Compost Bokashi de cuisine/en : Différence entre versions

(Mise à jour pour être en accord avec la nouvelle version de la source de la page)
(Mise à jour pour être en accord avec la nouvelle version de la source de la page)
 
(32 révisions intermédiaires par 3 utilisateurs non affichées)
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{{ {{tntn|Tuto Details}}
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{{Tuto Details
 
|Main_Picture=Bokashi_de_cuisine_pour_le_compostage_NIKON_-_2017.06.28_-10_logo_.jpg
 
|Main_Picture=Bokashi_de_cuisine_pour_le_compostage_NIKON_-_2017.06.28_-10_logo_.jpg
 
|Licences=Attribution (CC BY)
 
|Licences=Attribution (CC BY)
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|IsTranslation=1
 
|IsTranslation=1
 
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{{ {{tntn|Introduction}}
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{{Introduction
 
|Introduction=Every year, the waste production of French people is about 320 kg per person (about 90 bags) with 120kg of organic waste that could be recovered. For instance, they can be used as fertilisers for crops
 
|Introduction=Every year, the waste production of French people is about 320 kg per person (about 90 bags) with 120kg of organic waste that could be recovered. For instance, they can be used as fertilisers for crops
  
Ligne 22 : Ligne 22 :
 
The  compost production from organic waste encourages the cultivation of vegetables and fruits at home.  
 
The  compost production from organic waste encourages the cultivation of vegetables and fruits at home.  
 
In urban areas, the objectives are diverse:
 
In urban areas, the objectives are diverse:
- Regain methods for cultivating plant  
+
 
- Aim at/seek food security
+
*Regain methods for cultivating plant  
- Cleanse the air/fight air pollution
+
*Aim at/seek food security
- Eat quality and local products
+
*Cleanse the air/fight air pollution
 +
*Eat quality and local products
  
 
'''Bokashi''' (“fermented organic material” in Japanese) is a very efficient composting method that can be adapted to the urban context. (It uses what we call the Efficient Micro-organisms (EM).) It implements the Efficient Micro-organisms (EM).
 
'''Bokashi''' (“fermented organic material” in Japanese) is a very efficient composting method that can be adapted to the urban context. (It uses what we call the Efficient Micro-organisms (EM).) It implements the Efficient Micro-organisms (EM).
  
What are the Efficient Micro-organisms ?
+
'''What are the Efficient Micro-organisms ?'''
  
 
In the wildlife, the degradation into humus of the (organic material) organic matter is done through the fauna and the flora consisted of fungus and bacteria. These “efficient” micro-organisms represent about 10% of the existing micro-organisms.
 
In the wildlife, the degradation into humus of the (organic material) organic matter is done through the fauna and the flora consisted of fungus and bacteria. These “efficient” micro-organisms represent about 10% of the existing micro-organisms.
Ligne 41 : Ligne 42 :
 
The easiest way is to order the strains online. In France, you can order them through [http://www.synbiovie.fr/ Bertrand Grevet], an expert on the EMs.
 
The easiest way is to order the strains online. In France, you can order them through [http://www.synbiovie.fr/ Bertrand Grevet], an expert on the EMs.
 
There are two types of Ems:
 
There are two types of Ems:
- EM 1: these are concentrated strains that require one step before use : activating them with treacle / molasses ;
+
 
- EM A (for Activated Efficient Micro-organisms): the activation through the mix with treacle has already been done, however their shelf life is short (about 1 month). It is still better to source EMs A rather than EMs 1.
+
*EM 1: these are concentrated strains that require one step before use : activating them with treacle / molasses ;
 +
*EM A (for Activated Efficient Micro-organisms): the activation through the mix with treacle has already been done, however their shelf life is short (about 1 month). It is still better to source EMs A rather than EMs 1.
  
 
'''How does the Bokashi work ?'''
 
'''How does the Bokashi work ?'''
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It operates in an anaerobic process (without any oxygen supply). It has to be hermetically sealed after each use for the good development of the bacteria, between 20°C to 25°C.
 
It operates in an anaerobic process (without any oxygen supply). It has to be hermetically sealed after each use for the good development of the bacteria, between 20°C to 25°C.
 
