting quality and disease resistance for big, healthy blooms.

Oyster Shells And Seashells

Rich sources of calcium are derived from different hard seashells. Composed of primarily carbonate calcium, finely grinding these and adding them to the soil offers calcium and, especially in the case of oyster shells, many trace minerals. Like crustacean shells, oysters and seashells also contain chitin, helping with pH correction and buffering.

So, why wait? The wonders of the deep await you! 3

Chitin is an incredible compound, and crustacean extracts take advantage of this by purifying the chitin portion into chitosan

of High Powered Organics and a second-generation Australian grower with more than a decade of experience in the horticulture industry. Cody works closely with growers locally and abroad, creating organic solutions for high output cropping. He achieves maximum results by combining aspects from permaculture, biodynamic farming, and Korean natural farming techniques. Cody’s main focus is finding natural, and sustainable ways to produce high-quality plants with a minimum of input.

A Deep-Rooted Passion For Mushrooms At Fungaia Farms

It’s a crisp and bright November morning, and I am headed to Fungaia Farm, a local mushroom production company that serves my Humboldt County community. Fungaia Farm is owned and operated by local permaculturist Levon Durr, who began this endeavour in 2011.

On this day trip, I get to join Levon as he works to make an order for a local ranch owner of 50,000 wooden dowels inoculated with shitake mycelium. He’s a busy guy, so he is multi-tasking his work as he tells me about his evolution from a mushroom lover to a mushroom educator and how he is passionate about these organisms. As he loads up large scoops of water-soaked wooden dowels into bags used for sterilisation, he explains that property owners are always looking for alternate revenue streams from their land and have an abundance of thickly growing stands of tan oak.

“The real clencher is when you start talking to property owners with acres and acres and acres of choked-out tan oak forest,” he says. “And you tell them, ‘I’ve tried growing a variety of mushrooms on tan oak, and the only thing that’s kicked ass is shitake’, and you tell them [their tan oak thinning] can make them money, and they can grow delicious protein rich mushrooms.”

Fungaia Farm is a community-based cottage business providing all kinds of mushroom spawn and associated tools to feed your DIY mushroom obsession. Through their website, anyone can purchase plug spawn (inoculated wooden dowels for log culture), sawdust spawn, which can be used to create mushroom beds in your garden, or grain spawn, which acts as a “seeding” spawn to inoculate dowels or other substrates like coffee grounds, wheat straw, hardwood sawdust/shavings, and even cardboard. Also available are his infamous mushroom kits, which come ready to fruit gourmet edible mushrooms right on your kitchen counter.

Fungaia Farm provides fungi for novice and expert mushroom producers, but they also have products for those who want to enjoy these extraordinary species. They have spice mixes, mushroom gravy mix, and their medicinal mushroom tinctures can provide your body with various health benefits, but Levon is also passionate about education. He gives workshops on how-to for log culture, sterile culture techniques, and environmental restoration. Levon is passionate about what he does, and his business has that energy and expertise on display. I asked him what he felt kicked off his love affair with mushrooms.

“Originally, it really started with just a broader sense of nature and spending time in nature,” he explains. “Then, I was introduced to the idea of wildcrafting and just being this young kid, out on my own at 17; I was selling blackberry jam on the corner at the farmers market, or doing whatever I could to make a little money. But then, a buddy of mine teaches me that an Italian restaurant is forking over $10 per pound for mushrooms at the back of the restaurant. So, we started hiking all over, getting AAA plus mushrooms, like chanterelles, to sell to them. That was really the beginning, and, of course, also David Arora’s book, which helped me expand into other edibles.”

He refers to David Arora, a mycologist who has dedicated his life to educating the public on edible and medicinal mushrooms. His books Mushrooms Demystified, All That the Rain Promises and More: A Hip Pocket Guide to Western Mushrooms will be a favourite for those who wish to learn the most satisfying skill of mushroom foraging.

“Then in the late 90’s I went to a Bioneers conference and saw Paul Stamets speak,” Levon says. “He was working on his Mycelium Running book and he just completed a hydrocarbon soil remediation project. was successful in remediating a few yards of soil contaminated by hydrocarbons using oyster mushroom mycelium. And again, there was that connection that said, I don’t need an engineering degree to do this. I don’t need to know anything but the basic biology of the lifecycle of this organism.”

Levon is right. It’s possible to enjoy foraging or growing your own mushrooms without formal academic training. Paul Stamets is a revolutionary mycologist who was largely self-taught. Still, because of his groundbreaking work, he earned an honorary doctorate from the National University of Natural Medicine in Portland, awards from the American Association for the Advancement of Science, and myriads of other accolades. Stamets has played a massive role in making fungi accessible and approachable to everyday people. Now, through Fungaia Farm, Levon is carrying that same torch and has devoted his life to connecting people to mushrooms and their environment.

“I’ve never had this fascination with just walking around trying to ID everything or DNA sequencing nature, and I can get frustrated with the academia folks when they get obsessive about ID’ing and memorising massive amounts of Latin,” he says. “I mean, I always seem to find that the large percentage of the human population is interested in what they can eat. Don’t get me wrong, I appreciate the science, but I just don’t know what impact that’s having on the broader public’s appreciation of the natural world. When you can relate to people in that way, like, this is a delicious food, or this is an abundant resource that can be harvested without damaging the ecosystem, and you’re a part of it. It’s connecting this primal ancestral connection to the land that I feel is so important.”

Levon and his business support people finding the edible joys of mushrooms, but he also is a big proponent of mycotechnology, which are tactics that use fungi to restore the environment or provide a greener approach to development and land stewardship.

Fungaia Farm is owned and operated by local permaculturist Levon Durr, who began this endeavour in 2011

There is so much diversity in what you can achieve with mycology

“There is so much diversity in what you can achieve with mycology,” he says. “ I’m working on mycelial building products with a contractor. I’m working on mycofiltration with folks from the biology and forestry world. I’m working on fire restoration with a tribe here in California. All the while, I am also growing medicinal and edible mushrooms to pay the bills.”

How fungi can be used is as diverse as these organisms. Emerging technologies based on biomimicry and enhancing ecosystem succession (the process in which the mix of species and habitat change over time) are fascinating. Levon has worked to clean up diesel-contaminated soil with mycoremediation, a strategy that harnesses fungi’s ability to deconstruct complex molecules and transform contaminants into a food source. Mycofiltration is an approach that uses the fine net of fungal hyphae to capture sediment and pollutants, which can help reduce water quality impacts. He has worked to support a local tribe in restoring their forest soils after fires. Yet, as much as he is a fan of these organisms, he also is pragmatic in his view that implementing these technologies is a complex and difficult challenge.

“People are always asking why these technologies aren’t more wildly used,” he says. “The challenge is when you take these living organisms, and all of a sudden throw them outside in all these different temperatures and humidity levels and environments. That’s super challenging.”

He also stresses that there is not one single winning strategy.

“I don’t believe that fungi are this silver bullet that is the answer to all our problems. I know we love that, it makes a great Instagram post, but I am wary of that approach. What’s the real practicality of [implementing these mycotechnologies]? Are fungi these amazing silver bullets for your health or the environment? No, but they are important pieces of the puzzle. We tend to break things into segments, we break things into categories, separate them out, and we don’t see the interconnectedness.”

Fungaia Farm is a unique business with a mission to encourage folks to heal their relationships with nature, to go beyond science, and teach people to relate to their environment in tangible everyday ways. The Fungaia Farm message is to empower yourself to use the tools nature has given us, that we can do this, and that we all should do this. Fungi can help heal our landscapes, bringing us food, medicine, clean soil, and clean water. But, most importantly, fungi show us the complexity and innate interconnectedness that all of nature possesses.

Please visit and support this man’s incredible work at Fungaia Farm website: fungaiafarm.com 3

Levon is passionate about what he does, and his business has that energy and expertise on display

Mushrooms are Medicinal

Mcollected and consumed by people for millennia. It is interesting to note that ancient cultures did not primarily collect mushrooms for food; some cultures did not collect edible mushrooms at all. This is likely because mushrooms are low in calories, and the calories spent collecting them led to a net-caloric deficit. On the other hand, in our modern world with its glut of calories, the low-calorie mushroom may be the absolute “choice” food to pick, especially if picking includes a calorie-expending hike plus some time doing what the Japanese call “Forest Bathing”. The cleansing air, breathing, touching and absorbing the forest microbiome have long been known to drop stressful cortisol levels, boost immune function, and lower blood pressure, giving one that mild narcotic feeling of well-being.

But for the Ancients, calories were things that counted. This was a life-and-death mathematical calculation in many areas, especially those northern and seasonal climes. The potential of deadly and debilitating poisonings made a diet including mushrooms even more questionable. Those same but vital questions, “Should I eat it?” are yet to be fully addressed today. Other than the Death Cap and a few other deadly amatoxins containing poisonous mushrooms, the most common mushroom poisonings, according to the North American Mycological Association (NAMA) poison records, are gastrointestinal and typically come from edible and often some of our most delicious mushrooms.

