A simple method for making your own mycorrhizal inoculum

TheRoach

Well-Known Member
There is this very detailed manual I would like to share, about the propagation of Mycorrhiza.
It is a fairly simple method involving the collection of naturally occurring mycorrhizae in you area, propagating the fungi in the roots of plants such as lentil and oats, or corn and beans (and many others), then killing the host plants to induce the Mycorrhiza fungi into producing spores; this soil loaded with spores becomes the inoculum for your new plants!
I am really exited to try this, I will make a tutorial and share my results!
Good thing is already have corn in the vegetable garden and would need to add lentils or beans only. I will also try to harvest the roots of other bushes and threes in my zone!

A SIMPLE METHOD FOR MAKING YOUR OWN MYCORRHIZAL INOCULUM

Mycorrhizal inoculum can be produced either in pots or in a ‘trap-trough’. The method is virtually the
same for both.


1. Collecting your ‘Starter Soil’

Where? Around 80% of vegetation forms mycorrhizal associations. The infected plant roots and the
spores and hyphae of the beneficial fungi are in the soil and can colonize new plants. In arid and
semi-arid regions you can be pretty sure of getting a good starter soil from any undisturbed area
containing native vegetation including most grown trees (except pines and oaks), woody shrubs and
perennial grasses.

In temperate regions, hedgerows, thickets and thriving perennial grasslands that have not been
cultivated recently are good sources. If you plan to use the inoculum with tree seedlings, there can be
special benefit in collecting some of the starter soil from under healthy trees of the same species.

Method: Clear away about 0.5m2
of the vegetation underneath your target plant. Dig down to a depth
of about 25cm collecting the soil and as many fine roots as possible. It is better, but not essential, to
collect from under several different trees and shrubs. With stony soil, sieve it to get rid of large stones.

2. Multiplying the mycorrhiza
To multiply the mycorrhiza from your starter soil we use a ‘trap-pot’. This method grows mycorrhizal
dependent annuals in the collected soil. These plants, often called “bait plants”, will become infected
with the mycorrhizal fungus causing the fungal population to multiply. Often two bait plant species are
grown together to encourage multiplication of different mycorrhizal fungal species.
A good combination would be a grassy species (eg maize, millet, sorghum, oats, wheat) or an allium
(onion, leek), with a species of legume (beans, peas, lentils, alfalfa, clover). Combining maize and
beans, for example, is a good choice as they grow well together. It depends, however, on what you
know to grow well in your area and on what you have available.

Where? The best place is in a site that will not be needed for at least three months and where you can
keep an eye on it. It will need regular watering, adequate light and protection from herbivores.
Method: Take your starter soil to the site you have chosen and then either fill one or several large (5
litre) plastic pots/basins (depending on how much inoculum you need). Alternatively, a trench can be
dug intothe ground and lined with the plastic sacks or other material available. This is what we call a
‘trap-trough’. The pit should be dug about 100cm x 50cm to a depth of 50cm and then lined with the
plastic sacks. Plastic sheeting, bin liners or sugar sacks will be fine.
Perforate the plastic to allow for drainage. Make sure that it covers the whole basin with an overlap.
Place stones on the overlap and fill the trough with the soil. Soak the seeds of your two chosen species
overnight. Plant them closer than normal, alternating the species.

4
Note: the soil that you dig out of the trench can be used to fill in the holes where you extracted soil from under the local vegetation.

How much inoculum do you want to make? This depends on what size container you will be planting
in, but estimate about 1/6 of each pot to be filled with the inoculum. If using on crops see ‘inoculating
crops’ below.

Trap Trough

3. Maintaining your trap-pots or trough

Once you have set up your trap-pot or trough you can more or less forget about it. Just keep it regularly
watered. In this time the roots of the bait plants will be developing and forming the association with
the mycorrhiza. Depending on the season you might need to shade it or protect it from frost. If growing
trap-pots then they can be moved into a more sheltered area.

4. Three months later…
Ten days before you are ready to use the inoculum, the bait plants should be cut down at the base of
their stem and watering should be stopped. This kills the plant, and tricks the fungus into producing
reproductive spores. Then, after the ten days, the inoculum is prepared by pulling up the roots of the
bait plants which should be chopped into roughly 1cm pieces and then mixed back into the soil from
the trap-pot or trough. This mixture of roots and soil is the inoculum.