The composting outputs are:
 
The composting outputs are:
 +
 
* A very nutritious juice for the plants (which has to be diluted a hundred times with water)
 
* A very nutritious juice for the plants (which has to be diluted a hundred times with water)
 
* A solid compost full of minerals and micro-organisms
 
* A solid compost full of minerals and micro-organisms
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Watch the tutorial video [https://youtu.be/JLqSRKNIwYs HERE]
 
Watch the tutorial video [https://youtu.be/JLqSRKNIwYs HERE]
 +
 +
'''Retrouvez dans [https://lowtechlab.org/assets/files/rapport-experimentation-habitat-low-tech-low-tech-lab.pdf ce rapport] une analyse à l'usage de ce compost Bokashi, ainsi que des 11 autres low-techs expérimentées lors du projet En Quête d'un Habitat Durable.'''
 
}}
 
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|VideoType=Youtube
 
|VideoType=Youtube
 
|VideoURLYoutube=https://www.youtube.com/watch?v=JLqSRKNIwYs
 
|VideoURLYoutube=https://www.youtube.com/watch?v=JLqSRKNIwYs
 
}}
 
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{{ {{tntn|Materials}}
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{{Materials
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Outils_et_materiel_2_.JPG
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Outils_et_materiel_2_.JPG
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_outils_et_materiel_1_.JPG
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_outils_et_materiel_1_.JPG
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* Organic waste
 
* Organic waste
  
<div class="mw-translate-fuzzy">
 
 
* 1 Flask of EM A (available at [http://www.synbiovie.fr/ Bertrand Grevet, Synbiovie], French specialist) and/or 1 bag of his EM inseminated wheat bran.
 
* 1 Flask of EM A (available at [http://www.synbiovie.fr/ Bertrand Grevet, Synbiovie], French specialist) and/or 1 bag of his EM inseminated wheat bran.
</div>
 
 
|Tools=* 1 drill and 1 drill of 3 mm.
 
|Tools=* 1 drill and 1 drill of 3 mm.
  
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* 1 Sprayer of 1L
 
* 1 Sprayer of 1L
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|Tuto_Attachments={{Tuto Attachments
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|Attachment=Compost_Bokashi_de_cuisine_1_FichePeda_Bokashi.pdf
 
}}
 
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{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Set up the compost bucket
 
|Step_Title=Set up the compost bucket
 
|Step_Content=* Drill numerous holes at the bottom of the compost bucket with the 3mm bit.
 
|Step_Content=* Drill numerous holes at the bottom of the compost bucket with the 3mm bit.
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Etape_1.JPG
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Etape_1.JPG
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Set up the elevator bucket
 
|Step_Title=Set up the elevator bucket
 
|Step_Content=* Cut the bottom of the elevator bucket on 7 cms (the best is to measure the necessary high for the tightening nut of the tap)
 
|Step_Content=* Cut the bottom of the elevator bucket on 7 cms (the best is to measure the necessary high for the tightening nut of the tap)
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Etape_2.JPG
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_Etape_2.JPG
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Set up the receiver bucket
 
|Step_Title=Set up the receiver bucket
 
|Step_Content=* Draw the inside shape of the seal of the tap on the receiver bucket.
 
|Step_Content=* Draw the inside shape of the seal of the tap on the receiver bucket.
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* Test the good sealing of the system by pouring water in the receiver bucket: no drop must get through the seal with a closed tap. Then empty it.
 