Why? Because all mushrooms are medicinal, and here’s how.

The Kingdom of Fungi is closely related to the Animal Kingdom; they share many of the same core characteristics, components and actions. The mushroom, we recognise, is just the “apple” that holds the seeds of a fungal organism, though, in the case of fungi, these “seeds” are spores. The mushrooms are made up of fungal hyphae, the same stuff that makes up the fungal organism, which lives and makes a home in and alongside its food. These fungal organisms are found in fossil records and are likely some of the first life that colonised land along with bacteria, yeasts (a form of fungi), algae, and viruses. Having evolved alongside these

organisms, competing and cooperating for space and food, fungi have developed the mechanisms and chemistry needed to survive and thrive in this teeming environment. Like us, fungi have an extensive microbiome, but internally and externally. Some of these relationships are adversarial, and some are cooperative. Fungi, such as Penicillin, produce multiple compounds that can kill those adversarial organisms. But fungi go beyond that, providing metabolites and habitats in which other microorganisms can thrive. One of the most exciting things they do is modify and disrupt the signalling between bacteria, called Quorum Sensing. Bacteria produce biofilms, which provide a safe habitat for bacteria to grow and reproduce. The biofilm protects bacteria from immune attack and the chemicals used to disrupt and kill them. Developing these biofilms is critical for bacteria to reach a stage where they can become virulent. Fungi disturb this process, leaving the bacteria vulnerable to attack; this is a significant study area in combatting antibiotic-resistant infections.

Then why do delicious edible mushrooms occasionally poison us? Other than food sensitivities and the like, all fungi have this innate ability to deal with bacteria. This can profoundly affect our microbiome, especially if we have consumed too many of these mushrooms. And in most cases, the reported gastrointestinal poisonings occur from overconsumption. These include mushrooms like “Red

Tops” (Leccinum species), “Honey Mushrooms” ( Armillaria species), “Shaggy Manes” (Coprinus species) and even our gourmet “Lobster” mushrooms (Hypomyces lactiflorum). In the case of Lobsters, the older ones that have turned a deeper crimson are the culprits. Some preliminary research has found that extracts from these older Lobsters whip out a variety of bacteria on culture plates. It has also been reported that undercooked mushrooms and mixing mushrooms and alcohol can have the same gastrointestinal effect. Regretfully, these “medicinal” mushrooms are not labelled with appropriate dosages and contraindications.

So, antibacterial action makes many of our mushrooms medicinal in nature. This is ubiquitous across the Kingdom. But wait, there’s more!

Clean Eating

Overall, edible mushrooms are a healthy choice. We noted that they are low-calorie, virtually containing very limited to no fats. They are low in sugars, but the sugars they

have are medicinal. Mushrooms are structurally made up of polysaccharides, many of which are bioactive. These include chitin, hemicellulose, β and α -glucans. Chitins get broken down into glucosamine, a major constituent of collagen. These fibres make up to 13% of the composition of mushrooms and can act as dietary fibre. They act like a prebiotic, providing the habitat and stimulating the growth of gut microbiota. This area of the microbiome is undergoing intense research, and fungi could be one answer to the gut diversity issue many of us are struggling with.

Boosted Immunity

It has long been recognised that polysaccharides have a stimulating effect on the immune system beyond just the influence on the gut microbiome. Beta-glucans are absorbed through the gut into the lymphatic system where they stimulate the production of macrophages. Macrophages clean up cellular debris and activate other immune functions such as T cells and Natural Killer cells. Also, Beta-glucans have been known to prevent the absorption of dietary cholesterol implicated in coronary heart disease.

Like us, fungi have an extensive microbiome, but internally and externally. Some of these relationships are adversarial, and some are cooperative.

Mushrooms are also filled with a multitude of enzymes.

Healthy Gut

One example in the Yellow Morel research looks at how the Morel polysaccharides affect the gut, the gut microbiome, and the effects on blood sugar levels and diabetes in mice. In this study, they found an increased abundance of beneficial microbes like Firmicutes, Bacteroides, Lactobacillus and a lower quantity of harmful Actinobacteria. Actinobacteria is linked to metabolic syndrome, insulin resistance and obesity. Along with an improvement in the gut microbiome itself, they also found that the gut lining’s tight joints improved, as did intestinal permeability. In addition, the use of the Yellow Morel fibre caused overall improvement in glucose tolerance, insulin resistance and a reduction in pro-inflammatory cytokines.

Lower Blood Sugar Levels

Another abundant and common mushroom sugar, ubiquitous across the mushroom Kingdom, is trehalose. This sugar is common in insects and other life forms, as it works like antifreeze. Because the sugar is more complex, it takes longer to uptake, stabilising blood sugar levels, especially after meals. Blood sugar spikes are implicated in the development of arterial sclerosis and other effects on diabetics and prediabetics. Interestingly, trehalose also stimulates autophagy, our own bodies consuming their own cells, which is all the rage with the intermittent fasting movement. Specifically, it stimulates autophagy on smooth muscle tissue, such as damaged arteries, and prevents fatty liver buildup before finally stabilising the phospholipid bilayer that makes up all our cells.

Enzyme Activity

Mushrooms are also filled with a multitude of enzymes. These are released through the hyphal wall in the fungal mycelium, breaking down various compounds that the mycelium absorbs. One of these enzymes is called protease, which breaks down protein chains into smaller groups and into the base amino acids. One of the proteins mushrooms are great at breaking down is gluten. Research is proceeding in this area to treat Celiac disease and those with gluten intolerances. Protease also repairs the tight junctions along the intestinal wall, preventing leaky gut-type syndromes that allow the gluten to pass through the gut wall.

Fungi, Fibrin, and Statins

Further, protease is critical in dealing with issues with fibrin and fibrinogen in the body. Fibrin is vital in the body as it is the first line to repair all sorts of damage and injury. Fibrin, together with platelets, form the clots which stop

bleeding. But fibrin is implicated in other areas. Fibrin coats cancer cells, creating a protective barrier around them. Here, protease is critical in breaking these barriers down. Many fungi have been demonstrated to be cytotoxic to cancer cells and an adjuvant immune stimulating therapy. Some of these mechanisms are unknown. It has been suggested that breaking cancer’s protective barrier exposes the cells for the immune system to clean up.

Fibrin is also implicated in arthritis. As fibrin repairs damaged joints, it causes inflammation and lays scar tissue over the joint surface. This can make the joint rough and more painful. Protease can break this scar tissue down. In Traditional Chinese Medicine, they used many different fungi as tendon-easing powders. Mushrooms like the Oyster mushroom and the Fairy Ring mushroom are just two that have been historically used. Oyster mushrooms have up to 22% glucosamine content from the chitins, which also support joint healing. Protease breaks down the scarring, and glucosamine helps rebuild the joint. Oysters also have statins, which play a role in osteoporosis by stimulating bone remodelling through osteogenesis and reducing inflammation. This is thought to affect joints and overall bone density and health.

Oysters also have statins, which play a role in osteoporosis by stimulating bone remodelling through osteogenesis and reducing inflammation

Other than Oysters, many other mushrooms have statins present. Lovastatin, a familiar name, is the natural form of statin that occurs. These include Chanterelles, Shiitake, Honey mushrooms, Hypsizygus (one of the Japanese Shimeji group of mushrooms) and the common white button mushroom. It is thought that both osteoarthritis and cardiovascular disease may be age-related and that statins may be involved in helping with those diseases. Statins are also known to help prevent non-alcoholic fatty liver disease and the metastasis of cancer cells by inhibiting the activation of blood supplies to the tumour.

Vitamin Production

Another path we share with fungi is the ability to produce both Vitamin D and Melanin when exposed to sunlight. Mushrooms produce high amounts of vitamin D when exposed to sunlight. A study in Japan measured the amount of vitamin D produced by 100 grams of fresh Shiitake exposed to sunlight for an hour. The vitamin D produced was over 100,000 iu. It appears that this process applies to all mushroom fruiting bodies though not all individuals have been measured. The type of Vitamin produced is D2, which seems to be similar to D3, except its active life is shorter. In tests through large cohorts on Covid 19, Vitamin D2 prevented 28% more infections than the control group, though D3 produced slightly lower Covid death rates.

Fungi and Melanin

Mushrooms also produce melanin when exposed to sunlight. Mushrooms appear to tan in the same way we do. You can notice this with young Morels that turn blacker as

they grow and are exposed to more sunlight. Other edible melanised mushrooms are Black Trumpets, Chaga and Auricularia – the wood ears. It is speculated that this is how mushrooms deal with the gamma radiation from the sun. Some research shows mushrooms feed on the process, taking electrons out much as plants do with chloroplasts during photosynthesis. Certain melanised fungi have been found growing around the radioactive waste at Chernobyl, not “in spite of” the radioactivity but because of it. A study is happening at the University of Saskatchewan using these melanised fungi to neutralise radiation exposure. Melanins have long been known to act as free radical scavengers and are potent antioxidants.