5. Using the inoculum
The inoculum can be used on a wide range of different trees, shrubs, crops and garden plants. In all
cases the plants should be given the same care as normal. A small amount of compost will complement
the addition of mycorrhiza but no artificial fertilizers or herbicides should be added.


Inoculating:

(a) Inoculating trees, growing them from seed:
Method: As shown in the diagram below, two thirds of the pot or growing tube should be filled with
normal soil, with a little compost mixed in, if available. Then add a layer of inoculum and finally another
layer of normal soil into which the seed is sown. The inoculum layer need only be a couple of
centimetres deep. This means that when the roots grow down the tube they will come into contact with
the fungus, and quickly become infected. The trees are then cared for as usual, and planted out at the
same time as normal, to coincide with the growing season. The trees that have been infected with the
fungus should be much better equipped to cope with shortages in rainfall, and will also improve the
mycorrhizal potential of the surrounding soil.

(b) Inoculating pre-grown trees:

Method: dig the hole where you will plant your tree and throw in a spade-full of the inoculum. Place
the sapling in the hole and sprinkle a little more of the inoculum around the edges as you fill it in. If you
are adding compost then dig the hole slightly deeper, add the compost, cover over with normal soil and
then add the spade-full of inoculum.

(c) Inoculating crops:

Method: Put a pinch of inoculum into any hole that you are about to sow or plant into. Or mix a couple
of handfuls of the inoculum with seeds that you are about to sow and sow into a drill). If transplanting
then soak the root ball in water and then dip in the inoculum. The root ball will then have a coating of
inoculum. Plant as normal.
When you have used as much of the inoculum as you need, the trap-pot or trough can be topped up
again with more starter soil, re-planted with bait plants and the cycle repeated. This ensures that there
is a ready supply of inoculum all through the year.


You can download the full PDF by following the link in the title.
I hope we will soon have a tutorial with pictures!

Thank you for reading :420:
 
Today I will take my family on a excursion to collect ‘Starter Soil’ from a nearby vacant lot and the park of my neighborhood.
I will collect soil from the root zone of bushes, small shrubs and grassy areas; as per the manual I downloaded, I should also collect fine roots from the plants. I will try to take soil and roots from as many different species as possible to increase the fungi variety in my final inoculum.
I will post pictures of the process.
Thank you for reading my tutorial.

:420:
 
Nope, no luck getting mycorrhizal infested soil. It started raining so I had to go home. Oh well, tomorrow will be another day!
 
Ok, I have collected the starter soil: I collected soil and fine roots from grasses, bushes, a three and a few other local plants. I will add some pictures later on today!
 
Next step, setting up the "trap pots"; The mycorrizha in the starter soil will begin producing spores shortly after being removed from the host plant.

This is the starter soil, full of fine roots:
WP_20150628_001.jpg



And here are the seeds I will use; Leek, lentil, lettuce. They all are hosts to arbuscular mycorrhizae.

WP_20150628_002.jpg


I will plant these tomorrow and water with some worm castings.
 
Some FAQs on mycorrhizae I found in the web:

Q. What are mycorrhizal fungi?
A. Mycorrhizal fungi live in soil and colonize roots forming a biological link between the plants and the soil. The fungus grows on or into the root and extends hyphae into the soil. Mycorrhizae absorb water and nutrients from the soil and introduce them into the root. Mycorrhizae can solubilise nutrients like phosphate that are locked up in the soil. They effectively enlarge the root system and its surface area from double to up to 1000 times so mycorrhizal plants have access to much more nutrient and water than non mycorrhizal plants to grow faster and larger.

Q. Which plants associate with mycorrhizae?
A. About 95% of plants form a symbiotic association with mycorrhizal fungi , for the average garden the only plants that do not associate are brassicas e.g. cabbages, brussel sprouts and beets very few annual plants and grasses.