* Test the good sealing of the system by pouring water in the receiver bucket: no drop must get through the seal with a closed tap. Then empty it.
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 +
{{Idea|The tap used can be recovered from a wine cube for example.}}
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<br />
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_etape_3_1_.JPG
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_etape_3_1_.JPG
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_etape_3_2_.JPG
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_etape_3_2_.JPG
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|Step_Picture_03=Bokashi_de_cuisine_pour_le_compostage_etape_3_4_.JPG
 
|Step_Picture_03=Bokashi_de_cuisine_pour_le_compostage_etape_3_4_.JPG
 
}}
 
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{{Tuto Step
 
|Step_Title=Assembly
 
|Step_Title=Assembly
 
|Step_Content=* Put the compost bucket on the elevator bucket, itself nested on the receiver bucket.
 
|Step_Content=* Put the compost bucket on the elevator bucket, itself nested on the receiver bucket.
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_assemblage.jpg
 
|Step_Picture_00=Bokashi_de_cuisine_pour_le_compostage_assemblage.jpg
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Filling
 
|Step_Title=Filling
|Step_Content=* Put a 1cm layer of pumice at the bottom of the compost bucket.  
+
|Step_Content=* Put a 1cm layer of pumice at the bottom of the compost bucket.
  
 
'''Note''':This layer is used as a drain for the composter, so that the holes don’t get clogged.
 
'''Note''':This layer is used as a drain for the composter, so that the holes don’t get clogged.
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'''Note''': Composting is faster if organic matter is cut into small pieces.
 
'''Note''': Composting is faster if organic matter is cut into small pieces.
  
<div class="mw-translate-fuzzy">
+
* Pulverize 4 or 5 doses of EMAs or its EM inseminated wheat bran in order to inseminate the composter. The EM solution can then be stored in the refrigerator.
* Pulverize 4 or 5 doses of EMAs or its EM inseminated wheat bran in order to inseminate the composter.
 
</div>
 
  
 
* Seal hermetically the composter.
 
* Seal hermetically the composter.
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|Step_Picture_03=Bokashi_de_cuisine_pour_le_compostage_Etape_6_3_.jpg
 
|Step_Picture_03=Bokashi_de_cuisine_pour_le_compostage_Etape_6_3_.jpg
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Use
 
|Step_Title=Use
 
|Step_Content=
 
|Step_Content=
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_NIKON_-_2017.06.28_-17.JPG
 
|Step_Picture_01=Bokashi_de_cuisine_pour_le_compostage_NIKON_-_2017.06.28_-17.JPG
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Harvest and use of fertilizer juice
 
|Step_Title=Harvest and use of fertilizer juice
 
|Step_Content=* Harvest the bokashi juice using the tap
 
|Step_Content=* Harvest the bokashi juice using the tap
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|Step_Picture_02=Bokashi_de_cuisine_pour_le_compostage_etape_8_3_.JPG
 
|Step_Picture_02=Bokashi_de_cuisine_pour_le_compostage_etape_8_3_.JPG
 
}}
 
}}
{{ {{tntn|Tuto Step}}
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{{Tuto Step
 
|Step_Title=Using compost to repot your plants
 
|Step_Title=Using compost to repot your plants
 
|Step_Content='''Note ''': When the compost bin is full (after a few weeks or a few months), there is more degradation in the bottom of the tank than above.
 
|Step_Content='''Note ''': When the compost bin is full (after a few weeks or a few months), there is more degradation in the bottom of the tank than above.
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|Step_Picture_02=Bokashi_de_cuisine_pour_le_compostage_Etape_9_2_.jpg
 
|Step_Picture_02=Bokashi_de_cuisine_pour_le_compostage_Etape_9_2_.jpg
 
}}
 
}}
{{ {{tntn|Notes}}
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{{Tuto Step
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|Step_Title=Contenu pédagogique à télécharger
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|Step_Content=Vous pouvez télécharger une fiche pédagogique créée par le Low-tech Lab à l'occasion de l'exposition "En Quête d'un Habitat Durable" dans la partie "Fichiers" du tutoriel (onglet au niveau de la section "Outils-Matériaux").
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|Step_Picture_00=Compost_Bokashi_de_cuisine_1_ForumClimat_Bokashi_VF2.JPG
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}}
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{{Tuto Step
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|Step_Title=
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|Step_Content='''Vous avez une minute ? Que vous souhaitiez ou non réaliser cette low-tech, votre réponse à [https://framaforms.org/votre-avis-sur-ce-tutoriel-du-low-tech-lab-1589450161 ce formulaire] nous aiderait à améliorer nos tutos. Merci d'avance pour votre aide !'''
 +
 
 +
Like all the work at Low-tech Lab, '''this tutorial is collaborative.''' Don't hesitate to add modifications that seem important, and share your results in the comments.
 +
}}
 +
{{Notes
 
|Notes=* Léon-Hugo Bonte, landscape designer, user of bokashi.
 
|Notes=* Léon-Hugo Bonte, landscape designer, user of bokashi.
 