Mushrooms are Medicine

For many ancient cultures, mushrooms were not looked at as a food source, but there was no hesitation to expend calories to collect and trade them as valuable medicines. Research is ongoing across the fungal Kingdom as we try to understand why fungi do what they do and make complex chemicals like statins or even psilocybin. Most of these are secondary metabolites, meaning they are not essential for growth but play specific roles in the fungal life cycle and their interactions with all the life around them. If not, then evolution would have likely diminished these functions over the millennia. Deeper dives down infinite warrens into individual mushrooms, and the fungal organisms they spring from reveal more specific chemistry and biological activity. This discussion was to look at the general shared activity across most of the fungal Kingdom, which makes all mushrooms medicinal. 3

BIO Martin Osis is an amateur mycologist who has been entertaining and educating mushroom enthusiasts for decades.

Contact: Martin@MartinOnMushrooms.com

Mushrooms produce high amounts of vitamin D when exposed to sunlight

The Complexity Of Farm To Fork

They’ve never met, but Naty King, Dr Tammara Soma, PhD, and Lori Nikkel are united in their passion for stopping the loss of healthy and nutritious farm fresh food.

Tammara Soma, Director of Simon Fraser University’s (SFU) Food Lab Systems, uses her research skills to understand food loss on farms. Food discarded by restaurants, households, and grocery stores makes headlines. But no one talks about farm food loss, says Soma, lead author of the study, Tilling food under: Barriers and opportunities to address the loss of edible food at the farm-level in British Columbia, Canada [1]

Research by the World Wildlife Fund and UK grocery chain, Tesco, found that global food loss on farms amounted to 1.2 billion tonnes per year, approximately 15.3% of the food produced globally [2] In 2020 [3] , the UN Food and Agriculture Organisation (FAO) estimated the losses to be even higher, at 30%. Soma’s study identified several reasons for this loss.

Marketability

food loss on farms amounted to 1.2 billion tonnes per year, approximately 15.3% of the food produced globally

global

In the United States, Walmart and Whole Foods tried selling produce that didn’t meet the aesthetic standards of size, shape, or colour. It didn’t work; consumers weren’t interested in dented apples [6] In 2019, Canada’s leading food retailers voluntarily tried to offset the problem of food loss and aesthetic value by self-monitoring, measuring, and acting to reduce food loss and waste to 50% by 2025 [7]

Like all businesspeople, farmers want to produce quality products, reduce costs, and maximise profits. They often plant too much to account for crop loss due to weather, shipping issues, and other unforeseen circumstances. The practice also works in favour of the buyer and processor. In Canada, for example, there are no regulations on what a buyer pays a farmer for produce. When an abundance of one crop floods the market, prices fall. Worldwide, the problem is complicated by farms owned by large agri-food corporations, which can further glut the market with produce and controlled market access. According to the Land Inequality Initiative, this directly threatens the livelihoods of an estimated 2.5 billion people involved in smallholder agriculture [4,5] , like farmers and those hired to work on farms.

For many family-run farms, harvesting and transporting food when prices are low is not worth the effort, often costing more than the initial investment of planting the crop. In the long run, Soma says, it’s better to till the crop back into the ground, giving the soil the nutrients it needs for the next planting.

Consumerism

Even if the crop makes it out of the field, its hurdles are far from over. Anything less than a perfectly cylindrical carrot appears inedible to the consumer. So despite being just as healthy as any other carrot, it’s ignored on the shelf.

Soma’s team interviewed farmers who described incidents in which a crop was harvested, packaged, and shipped but still rejected at the grocery store’s shipping bay because it was deemed unpleasing to the eye. A slightly misshapen strawberry can be enough to turn the truck around and leave the farmer on the hook for transportation costs. The farmer must also pay to store the products until they can find a new home for the shipment. All the while, the value of the product is diminishing.

Right To Food

Lori Nikkel, Chief Executive Officer of Second Harvest [8] , Canada’s largest food rescue charity, says that without government-mandated measures or benchmarks, the progress in eliminating food loss will be difficult to quantify.

Soma and Nikkel point to government funding and right-to-food policies to solve farm food loss. The United Nations International Covenant on Economic, Social, and Cultural Rights enshrines the Right to Food in its mandate. As of 2020, 170 countries were signatories. The majority laggards in policy implementation, which emboldens the state to take necessary steps to ensure populations have enough food and secure livelihoods [9]

When right-to-food strategies are implemented, they can work, says Soma. For example, in 1993, Belo Horizonte, Brazil, enshrined the right to food into municipal law [10,11] Food markets were regulated, and farmers could sell products without worrying about over-production or aesthetic crop loss. As a result, the city earned a reputation for ending food insecurity for its population.

Working Together

Headquartered in Toronto, Canada, Second Harvest seeks out the surplus, edible food that businesses can’t use and gets it to the people who need it. They are proving what can happen when government and stakeholders work together to eliminate food loss on the farm.

In 2021, they rescued over 12 million tons of Prince Edward Island potatoes that would have been tilled back into the ground, turned into compost, or gone to the landfill.

When potato wart—a fungus harmless to humans but not great for potatoes, was found on two fields in PEI, the Canadian Food Inspection Agency (CFIA) closed the Canadian-US border to all potato exports for fear the fungus would spread. Farmers were left in the lurch, and potatoes sat rotting in fields.

Nikkel says emergency pandemic subsidies available through the Minister of Agriculture’s Emergency Food Security Fund allowed Second Harvest to secure a grant of $3.9 million. They purchased $2 million worth of potatoes; farmers received a small dividend for the crop, and there was still enough money to transport potatoes to places as far north as Iqaluit in northern Canada [12]

As the pandemic has waned, the programme has ended. Still, Nikkel says that Second Harvest is great at logistics, distribution, and cutting through red tape. However, without any financial incentive for the farmer, it’s sometimes easier and ultimately more economical to recycle crops back into the ground or turn them into feed for livestock or compost.

Back On The Farm

In Surrey, BC, Hazelmere Organics is an exception to the food loss stereotype. As a child, Naty King’s parents told her stories about Second World War food rationing and how every morsel mattered. Over-ripe fruit, for example, wasn’t thrown out; people turned it into jams and jellies. This has become King’s waste-not-want-not philosophy of farming. Selling directly to local restaurants and avoiding the middleman, King has aligned herself with businesses that aren’t hung up on aesthetics as long as the food is edible.

King says it’s about common sense and planning. For example, she freezes or preserves field crops she can’t sell for herself and her extended family. Old-school King has made a name for herself in the farming community as a no-nonsense farmer, setting an example of

how things used to be and how she hopes they can be again. Meanwhile, King’s parents taught her rice was grown to sustain life and was never meant for compost; this is a concept she hopes we all begin to take to heart.

Around the world, enough food is produced to feed everyone—but as many as 828 million people are food insecure [13] Mired in economics and bureaucracy, the reasons and solutions to farm food being lost are complex, says Soma. It took decades for the problem to reach a crisis point, and she wonders if, with the planet facing climate change and war, we have decades to unravel it. 3

Footnotes:

1. Tilling food under: Barriers and opportunities to address the loss of edible food at the farm-level in British Columbia, Canada - ScienceDirect

2. Food Security | Rising Food Insecurity in 2022 (worldbank.org) Global Report on Food Crises 2022 - World | ReliefWeb

3. USDA ERS - Food Loss: Why Food Stays On the Farm or Off the Market

4. 2020_9_land_inequality_paper_food_chains_en_web_spread_Xpr7cyo.pdf (d3USDA ERS - Food Loss: Why Food Stays On the Farm or Off the Market o3cb4w253x5q.cloudfront.net)

5. Corporations are devouring farmland | Canada’s National Observer: News & Analysis

6. ‘Ugly produce’ trend may have limits, as grocers end tests | CTV News

7. NZWC - The Issue

8. Food Rescue Charity In Canada | Second Harvest

9. Right to food - Wikipedia

10. Belo Horizonte’s Food Security Policy - futurepolicy.org

11. Belo Horizonte food | WWF (panda.org)

12. Saving P.E.I.’s Potatoes: A Truly Canadian Food Rescue Story (secondharvest.ca)

13. World Hunger: Key Facts and Statistics 2022 | Action Against Hunger

without any financial incentive for the farmer, it’s sometimes easier and ultimately more economical to recycle crops back into the ground or turn them into feed for livestock or compost.

Naty King, Dr Tammara Soma, PhD, and Lori Nikkel are united in their passion for stopping the loss of healthy and nutritious farm fresh food

For Peat’s Sake!

A Gardener’s Debate

There are two sides to every story. The use of horticultural peat moss as a growing medium is no exception.

Asha Hingorani, President of the Canadian Sphagnum Peat Moss Association (CSPMA) knows that horticultural peat sparks debate and controversy among the quiet ranks gardeners. An association of 18 peat moss producers and marketers, the CSPMA represents 95% of Canada’s production. A proactive campaigner on peat-related environmental issues through collaborations with environmental groups such as Ducks Unlimited [2] , the CSPMA is a leader peatland restoration and sustainability. But is it enough to convince a sceptical home gardener?