Q. Do all plants need the same mycorrhizal fungi?
A. No. Most perennial plants, shrubs trees, vegetables and grasses associate with endo mycorrhizae that live in the root system. Coniferous trees and oak beech birch chestnut and hickory associate with ecto mycorrhizae. These live in the soil on the outside of the root. Ericaceous plants and orchids associate with their own species as well.

Q. When is inoculation with mycorrhizal fungi needed?
A. Mycorrhizae live on the roots of plants so if your field, vegetable patch or flower bed has been left without plants for more than a few weeks there will not be any mycorrhizae present inoculation is needed. Nursery grown plants grown in sterile growing media and fed with fertiliser, water and pesticides will not have mycorrhizal associations and inoculation is needed. If you plant a conifer or beech tree into a lawn or grassland the mycorrhizae in the soil will be endo mycorrhizae the wrong type for conifers so inoculation with ecto mycorrhizae will be needed. If you are planting into heavily disturbed soil, salted or fertilised soil on a building site, ploughed field, roadside or landscaping project inoculation will be needed.

Q. How do I apply mycorrhizal inoculums?
A. Mycorrhizal fungi live on the roots so any method you employ to get the mycorrhizae onto the root of the plant will work.
For seeds you can mix with inoculum before planting or dust power into the seed drill.
For all other transplants either dust or drench the mycorrhizae onto the roots before planting or apply to the planting pit.
For stressed established trees either drill down to the roots with a fork or augur around the drip line approx 0.5 meters apart, put the mycorrhizae in a solution with enough water to reach the feeder roots and pour it down the holes; or use specialist ground aeration equipment e.g. Gwazae to aerate and inject the soil.

Q. Can I overdose?
A. Effectively no but do not put too much carrier around seeds.

Q. What is the minimum amount of inoculum needed to form mycorrhizae?
A. In theory Mycorrhizae can form from only one spore that germinates and infects a root,
In practice you get a better result by spreading spores evenly around the root system. Different products have different spore quantities so we suggest that the manufacturers recommendations are followed.

Q. Are some types of mycorrhizae better for some plants or soil conditions?
A. Yes that is why Symbio has eight different species of endo mycorrhizae and seven different species of ecto mycorrhizae in its products to account for most conditions and plants.

Q. Can I apply pesticides with mycorrhizal fungi?
A. Foliar pesticides usually do not have any adverse effects on mycorrhizae formation or function. Some fungicides applied to soil do inhibit mycorrhizae a link to fungicide compatibility; soil fumigants such as steaming or methyl bromide do kill mycorrhizal fungi.

Q. Do fertilizer applications affect mycorrhizae?
A. Mycorrhizae absorb nutrients into the plant and take carbon from the plant to grow. If the plant is sitting in a sea of inorganic soluble fertiliser especially phosphorous it does not need mycorrhizal fungi to access nutrients and mycorrhizal formation will be inhibited or cease. Use organic forms of fertilisers where possible or as a general rule reduce inorganic fertilisers by about 50% to get the same growth result.

Q. Do mycorrhizae control plant diseases?
A. Mycorrhizae improve the health of plants and their roots, so diseases may cause less damage. Mycorrhizae and symbiotic bacteria and fungi also form a barrier around the root system so it may be more difficult for pathogens to attack the plant allowing mycorrhizal plants to better resist infections by plant pathogens.


Q. Are mycorrhizal fungi present in compost?
A. No. Mycorrhizae need living plant roots to survive.

Q. How long do mycorrhizal fungi survive in soil without an active root system?
A. Endo mycorrhizae survive for a short term most no more than a few weeks without a host plant to live on. Ecto mycorrhizae may survive for longer periods.


Q. Can mycorrhizal inoculum be applied to established plants?
A. There is little point in adding mycorrhizae to a healthy well established outdoors plant as it will most likely be colonised. However if the tree, shrub or vine is stressed due to compaction, over fertilization with inorganic fertilisers (mineral salts), road salt or if the plant has not grown since being transplanted then inoculation will probably help.
 