* [http://www.synbiovie.fr/ Synbiovie], Bertrand Grevet, grower and distributor of EM in France.
 
* [http://www.synbiovie.fr/ Synbiovie], Bertrand Grevet, grower and distributor of EM in France.
Ligne 185 : Ligne 204 :
 
* Documentation produced by Camille Duband & Pierre-Alain Lévêque, July 2017
 
* Documentation produced by Camille Duband & Pierre-Alain Lévêque, July 2017
 
}}
 
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Version actuelle datée du 26 mars 2021 à 11:41

Tutorial de avatarLow-tech Lab | Catégories : Habitat, Alimentation, Hygiène

Introduction

Every year, the waste production of French people is about 320 kg per person (about 90 bags) with 120kg of organic waste that could be recovered. For instance, they can be used as fertilisers for crops

It is quite simple to compost our organic waste in the countryside. In the urban areas, where ¾ of the French population lives, it is more complicated. Thus, the potential of waste composting is very important.

The compost production from organic waste encourages the cultivation of vegetables and fruits at home. In urban areas, the objectives are diverse:

  • Regain methods for cultivating plant
  • Aim at/seek food security
  • Cleanse the air/fight air pollution
  • Eat quality and local products

Bokashi (“fermented organic material” in Japanese) is a very efficient composting method that can be adapted to the urban context. (It uses what we call the Efficient Micro-organisms (EM).) It implements the Efficient Micro-organisms (EM).

What are the Efficient Micro-organisms ?

In the wildlife, the degradation into humus of the (organic material) organic matter is done through the fauna and the flora consisted of fungus and bacteria. These “efficient” micro-organisms represent about 10% of the existing micro-organisms. The EMs are a mix of 80 selected strains from these specific micro-organisms. Their presence in composting is used to imitate the performance of a healthy humus and to optimise the degradation of the organic matter.

The type of compost using these micro-organisms is called “Bokashi”.

It is worth noticing that the EMs can be used on crops (out in the field) in the ground to bring back life in poor soil. However, it is not to be used on a healthy soil as the EMs may be detrimental to the soil balance through their actions.

It is possible to locally source the strains to make your own Efficient Micro-organisms. This still requires to master the process. Here is a link to try out/experiment this process (link). The easiest way is to order the strains online. In France, you can order them through Bertrand Grevet, an expert on the EMs. There are two types of Ems:

  • EM 1: these are concentrated strains that require one step before use : activating them with treacle / molasses ;
  • EM A (for Activated Efficient Micro-organisms): the activation through the mix with treacle has already been done, however their shelf life is short (about 1 month). It is still better to source EMs A rather than EMs 1.

How does the Bokashi work ?

The bokashi is produced through the organic waste fermentation, inseminated with EMs A. It operates in an anaerobic process (without any oxygen supply). It has to be hermetically sealed after each use for the good development of the bacteria, between 20°C to 25°C. The composting outputs are:

  • A very nutritious juice for the plants (which has to be diluted a hundred times with water)
  • A solid compost full of minerals and micro-organisms

The process is pretty quick, which enables the use of a small container. Added to the fact that it is hermetically sealed, the bokashi fits well with an urban environment, and off the ground: it is closed, does not smell, and its juice is ready for use in off-ground cultivation. This tutorial is edited with the help of Léon-Hugo Bonte, landscaper and decorator, proponent of the indoor off-ground cultivation, regular user of the bokashi and the EMs for several years.

Watch the tutorial video HERE

Retrouvez dans ce rapport une analyse à l'usage de ce compost Bokashi, ainsi que des 11 autres low-techs expérimentées lors du projet En Quête d'un Habitat Durable.

Video d'introduction

Matériaux

  • 3 food grade buckets of 5L (gatherable in restaurants) and a lid which enables a hermetical sealing.