The Superpowers Of Peat

You can find peat in marshes, swamps, bogs, and wetlands worldwide. Sphagnum and other mosses are known to grow prolifically, but peat moss forms over time.

Both peat and peat moss were first added to soil as a growing medium in the early 20 th century. Because peat retains water and enhances soil cohesion, it became popular with professional and amateur horticulturists. Today, peat is added to potting mixes, compost, and seed pellets. Even plants bought at garden centres have, in all likelihood, been propagated in peat-amended soils.

Awed by its superpower as a growing medium for decades, gardeners have overlooked peat’s other attributes, like its ability to absorb CO2 The Royal Horticultural Society (RHS) in Britain says that one hectare of undisturbed peat with a depth of 30cm absorbs as much carbon as one hectare of Amazon rainforest trees and other vegetation combined [3]

For the eco-conscious gardener, second thoughts about using the product to grow prize-winning roses are becoming more common. On Vancouver Island, British Columbia, the gardens at the Horticultural Centre of the Pacific (HCP) [4] are a tourist attraction, a place of education, and where environmental stewardship for future generations is promoted. Head gardener Linda Petite doesn’t use peat to amend the soil. Instead, she says they make compost from garden waste, woody materials, and a stockpile of leaf mulch. The final product is equally as effective as peat, adding nutrients to the soil while increasing water retention and microbes to improve soil structure.

Taking Its Sweet Time

Typically, when a plant dies and decomposes, the carbon it has absorbed from the atmosphere is slowly released. But a peatland’s hydrology and high acidity prevent a plant from oxidising and naturally deteriorating. That means its carbon remains sequestered. As a result, dead organic matter accumulates over thousands of years on the ground, compressing layer upon layer onto itself to form peat biomass.

When peat is harvested, the area drained of water, ditches are dug, and site is excavated. This undoes what Nature has taken thousands of years to accomplish. the United Kingdom, 95% of wetlands aged by peat harvesting. The situation ment has banned peat for garden use

The Canadian Way

In Canada, things are different. Although a significant producer and exporter of peat moss (1.3 million metric tons per year) [6] , Kevin Smith, National Manager of Boreal Programmes at Ducks Unlimited, points out that only one-half of 1% of Canada’s wetlands are currently being mined for peat.

As an advocacy and environmental organisation, the mission of Ducks Unlimited is to conserve, restore, and manage wetlands and associated habitats to benefit North America’s waterfowl, wildlife, and people. Therefore, it is logical to assume that the group is advocating for a peat ban similar to the UK, but instead of pitting themselves against the peat industry, Ducks Unlimited is working to share best practices and science.

Smith says part of this reasoning is due to the use of peat and peat moss in agriculture. There’s nothing he knows of at market scale that can replace it. Even the UK ban does not include agricultural use. Without its availability to farmers, he fears a world already experiencing massive food insecurity could face greater challenges. This concern is shared by the CSPMA, who have turned to science for help.

Science, Self-Regulation, And Strict Standards

The Peatland Ecology Research Group (PERG) [7] is a collaboration between Laval University, the Canadian peat moss industry, and the government. Marie-Claire LeBlanc, Programme and Communications Manager for CSPMA, says the work of PERG has made peatland restoration possible.

Sphagnum and other mosses are known to grow prolifically, but peat moss forms over time

Restoration operations

Restored peatland: 2 yrs post-restoration

The process of peatland restoration: restored peatland at Saint-Fabien-sur-Mer, Quebec

Restored peatland: 4 yrs post-restoration

Restored vegetation Kalmia polifolia

Restored peatland: 11 yrs post-restoration

Restored vegetation Moss carpet

The efforts begin with restoring the hydrology of a peat extraction site. Once this is accomplished, sphagnum moss and vegetation from undisturbed wetlands are transplanted. Within five years, 82% of the original shrub growth returns, and the slower-growing moss cover re-establishes. She says within 10-15 years, the annual carbon sequester of a restored peatland is the same as before harvest. But it doesn’t stop there.

Thirty years ago, the CSPMA read the day’s science and quickly realised peat’s superpower in mitigating climate change. Hingorani, president of the CSPMA, says the industry in Canada immediately began self-regulating itself and lobbying the government for strong measures on peat moss extraction.

Nowadays, it can take up to seven years for a company to finally get the green light to open a peat extraction site. In Quebec, companies wishing to operate a new peatland must apply to the provincial Ministry of Environment and Climate Change and, if related to public land, must comply with the Ministry of Energy and Natural Resources requirements. And there’s more, says Hingorani.

The industry has received recognition from environmental groups such as the International Union for Conservation of Nature (IUCN) UK Peatland Programme [8] for its Veriflora Certification in the sector-specific Annex for Responsible Peat Moss Production and Handling. Administered by Scientific Certification Systems (SCS), a global third-party certifier of environmental, sustainable, and agricultural product claims, individual producers and handlers within the industry must meet strict standards of social, environmental, and quality practices [9] Hingorani describes it as the gold standard for the floricultural and horticultural sectors. It is no small feat to achieve.

The Search For Alternatives

But no matter how much we do to restore a peatland or self-regulate peat extraction, once it’s gone, it takes generations for new layers of biomass to form.

The UK-based company, Beadamoss, is experimenting with farmed Sphagnum moss as a peat alternative. Although not the same in consistency or soil cohesion, it’s proving effective mixed with composted bark or wood fibre. After all, says company Director Neal Wright, sphagnum moss is just young peat. Still in its development stages, their patented product BeadaGro will not be

Another valid alternative? In Garden Culture’s Organic and Regenerative Growing issue, Craig Blackburn talks about his sister Lauren’s secret: biochar. Made by burning organic agricultural and forestry waste, it retains water and enhances the soil’s ability to sequester carbon. What she adds to the earth, says Craig, grows lettuce the size of basketballs [11] .

For many gardeners, horticultural peat is a double-edged sword. It is irreplaceable in a growing medium but not in alignment with their environmental consciousness. At the HCP, head gardener Petite doesn’t use peat to amend the soil but says she has no choice for seed propagation; other mixes become too easily waterlogged, and the seeds rot. Meanwhile, Hingorani hopes that the environmental stewardship of the CSPMA and PERG’s research offers a new perspective to peat’s story that is rarely told. 3

Footnotes

1. CSPMA - CSPMA (peatmoss.com)

2. Conserving Canada’s Wetlands | Ducks Unlimited Canada (ducks. ca)

3. Peat-free gardening / RHS Gardening (rhs.org.uk/advice/peat)

4. Horticulture Centre of the Pacific (hcp.ca)

5. Sale of horticultural peat to be banned in move to protect England’s precious peatlands - GOV.UK (www.gov.uk)

6. Ducks Unlimited Canada and the Canadian Sphagnum Peat Moss Association (announce partnership on World Peatlands Day Ducks Unlimited Canada (ducks.ca/news/national/peatlands-day)

7. Faculté des sciences de l’agriculture et de l’alimentation (ulaval.ca)

8. The Canadian horticultural peat industry | IUCN UK Peatland Programme (iucn-uk-peatlandprogramme.org)

9. What is VeriFlora – DVFlora® (bit.ly/3FdJje8)

10. Sphagnum Farming for Peat-Free > BeadaMoss (beadamoss.com)

11. Organic & Regenerative Growing | Garden Culture Magazine (gardenculturemagazine.com/issue/usa-canada-issue-46)

Additional Resources

• Peat Use in Horticulture | IntechOpen (bit.ly/3FL4khR)

• Is there a good alternative to peated compost? - BBC Future (bbc. in/3W6hlIF)

BIO Jennifer Cole is a writer and garden enthusiast with a bachelor’s degree focused on history from Simon Fraser University, and a freelance writing career spanning two and half decades, Jennifer lives in Vancouver British Columbia. Her by-lines have regularly appeared in the opinion section of the Toronto Star and her portfolio includes articles in various newspapers, magazines, and websites across Canada. When not writing her own blog or visiting local garden centres, you can find her puttering, planting, and nourishing her own urban garden oasis.

Awed by its superpower as a growing medium for decades, gardeners have overlooked peat’s other attributes, like its ability to absorb CO

The work of the Burns Bog Conservation Society depends on education and the affinity residents of its bordering communities have towards the Lungs of the Lower Mainland. Jennifer Cole shares the story of a grassroots movement sparked by spirits.

It was 1988, and a deep-sea port was proposed for Burns Bog. It wasn’t the first time the 8,000 acres of urban wetland, affectionately referred to as “the bog” by locals, had been threatened, but as far as some were concerned, it would be the last. So a grassroots group of concerned citizens banded together to form the Burns Bog Conservation Society [1] Their mission is to engage the community and other stakeholders in the protection and enhancement of Burns Bog through education, stewardship, research, and advocacy.