The life cycle of mycorrhiza

truffle-mycorrhiza---posdoctorados-_X2_.jpg



From the web:


life_cyle.jpg


Life cycle of arbuscular mycorrhiza

a. Spore germination and asymbiotic growth.
b. Host recognition and pre-symbiotic growth in the proximity of a host root.
c. Appressoria formation on the root epidermis and colonization of the first root cortex layer.
d. Arbuscules in inner cortical cells.

e. Detail of an intracellular hypha, the so-called coil, in a cell of the root cortex. Observe the big lipid droplets within the fungal hypha.
f. Extraradical mycelium exploring the soil and forming the next spore generation
 
There is so much to learn from this subject, did you know some types of mycorrhizae can actually link two plants and transfer water and nutrients from one to the other!? I was really impressed when I read that.
I hope this comes handy to others!
 
This is great.. Thanks man :)
 
Ah the miracles of the invisible world around us. Last winter when I was desperate to get rid of my root rot and was piecing together whatever I thought were essentials for brewing tea. I finally located some Hydroguard (aka aquashield- beneficial bacteria)- only two bottles left in the country. $60 for the one liter bottle and $30+ for shipping. I ordered in March. It arrived in May. I just opened the bottle a few days ago. It was unsealed. Hmmmm....
Inside- a clear liquid that looks and smells just like water. What is this stuff?
I put the EC tester in it. Zero ppm.
Taste it- it tastes like water.
I can't think of any way to tell the difference between this $90 bottle of water and a regular bottle of water.
But the difference is - in my $90 bottle are some invisible bacteria! Extracted from genuine chicken shit! I'm not sure how many. Hopefully at least one. Maybe several. I hope these tiny critters help me with my plants. I'm not sure what to do next exactly since I can't see them or communicate with them in any way. I don't know if they even speak English.
Let's face it- I don't know if they even exist.
Maybe for an additional $900 I can get some sort of bacterial language translator/communication link installed and we can discuss this.
 
You definitely got $90 worth of bacteria there, beneficial? Wasn't that Mexican bottled water, i think Ron Burgundy was selling?
 
I suppose there have been lots of times in history when a bottle of water would have been worth $90, but I'm pretty sure this wasn't one of those times. I keep thinking if I look hard enough I'll see one of the little buggers swimming around in there...

Wait- you're saying maybe they speak Spanish?

Hola mis amigos....
¿Tienes hambre?
If you're hungry I have some nice root rot for you to eat, my little friends.
My expensive little imaginary friends
 
These two sources show different ways of growing mycorrhizae fungi:


AM fungus inoculum production; This method was designed for use in a farm environment, including instructions on local sourcing of the mycorrhizae and preparation of the mix. Worth nothing is the selection of the host plant; bahiagrass (Paspalum notatum Flugge) a common grass.

Manual on Arbuscular Mycorrhizal Fungus Production and Inoculation Techniques; This is a more refined, standarized method of production including the use of sterilized medium and commercial inoculum.

My intention is to use a hybrid method, but further research will help me understand what steps I will need to take. As of now I will stick with the original method in the first post.
 
I suppose there have been lots of times in history when a bottle of water would have been worth $90, but I'm pretty sure this wasn't one of those times. I keep thinking if I look hard enough I'll see one of the little buggers swimming around in there...

Wait- you're saying maybe they speak Spanish?

Hola mis amigos....
¿Tienes hambre?
If you're hungry I have some nice root rot for you to eat, my little friends.
My expensive little imaginary friends

:rofl: :rofl: :rofl:
 
How can you tell if you have mycorrhizae or not? At any point is it visible do you know? With our naked eyes I mean.

Google mycorrhizae and check out the images tab Weaselcracker. There are many interesting examples.
 
Ok good point. I don't know why I said 'naked eyes' maybe I'm just perverted. A microscope would do fine.

I'd like to try this myco grow. I always like the idea of doing things myself. I do have some powdered commercial products. I haven't done the research yet to figure out how I'll prove to myself that my myco colony exists. I'm pretty busy so have to justify somehow to myself the time spent mixing different invisible things together to make more possibly invisible things which I then can't verify are helping. I suppose we have to go on faith sometimes. I'm happy with the bennies I'm adding to my plants now even though I can't actually prove they're helping.
 
It's a leap of faith Weaselcracker. Most plants maintain the relationship, so if you follow Roach's instructions you'll be sure to collect them. Then it's a simple matter to increase their colony size.
 
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