One is the compost box.

One is the elevator .

One is the receiver.

  • One tap adaptable for plastic buckets (with seal and tightening nut)
  • 1L of approx. 3mm diameter pumice
  • Organic waste

Outils

  • 1 drill and 1 drill of 3 mm.
  • Pencil
  • Cutter
  • 1 Sprayer of 1L

Étape 1 - Set up the compost bucket

  • Drill numerous holes at the bottom of the compost bucket with the 3mm bit.




Étape 2 - Set up the elevator bucket

  • Cut the bottom of the elevator bucket on 7 cms (the best is to measure the necessary high for the tightening nut of the tap)




Étape 3 - Set up the receiver bucket

  • Draw the inside shape of the seal of the tap on the receiver bucket.

Note: The tap must be placed as low as possible on the receiver bucket in order to get as much juice as possible. However, plan the necessary high for the tightening nut.

  • Cut the circle with the cutter.

Note: the plastic composing the bucket is pretty thin, so this tasks has to be done with precision

  • Screw the tap on the receiver bucket without forgetting to put the seal in between, and tighten it with the nut.
  • Test the good sealing of the system by pouring water in the receiver bucket: no drop must get through the seal with a closed tap. Then empty it.
The tap used can be recovered from a wine cube for example.



Étape 4 - Assembly

  • Put the compost bucket on the elevator bucket, itself nested on the receiver bucket.




Étape 5 - Filling

  • Put a 1cm layer of pumice at the bottom of the compost bucket.

Note:This layer is used as a drain for the composter, so that the holes don’t get clogged.

  • Put the organic waste in the compost bucket. The composting is quicker if the organic wasted is cut into small bits.

Note: Composting is faster if organic matter is cut into small pieces.

  • Pulverize 4 or 5 doses of EMAs or its EM inseminated wheat bran in order to inseminate the composter. The EM solution can then be stored in the refrigerator.
  • Seal hermetically the composter.


Étape 6 - Use

Étape 7 - Harvest and use of fertilizer juice

  • Harvest the bokashi juice using the tap

Note: Once the compost is well started (2 to 3 weeks), a small amount of bokashi juice can be taken daily.

  • Dilute to 1% with water.
  • Water the plants with this mixture every 2 days or as needed.

Note: The condition and color of the leaves are good indicators of the nutritional needs of a plant.


Étape 8 - Using compost to repot your plants

Note : When the compost bin is full (after a few weeks or a few months), there is more degradation in the bottom of the tank than above.

  • To stimulate the degradation of the most recently added organic matter, return the composter during 15 days: the juice rich in micro-organisms will impregnate this waste and activate composting.
After 15 days: plant your vegetables by superimposing in a pot: a thin layer of fertile ground, a layer of your compost (1 cm) and fill the rest of fertile ground.

Note: Your compost is now very rich in minerals but also in micro-organisms. The mineral mixture is an excellent food for plants. The bacterial flora will colonize the soil developing a rich living environment for the roots.

However, the bokashi is acidic: It is therefore important to place it at the bottom of the pot to prevent the roots from being in contact with it when repotting.

  • Water your vegetables regularly using the compost juice.



Étape 9 - Contenu pédagogique à télécharger

Vous pouvez télécharger une fiche pédagogique créée par le Low-tech Lab à l'occasion de l'exposition "En Quête d'un Habitat Durable" dans la partie "Fichiers" du tutoriel (onglet au niveau de la section "Outils-Matériaux").




Étape 10 -

Vous avez une minute ? Que vous souhaitiez ou non réaliser cette low-tech, votre réponse à ce formulaire nous aiderait à améliorer nos tutos. Merci d'avance pour votre aide !

Like all the work at Low-tech Lab, this tutorial is collaborative. Don't hesitate to add modifications that seem important, and share your results in the comments.

Notes et références

  • Léon-Hugo Bonte, landscape designer, user of bokashi.
  • Synbiovie, Bertrand Grevet, grower and distributor of EM in France.
  • Permaforet.
  • Documentation produced by Camille Duband & Pierre-Alain Lévêque, July 2017

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