A History Of Troubles

Burns Bog is the largest raised peat bog and undeveloped land mass on the west coast of the Americas. Located in the Metro Vancouver Municipality of Delta, British Columbia, it straddles the Fraser River to the north and the southern Salish Sea [2] Home to salmon spawning streams and over 300 insects, fauna, migrating birds, and animals (many listed as endangered) for thousands of years, the wetland lived a quiet life. The sphagnum mosses and peat-sequestering carbon have long provided food and served as a hunting ground for the region’s Indigenous population.

This changed in the early 1900s when Dominic and Patrick Burns bought the Great Delta Bog. The dream of a ranch faded as livestock continuously got stuck in the peat or would eat the poisonous plants of the bog and die. The Burns’ sold the land, but the family name stuck.

During the mid-part of the 20 th century, nearly 70% of the wetland was impacted by peat mining. Although harvesting had stopped by the 1980s, the bog’s woes continued; highways were built along its eastern fringes, a landfill was established on the southwestern corner, and industrial parks sprang up along its northern edges. Each development changed the bog’s appearance, shrank its size, and affected the ecosystem.

Becoming The People’s Bog

It has been said that if a consumer hears the same marketing message nine times, it’ll finally stick the tenth time. Since its conception, the Burns Bog Conservation Society has promoted the area’s unique ecosystem, and why as a carbon sink, it’s often called the Lungs of the Lower Mainland. In 1999, it was suggested the wetland be filled in to accommodate a new home for the Pacific National Exhibition.

The penny dropped, and the community of Delta responded by writing letters to politicians, signing petitions, and aligning themselves squarely on the side of Burns Bog. As a columnist writing for the local community paper, I wrote about the uniqueness of the bog. I asked the cultural coordinator of the North Delta Arts Council, Lana Hart, why the bog mattered so much to the community.

Burns Bog is part of the feeling of Delta and its folklore, she said. Every day we see the bog’s animals, trees, and creatures, and locals have all appreciated the beauty of a sunset over

the marshland from their patios and backyards. In 1996, we all heard the water bombers and collectively held our breath as a fire descended upon the bog. Filling in Burns Bog would be the equivalent of filling in Niagara Falls. It just isn’t the right thing to do.

The Turning Point For The Bog

The public outcry and advocacy of the Burns Bog Conservation Society provoked the Provincial Ministry of the Environment to initiate an ecosystem review. It confirmed that Burns Bog is globally unique based on its chemistry, form, flora, and size [3]

In 2004, four levels of government purchased over 5,000 acres of Burns Bog, and in 2007, the land was placed under an ecological covenant. Today, no one is allowed into the protected area without a permit from Metro Vancouver Parks, which manages it and the publicly accessible Delta Nature Reserve on the eastern edge of the bog.

Evelyn Wedley, the society’s General Manager, believes the bog’s legacy and continuing need for preservation is best served through educating younger generations on its importance as an ecological sanctuary. During the summer, the society operates day camps in the Nature Reserve for children K-12, facilitating up-close and personal experiences with the bog’s ecosystem. During the winter months, in-class presentations are offered.

Future Threats

Things quietened down after the covenant came into effect, Wedley says, and for many, the bog sank back into obscurity. But the society’s days of advocacy are not over, as some 3,000 acres of wetland remain unprotected; two industrial developments are proposed for the outlying regions, including a massive Liquid Natural Gas (LNG) plant.

Indigenous folklore speaks about the spirits of the bog, who change people the closer they get to the centre of the peatland. Once upon a time, those spirits spurred a community to protect sacred land. I have no doubt they will again if needed. 3

Footnotes:

Society – Official Website for Burns Bog Conservation Society (burnsbog.org)

Burns Bog - Wikipedia

Microsoft Word - Final Report.doc (burnsbog.org)

Burns Bog is the largest raised peat bog and undeveloped land mass on the west coast of the Americas

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Cannabis

Cultivating with Jiu-Jitsu

Cultivating with Jiu-Jitsu

Cannabis

Following his retirement from professional sport, Steve has turned his laser-focus and obsessive work ethic towards cultivating some of the finest cannabis in the world

After driving through the desert, we arrive in Pahrump and are greeted by a firm handshake. With an imposing physique, Steve Cantwell opens the door, smiling to see our team. Although built like a warrior, Steve is a kind and gentle soul. Steve laboured diligently to achieve infamy in his successful professional fighting career with WEC championships and a formidable UFC record as ‘The Robot.’

The Next Chapter

Following his retirement from professional sport, Steve has turned his laser-focus and obsessive work ethic towards cultivating some of the finest cannabis in the world. Operating from a remote desert location in Nevada, Green Life Productions is a unique approach to agriculture and sustainable cannabis production.

The Las Vegas Strip’s bright lights and bustling commotion are a sensory overload of greed, gluttony, and corporatised adult entertainment. Smoking, gambling, and fetishized fantasies are antagonistically advertised from all angles. An hour’s drive from this chaos finds our team speeding through barren landscapes of spectacular desert and breathtaking rock formations. Driving past rugged sceneries dotted with succulents and cacti, small groups play on ATVs, dirt bikes, and mountain bikes, adventuring into the wilderness.

We arrive at the address and are buzzed through the razor-wire fencing and a daunting electrified gate. We pull into a carpark at the back of an unassuming warehouse with no external signage. The door swings open, and we are greeted by a particularly large human wearing surgical scrubs. Steve ushers us in with his welcoming smile, a warm handshake, and light-hearted banter.

Drawing From Experience And Nature

Steve has been cultivating cannabis professionally for over ten years and draws unique insights from his fighting career, martial arts mindset, and meticulous attention to detail. As a result, his approach differs significantly from every farm and facility I have ever visited.

Green Life Productions uses an innovative growing style that models natural ecosystems—using ethics and principles of permaculture while remaining highly consistent, compliant, productive, and hygienic. Steve embraces the soil food web as their cornerstone of cultivation, describing his greatest teacher as Mother Nature, looking to natural systems for unwritten yet crucial lessons for this facility.

Top Notch Sanitary Measures

We pass through the processing, drying, and packaging zones – all kept impeccably sterile and with a distinct feel of a hospital. Stainless steel benches are clean enough for surgery, with dry goods and consumables neatly stored in perfect order.

After a strict hygiene protocol of PPE, handwashing, and sanitation using essential oils (smelling like a delicious perfume), we can enter the cultivation zones. I’ve never been sprayed with essential oils by a 6’2” UFC fighter, but it was one of the nicest sanitation practices I’ve endured.

The Tour Begins

In the first cultivation zone, we are greeted by beautiful benches of vegetative plants in ‘bottomless pots’ under LED lights, a juvenile baobab tree, and a unique pinnate-palmate, fernlike cannabis plant (the freakshow) thriving alongside one another. This is already something entirely different and extraordinary.

Fitting to his fighting name of ‘The Robot’ – Steve runs an incredibly tight regime. The area is kept militantly clean yet abundant with life strategically contained in pots and raised soil beds. Airflow is simple yet effective with EC fans and dust filters strategically mounted to circulate air around the canopy.

Steve doesn’t have specific vegetative or mother plant rooms. Instead, he uses unique cycling of plants and vegetative growth strategies for clonal reproduction, maintaining an incredibly lean operation with a reduced footprint yet the rapid commercial output of top-shelf quality.

After reviewing his simple fertigation room, we are ushered into the flowering rooms in a specific access order (to reduce contamination). A flawless, laser-level canopy of impeccable high potency cannabis flowers greets us. Alongside the flowers are pots with marigolds and aloe, auxiliary weapons in his organic inventory.

Cannabis And Jiu Jitsu

So how does Jiu Jitsu help Steve to cultivate these world-leading flowers?

In Jiu-jitsu, you can use your opponent’s strength against them. If your opponent pushes, you pull. You move with the flow rather than fighting head-on. You anticipate your opponent’s moves. When you start to anticipate, you know the probability of what your opponent will do, allowing you to make better decisions.

Now to see Steve apply this to a living system was truly spectacular. Utilising a polyculture of cover crops, including dichondra, mint, and marigold to harness light, trap pests, and stimulate microbes. He embraces the use of fire (actual flamethrowers!), rotates plants, microbes, plant exudates, and transfers energy around the facility in the most natural course. He moves with the flow rather than fights it. Where some growers would find problems, Steve can convert them into solutions.

His goal is to make soil that will outlive him on this planet

One lesson that Steve mentioned is the importance of dry-back in substrates, replicating natural cycles and seasons to encourage a variety of microbes that can thrive within the soil beds—continually moving away from monoculture yet maintaining consistency in output.

Soil Life

Steve has developed a complex soil formula to achieve this efficient energy transfer but once established requires minimal amendments. His decisions are based on quarterly soil analysis and analytics regimes. A profound understanding of his crops’ influence on soil microbiology, and vice versa, allows long-term planning and precision forecasting of yields and deliberated crop cycles.

As we discussed this incredible efficiency of Green Life Productions’ soil strategies, it became evident that Steve was ambitiously sustainable. His goal is to make soil that will outlive him on this planet. With over 30+ complete cycles in this particular batch of superb soil, this ingenuity demonstrates the potential of embracing nature for production agriculture without unnecessary reliance on consumables.

Crucial Lessons

Everything can serve a purpose if you understand the strengths and weaknesses of each organism. Biological intelligence is shared within this system, and Steve treats his soil beds as an evolving and growing ecosystem, drawing crucial lessons from nature to improve his performance and the overall vigour and quantified yield results of Green Life Production premium crops. Alongside industry leaders, published courses, and industry peers, Steve learns from microbes, fungi, and the soil food web as important teachers of GLP agriculture.

One lesson that Steve mentioned is the importance of dry-back in substrates, replicating natural cycles and seasons to encourage a variety of microbes that can thrive within the soil beds—continually moving away from monoculture yet maintaining consistency in output.

Atmospheric water is captured from dehumidifiers, filtered, and carefully hand-watered into the system using metered wands, keeping sustainability at the forefront. Using a targeted dry-back and drought stress strategically promotes healthy microbial diversity, stimulates natural plant defense mechanisms, and translates into higher quality and quantity of yields and potency.

Mulching

We can learn many lessons from Steve and his skilled team at Green Life Productions. This facility draws inspiration from Mother Nature and provides incredible insights into the future of agriculture, reducing our reliance on consumables and drastically reducing our waste output. Working synergistically with microbes and environmental pressure to produce genuinely exceptional cannabis.

Rewarding Work

In the same breath – this isn’t easy. This level of diligence, requiring a regimented understanding of hundreds of stimuli working synergistically and antagonistically and within a lawful regulated environment, is a true challenge.

It’s a testament to the work ethic of Steve Cantwell and his martial arts mentality. His ability to learn and implement practices, alongside a continual search for excellence, has seen Green Life Productions achieve recognition as one of the best facilities worldwide.

Steve was just acknowledged on the “Cannabis Now 40 under 40” list of successful entrepreneurs in the cannabis world. A tribute to his unwavering commitment to progressive cultivation and sustainable cannabis agronomy and the incredible quality of his flowers.

I hope that some of these lessons can flow into broader agriculture and influence our understanding of high-intensity crop production, moving away from our reliance on unsustainable inputs and high-volume waste output.

So in the words of the great man himself: Are you willing to put in the work and put science to the test? Are you willing to have faith in Mother Nature? 3

BIO Founder of Indicated Technology Pty Ltd, Tom is a certified horticulturalist and paid consultant working in the Australian medical cannabis industry. After finishing studies in production horticulture (hydroponics) and plant biology; Tom has spent the past 6 years working in the protected cropping space. Tom is passionate about sustainable yet economic cultivation methodologies and also teaches cannabis cultivation as part of university and private education programs. Tom is also the Communications Manager for Stealth Garden wholesale supplies.

Alongside industry leaders, published courses, and industry peers, Steve learns from microbes, fungi, and the soil food web as important teachers

Locals vs. Laboratories

Which Microbes Reign Supreme?

As good as laboratory-selected microbes are, they can’t hold a candle to the sheer volume and diversity of what exists in nature

There is an ongoing debate about what kind of microbe is best. On the one hand, there are laboratory-grown and selected types, specifically chosen and isolated, with the guise of performing particular sets of tasks. On the other hand, you have “wild caught” microbes, which exist naturally as integral parts of different productive ecosystems and perform many jobs.

So is one better than the other? Does the presence of one negate the other? Let’s find out.

Lab-Grown Microbes

When trying to accomplish a particular job, the benefit of many lab-cultured organisms is that they have been chosen and selected for specific purposes. Therefore, whether it be enzyme production, nutrient mobility, or even biocide activity, knowing precisely what the particular microbe is, its history, what it does, and how it performs over a given range of conditions is beneficial information.

You may be looking for a microbe to break down dead roots in your soil; you can select a particular microbe strain known to break down the cellulose in the media. Or perhaps you have a large amount of tied-up phosphorous in your soil that you want to unlock. Selecting a microbe known for its ability to mine phosphorous can allow you to plug that data into a fertiliser calculator to make adjustments.

Locally Adapted Microbes

As good as laboratory-selected microbes are, they can’t hold a candle to the sheer volume and diversity of what exists in nature. These tough and resilient microorganisms have been naturally selected over millions of years to be suited to their specific skill sets. Because they have lived in a “survival of the fittest” scenario, it’s in their resilience that these microbes shine. Their toughness allows them to survive in places where a lab-grown microbe might well give up the ghost.

Why Can’t We Be Friends?

Are various microbe sources at odds with one another? Or can we use both lab-made and natural in our quest for the most productive soils possible?

While some organisms in lab settings have shown to be very aggressive, they often lack competition. When you drop them into the natural environment outside the Petri dish, they come up against an already-established and robust microbial network. In the lab, they might have been strong; however, their ability to overgrow natural colonies will be restricted. Consider one person trying to take on a

room full of people; unless this is some Chuck Norris microbe, the overwhelming mass will win based on sheer numbers alone.

Despite the above, cultured organisms are useful! We can synergize by using these more selected types in conjunction with an established microbial network.

Symbiotic Relationships

For example, while growing in productive soil, plants might show signs of a potassium deficiency. Adding a potassium-solubilising bacterial strain will produce an immediate effect. Even if these microbes die off slowly, potassium has still been released. When the lab microbes have performed their duty and die, they become food for the established food web; in nature, nothing is wasted.

By the same token, if you are dealing with fresh soil that has never been used to grow anything, you can undoubtedly add a store-bought microbe selection to enrich it. However, taking a leaf out of the Korean Natural Farming book and collecting indigenous microorganisms from the local environment will strengthen the soil with area-specific microbes tolerant to your particular location. This KNF technique adds millions of years of biology to your fresh mix that you can use to build on.

Like anything in nature, better results are achieved through symbiotic relationships. While sometimes things may seem at odds, everything finds its place. 3

whether it be enzyme production, nutrient mobility, or even biocide activity, knowing precisely what the particular microbe is, its history, what it does, and how it performs over a given range of conditions is beneficial information

Peat Moss versus Coco Coir

Whether you are cuckoo for coco or partial to peat, both growing media have demonstrated their suitability in growing for decades. Both growing media remain popular despite significant public attention regarding their sustainability. Arguably, both media command a large ecological footprint. If managed and manufactured responsibly (adhering to harvesting restrictions, composting or recycling spent media, better worker safety, reduced transportation, etc.), peat and coco are significantly better environmental choices than the most common grow medium with growers -- stone wool (Rockwool), which is rarely repurposed or recycled.

Desirable Properties

Irrespective of the sustainability of these hydroponic growing systems, some integral properties are requisites for growing healthy and high-yielding crops. Quality plants need a high porosity substrate, and many roots prefer a well-aerated environment to allow for increased lateral growth. The ample pore space engineered within the media is critical in reducing the likelihood of root pathogens like Pythium spp. and Fusarium spp. taking hold. The physics of soilless mixes cannot be underestimated because, unlike natural soils with sufficient microbial populations to help engineer soil structure, soilless mixes rely on the proportion or size of materials added to provide structure. Soilless mixes should not be prone to oversaturation. Still, they should be able to maintain a moderate water content between irrigations. This is one of the most vital factors used by growers when crop steering plants from vegetative to generative growth. Beyond the physical components of a high-quality soilless mix, being chemically balanced and the media’s ability to hold and release nutrients over a short time are other factors to consider.

Not The Same

Most growers have equal success using preformed-stabilised plugs for cuttings (i.e., “clones”) establishment or seed germination, whether peat or coco-based. Depending on your cultivation strategy (e.g., “Sea of Green” - high plant density, reduced vegetative periods versus longer vegetative periods, and taller plants with a lower plant density), growers will plant rooted clones directly into their final pot size or choose an intermediate container until a final pot-up. It is essential to recognise that the air and water-holding capacities of a growing media are impacted by the geometry of the container (depth and width), with air-filled porosity increasing with container height. For growers, this correlates with the amount of water readily available to the plant, and perhaps more important to note that the amount of water that we can add without leaching decreases with container height. In some cases, growers will overwater their containers, creating a saturated bottom half of the container and an underwatered top horizon, mainly when basing their watering frequency on the legacy practice of lifting pots. Growers who switch between coco and peat-based soils or different container sizes can often find themselves in flux between over and underwatering because of the assumption that these two growing media behave the same.

Cuckoo For Coco Coir

Horticultural growers have rapidly accepted coco coirbased growing media. Initially presented as an alternative to peat moss, cultivating using coco coir is not a simple substitution for replacing one growing media

with another. Don’t think coco is simply a different form of peat -your cultivation practices will differ to ensure optimal plant health and yields. The most common forms of coco substrates include loose coco coir; coir mixed with perlite; expandable coir blocks that are pressed and contain coir pith, the husk fibre, and husk chips; and preformed coir blocks, slabs, and grow bags. Coir’s popularity and primary divergence from peat is in its water-loving (hydrophilic) property, which is in direct contrast to the hydrophobic nature of peat. Coco usually does not require a wetting agent, naturally allowing for water tension to be reduced and spread evenly throughout the media. The ability of coco coir to not only readily absorb water but to re-saturate, similar to stone wool, allows for the employment of crop steering irrigation techniques, like frequent irrigations and dry-back. As a result, growers comfortable with a cultivation strategy that permits frequent waterings can reduce their substrate size, thereby allowing them to potentially reduce their costs of production.

Know What You’re Working With

Despite these beneficial attributes, experienced growers transitioning to coco from other media often have disastrous results. Equating coco as a direct substitute for peat or stone wool can lead to nutrient deficiencies or watering issues. Not all coco is created equal. Coco products vary greatly, ranging from fine dust to large chunks. Some of this variability is specific to brands. You must remain consistent with your coco brand choice until you have done sufficient R&D to determine if an alternative brand will work. But variability, unfortunately, happens within a brand with specific batches containing finer particles, creating increased water retention and poor aeration of the root zone. Moreover, certain batches can have higher levels of sodium (Na), potassium (K), chloride (Cl), heavy metals, and even pathogens.

Quality plants need a high porosity substrate, and many roots prefer a well-aerated environment to allow for increased lateral growth

Don’t think coco is simply a different form of peat -- your cultivation practices will differ to ensure optimal plant health and yields

• BPF (ePar) - 1950 µmol/s

• PPF - 1870 µmol/s

• Efficacy - 2.6 µmol/J

• Sosen ‘low inrush’ Driver

• CRI 90 - Full Spectrum Array

• Adjust to 40%, 60% or 80%

• Timer, Sunrise/Sunset, Auto dimm

• Operates up to 80 Fixtures

I n c r e a s e d B l u e

Deep blue targets peak chlorophyll & photosynthesis production for boosted vegetative growth & plant vigour.

I n c r e a s e d R e d & Fa r - r e d

Higher Red and Far-red output for increased production in flowering plants. The right amount of Far-red light engages Emerson Effect, encourages early node staging and more flower sites.

I n c r e a s e d R e d , Fa r - r e d + U V

UV & Red & Far-red offers maximum BPF (ePar). This encourages lateral branching, less stretching, enhanced flower size and improves essential oils, taste and aroma.

added Far-red, UVA and UVB Diodes

Coco coir containing high levels of these salts can cause visible nutrient disorders or slower growth and development. As such, many coir manufacturers will wash and/or buffer or charge their coco by either using water to leach out some of the excess salts or calcium (Ca) and magnesium (Mg) to bump off the Na and K.

What About Peat?

Where coco, if the right proportion of fine and coarse fibres are mixed, can be used as a sole ingredient, peat moss cannot. Peat-based growing media will typically incorporate coarse bog materials to accompany the many species of Sphagnum moss in the bog. These chunkier materials, often along with bark mulch, “green” wood fibres, compost, perlite, and/or vermiculite, help peat-based substrates from compaction or shrinkage.

Compared to stone wool and coco coir, peat moss has a high buffering capacity for water, pH and nutrients, and unlike coco coir, peat is acidic, hydrophobic and low in nutrients. As such, most peat-based substrate manufacturers will use a liming agent (e.g., calcitic or dolomitic limestone), a synthetic wetting agent (to help water become wetter), and a slight nutrient charge. For novice growers, using a high-porosity peat-based substrate can be more forgiving in terms of messing up the nutrient balance and pH around the root zone.

A Personal Choice

Far from a “SmackDown”, as both peat moss and coco coir have their merits and drawbacks; much of the decision to choose one over the other will be based on individual preferences and philosophical values. We must recognise that coco and peat are substitutes but not interchangeable. Growers must tweak their cultivation strategy to get the most out of their substrate. 3

Growers must tweak their cultivation strategy to get the most out of their substrate

BIO Av Singh, PhD, PAg is an advocate of regenerative organic agriculture serving various organizations including Regeneration Canada, Navdanya, and the Canadian Organic Growers.

If you are new to growing and need help determining whether a product is a supplement or a fertiliser, check out the NPK ratio

Community Garden

Community gardens are abundant. From established, prolific projects engaging hundreds of people each week to small plots of land nestled between houses where locals gather for a cup of tea and a chat amongst vegetable beds, they’re everywhere. There are estimated to be well over one thousand in the U.K. alone. I suspect the number is much higher, having come across many hidden gems dotted around the communities of Northwest England. These spaces provide much-needed opportunities for people of all backgrounds to engage with others – often those they’d not usually cross paths with – in a safe, green environment. Connecting with nature and companionship come first; the gardening side of it can almost be secondary.

Enabling People to Thrive

Often, simply being in a community garden makes one feel better. There is joy to be found in watching seeds grow into edible plants. Observing insects and birds at work is exciting and moodboosting at the same time, and playing a part in nurturing and maintaining these environments enables people to thrive. Together, they become socially responsible and active members of their communities.

Connecting with nature

companionship

mean the floor might need a sweep. I top up the soap and paper towels in the connecting toilet and head out into the garden. There is always much to be done in a large garden with several wooden outbuildings in various stages of (dis)repair, two big battered polytunnels, an apiary and a wood yard. Plus, a dozen raised beds and endless borders. We never get to the bottom of any job list. And that is what you want in a space where people come to help –opportunities to get their hands dirty and make a difference.

All Welcome

The range of individuals and groups visiting, volunteering, and participating in the acre Community Garden I manage in East Lancashire has diversified enormously since the pandemic. More sectors of society now realise the benefits of spending time outside and seeing a friendly face once or twice a week. Many people have gardens at home, but these are private spaces. A community garden is for a different group to share and enjoy together.

What Makes A Community Garden?

In an ideal setting, a community garden incorporates growing beds for edibles, perennial flower beds for pollinators, a shelter or structure with a heating source (a wood burner inside or a fire pit outside under cover), somewhere for children to play, and quiet corners for those after peace and meditation. Of course, a spot to make a brew and share tales, troubles, ideas, and laughter is also essential.

We have the wonderful addition of a Walter Segal cabin at the heart of our garden. A simple, wooden, self-built eco-building that is low maintenance and much loved. Designed by the Berlin architect of the same name, these modular timber-framed structures are easy to put up and were designed for more people to self-build and reduce waste.

A Day in The Life

Before the volunteers or groups arrive each morning, I head to the cabin to light the fire in the colder months or open the doors and windows in the summer. I ensure there is tea, coffee, sugar, clean cups, milk in the fridge and biscuits in the tin. Muddy boots

A job list for the week is put together, and we prioritise what needs to be done each day. All this may fall by the wayside when the people arrive or if the weather takes a turn (a frequent occurrence in NW England). As our workforce is mainly voluntary and many gardeners have learning disabilities or additional needs, we must be flexible and go with the flow. I always ask people what they feel like doing on that particular day, which can vary hugely depending on their breakfast, what they’re wearing, and on what side of the bed they woke! That’s the joy of it. We share laughs and a vision of looking after the garden and each other.

and

come first; the gardening side of it can almost be secondary

It’s All About The People

A diverse group visits our garden daily, from babies, toddlers and their childminders to octogenarians. Teenagers from local high schools come to spend some welcome time away from the confines of a classroom. Young people on work placements and students from colleges and universities on new, exciting career paths also visit, along with retired people in their 60s and 70s who never want to get old.

After an hour or so, someone will notice the time and go indoors to put the kettle on, letting the others know it’s brew o’clock. We’ll gather in the cabin or outside in the small grassed area to chat and enjoy each other’s company. Sometimes, these breaks turn into half-hour sessions, which is all part of it. People come for companionship, not just to tick jobs off a list. I always find people are even more productive after a lovely long break, and there is a lightness in the air.

Some folk will bring a bite for lunch and stay on well into the afternoon. Others leave after their designated time is up – it’s easygoing. Many autistic participants are rigid about their timings and don’t like altered routines. Some of our older men who have a hard time with anxiety and depression come at quieter times and absorb themselves in singular tasks and the sounds of nature. Everyone has their reason for coming, and we understand no matter what.

By 4 pm, the garden has emptied, the tools go away, and I do the rounds to make sure paths are clear, cups are washed, and doors are locked. I reflect on the day and feel grateful for the willing helpers and wonderful eclectic groups who come through our gates. Each day is different; our community is wide-ranging, and everyone benefits from nothing being the same. And the garden is left looking cared for and ready for whatever the next day may bring.

Prepping beds

BIO Emma Carter developed a passion for nature and plants as a child thanks to having a keen vegetable grower as a Dad and the encouragement to run wild in rural England. As an adult, Emma enrolled in an Introduction to Permaculture course and qualified as a Forest School leader. She finally acquired her own allotment in 2015, eager to grow and learn about environmental sustainability while reaping the endless physical and mental health benefits gardening offers. After a year of working at the Incredible Aquagarden in Calderdale, she now manages an acre permaculture community garden in Lancashire. Emma is happiest with her hands in the soil surrounded by birdsong, with a pencil and pad to scribble down ideas and observations of the world around.

More sectors of society now realise the benefits of spending time outside and seeing a friendly face once or twice a week

Airflow

And Its Importance In All Grow Rooms

If you struggle to understand perfect airflow in your room, you are not alone. I have designed 100+ grows, extraction facilities, and GMP spaces, and airflow is typically one of the most crucial factors in all applications. I always have to consider each room and each application to determine the best options. There are many different ways to get ideal airflow. However, much of that can depend on your application and what you are trying to accomplish. As with many aspects of indoor growing, there are many ways to resolve airflow. We will start with the ideal scenario, which, unfortunately, is also generally the most expensive solution. Then, we can discuss other options and logic for solving the problem more efficiently.

Why Is Airflow Important?

Before finding ways to solve or distribute the air, we should consider why we are trying to be so specific with airflow and its effects on your rooms and plants. As with all grow rooms, airflow helps dictate the microclimates in each space. Microclimates form due to specific elements, such as moisture, cooling, dehumidification, and light sources. For a microclimate to occur in a room with good airflow, you must have something causing the issue. Proper airflow ensures that all plants see the same climate conditions and can transpire at the same rate for optimum plant growth. Spaces in the room that are too hot, too cold, too humid, or too windy will cause plants to grow unequally and affect plant health. Ideally, a grow will have evenly distributed air so all plants have the same opportunity to grow uniformly.

The Perfect Situation

The perfect grow room airflow comes from the designs used in the GMP pharmaceutical world. These designs have been used for many years to create a uniform, clean room. With Stratus Designs, we have taken a twist (pun intended) to this approach, removed the typical laminar diffusers, and switched them to radial twist diffusers. The air in these applications is distributed overhead in the primary air handler. The overhead distribution for indoor growing works well, as the main sources of heat gain to the rooms are the lights. To cool space, you need to deliver air colder than you are trying to achieve. If you want 80°F in an area, you may have to deliver at 65-70°F to maintain those conditions.

The beautiful thing about overhead air distribution is we can get the heat from the lights out at the source and not have it radiate down onto the plants as much. We can also ensure we don’t have freezing air directed right onto the plants. With the radial twist diffuser, we mix the air at the source and add turbulence above the light fixtures to help break the microclimate barrier that forms. The twist diffuser successfully blends the air and cre-

ates a better growing environment. In this perfect situation, we do a low-level return (how the air gets back to the air handler), resulting in a uniform room. Bottom returns are ideal, as all the clean air comes from the top and “pushes” all the dirty air down to the low returns. The air is then sucked up and returned to the air handler for filtration, treatment, and redelivery. With bottom returns, it is essential to do about 10 feet of stainless steel duct so that when washing the floor, you don’t risk splashing water in and rusting the bottom of the duct out. With a top supply and bottom return, you will get a beautiful room with very uniform plants. While this is typically a very high-end design, I suspect some clever home growers will be able to modify their rooms and accomplish this simpler than full, in-wall return grills.

The Price Is Right

In designing these spaces, I’m constantly asked for a more cost-effective solution to ducting distribution. From my experience, there is no substitute for bottom returns. However, we have had success with another distribution type and fans. This type of distribution is also with radial twist diffusers. However, rather than many low returns grills, we use one large return low near the back of the room or closest to the air handler. This idea saves money and room space, as walls don’t need to be 12-18” thick to install ductwork. The issue with the single return is the front of the room often doesn’t quite get the airflow we want. In these applications, the client needs to install in-room fans to add supplemental movement in the spaces. I typically recommend fixed-direction fans with speed control. Renegade makes good low-cost EC (electronic current modulation) fans that are speed-controlled and energy efficient. In these types of installs, I recommend that clients take the air and blow it to the front of the room, away from the return grill. The reason for this is the return should be the lowest pressure point in the room, which means the air tends

to want to go to that side. By blowing the air to the front of your room, we can create extra movement, helping minimise microclimates. The only thing the same about all rooms is they are all different, so don’t be afraid to experiment and see how your plants behave.

I should note that in all applications, I don’t like to return air from the ceiling, as it doesn’t allow proper air circulation and can often lead to short air cycling. I have done this before, and it can work, but it is not ideal.

Other Types Of Grows

The two options above are my typical design for air han dler-based grows. However, what about grows with mini-split AC/Heat pumps? This type of design gets more complicated in determining the best distribution; you have little to no flexibility regarding where your supply and returns in a room go. Your only option is the indoor unit head placement and height. I always mount my mini-splits at the light height or higher. I do this as the cold air from my mini-split will fall, and I want to pick up the hot air at its source. Unfortunately, the return on the mini-split is now up high, and mixing becomes an issue again. With my mini-split projects, I try to space them evenly throughout the room and avoid microclimates by strategically placing fans. I find

my handheld psychrometer (which measures temperature and humidity) to ensure my rooms are uniform. Again, I use EC fans and modulate fan speed to get the perfect plant movement.

Airflow is vital to plant health. Plants need wind to grow strong and to help mix the air in a space. Without proper airflow, you will have a hard time growing great plants. Your ladies want to dance a little

As with all grow rooms, airflow helps dictate the microclimates in each space

Ideally, a grow will have evenly distributed air so all plants have the same opportunity to grow uniformly

WAYS To Grow Mushrooms At Home

After flipping through the pages of this edition, how could you not be completely obsessed with mushrooms and all of the incredible benefits they offer? You’re probably thinking it’s time to start cultivating them at home! Hobby gardeners can grow anything from shitake, oyster, and wine cap mushrooms to reishi, nameko, agaricus, and more.

We’d love to join you on this journey; first, you need the right substrate. Get started with our 5 Cool Ways To Grow Mushrooms At Home.

Logs

Gardeners living on a wooded lot will likely find logs the most accessible substrate. Walking through a forest, you’ll find mushrooms growing at the base of trees and on their bark just about everywhere. Unfortunately, it’s not as simple as finding a fallen tree and getting mushrooms to sprout! It’s essential to match the type of mushroom you want to grow with the tree variety it likes. Shitake mushrooms, for example, love oak, maple, birch, and cherry trees. Harvest the tree when it’s dormant, between the fall and the spring. Cut the logs into 40” lengths and store them in a shaded, moist area under a tarp for about two weeks. Be sure to innoculate them within two months of harvest so other fungi don’t take over. There are plenty of available resources on log inoculation, but it involves drilling holes, filling them with mushroom spawn, and sealing them closed with wax.

Straw 2

Got a hankering for oyster or wine cap mushrooms? Well, they’ve got a craving for straw. Like strawbale gardening, be careful when selecting your source for mushroom growing. Weed-free straw from oats or wheat will create a happy environment, while barley and rye straw contains antifungal properties, so avoid those. Shredding the straw offers the best results! Next, you can soak the straw for three to five days or use cold or hot pasteurisation to kill off any undesirable seeds left in the substrate. Let it drain for about 24 hours, and place the straw on the ground or in a container to prepare it for inoculation.

Sawdust and Woodchips 3

Sawdust and woodchips are good for more than mulching the garden! These materials make an excellent substrate for growing mushrooms, especially wine caps and oysters, which grow naturally on something similar in the wild. Sawdust is affordable and can easily be found at home if you’re renovating. If you’ve recently cut some trees or have a local sawmill close by, wood chips should be easy enough to come by, but make sure they’re free of chemicals. The type of dust or chips you also choose matters. Cedar, for example, contains antifungal properties, so don’t go that route. After you’ve found your source, you need to soak, drain, inoculate, and place it in a clean container. You’ll be enjoying delicious mushrooms before long!

Compost 4

Composting kitchen scraps and yard waste is an easy way to take care of the planet and our gardens. Did you know you can speed up the composting process by growing mushrooms in a heap? Blewits, in particular, will help break down organic matter quicker, turning it into beautiful black gold for your garden. This mushroom also loves to grow on leaf litter; you’ll find them growing all over this substrate naturally in the forest. Start a blewit bed in the midsummer; find a shady spot and rake any debris to expose the soil surface. Water the ground well and cover it with about two inches of leaf litter from the previous fall. Add a bag of blewit spawn to the substrate and mix it well to break up all the chunks. Next, cover the spawn with more leaves; another two-inch layer will do. Mix these layers, water the area again, and cover the garden with a weighted plastic sheet. Leave the sheet in place for two months, but lift it once a week to water. You’ll have delicious mushrooms to feast upon in late autumnl!

Mushroom Kits 5

If all of the above seems a little too complicated, or you don’t have access to the space or materials, you can still grow mushrooms at home. Ready-to-use mushroom kits allow you to grow gourmet fungi on your kitchen counter! You can find the kits at nurseries, greenhouses, and online from various sources. They all come with growing instructions, but generally, it involves misting a block live with mycelium daily for about two weeks. Unlike fresh herbs, you don’t need a sunny windowsill; you must place mushrooms out of direct sunlight. Expect anywhere from two to four harvests per kit. Bon appetit! 3

For more awesome mushroom-growing tips, we love Mushroom Cultivation: An Illustrated Guide to Growing Your Own Mushrooms at Home by Tavis Lynch. This book is also an excellent resource for proper identification, which is crucial when foraging mushrooms.

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