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'''2 ème couche :''' de déchets organiques et de 20 à 40 lombrics | '''2 ème couche :''' de déchets organiques et de 20 à 40 lombrics |
Tutorial de Low-tech Lab | Catégories : Alimentation
How to make organic fertiliser that can be directly absorbed by plants by combining a biofilter with worm compost.
How to make organic fertiliser that can be directly absorbed by plants by combining a biofilter with worm compost.
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"Worm Composting"
Worm composting works by breaking down organic waste using earthworms (notably Eisenia Fetida) which mimics the process performed by living organisms in the surface layer of the soil. Food waste (vegetable peelings, scraps of food, even animal carcasses, faeces etc.) is a source of nourishment which is eaten and digested by micro-organisms (bacteria and fungi) and earthworms in the worm compost.This process of digestion promotes mineralisation of waste products, converting them into simple elements (azote, potassium, phosphorus, magnesium, calcium, iron , trace elements etc.) which can then be absorbed by plants, giving them essential nutrients for their growth and development
The end-products of this process are leachate (or ‘brown liquid’ from compost) and ‘worm tea’ from humus.
Leachate (brown liquid) is rich in nutrients, beneficial micro-organisms and organic molecules yet to be broken down and is made up of liquid earthworm faeces, moisture from compost and fresh plant matter which has fallen from above.
Humus (a dark, lumpy substance that feels moist to touch) contains essential minerals for plants, humic acid (the molecule which stimulates their metabolism and root growth) and decomposers in the form of beneficial micro-organisms. It effectively acts as a larder as it stores nutrients to which plants have a progressive and continuous supply.
The Biofilter
The way this works is that decomposers effectively finish off the process of “digesting” chemical compounds which are then readily and directly accessible to the plant. In healthy soil, this is a continuous process.
The liquid which comes from out of the biofilter contains beneficial micro-organisms and elements which can be easily absorbed by plants. The benefits of this process taking place in a biofilter is that it prevents the plant roots from rotting and resulting in decay or deficiencies. An aerobic process takes place in the biofilter i.e. in the presence of oxygen.
The biofilter uses an active flow of liquid (water + organic matter) which acts as an ‘oxygenating fountain’ by cascading onto beds which are made of microporous and aerated material such as volcanic rock, pumice stone or expanded clay balls and beds made of aerated materials high in cellulose such as straw, dried grass, dried reeds etc. suitable for the growth of fungi.
Why combine worm compost with and a biofilter?
The Leachate (or brown liquid) that is collected after composting is a substance that has not entirely been broken down.Adding a biofilter to the worm compost allows completion of the process which produces the different nutrients needed by the plant . You then end up with a “fertiliser” which can be used even on an inert substrate (as with soil-less cultivation or hydroponics) which in turn brings beneficial micro-organisms into the system.
Humus can be harvested either by hand-sorting or waiting until the earthworms have migrated. It then can be used to enrich soil or potting substrates. This system works by the earthworms building their colony in the upper section (approximately in the first 15 centimetres) with the humus that has been produced remaining in the lower section and the leachate draining into the biofilter which then becomes enriched with nutrients as it passes through the humus. This type of worm composter is mostly used for collecting leachate.
Uses:
There are varying scales of worm composting: from large scale operations for spreading on crops to making it on much smaller, domestic scale e.g. for making fertiliser for personal use to grow plants either with or without soil. The real benefits can be seen both in isolated areas where there is farming activity or even in urban areas where crops are grown out of the soil (e.g. on rooftops) a virtuous feeding cycle can be established by combining the processes of recycling organic waste with producing fertiliser for plants.
In this tutorial, you will learn ways in which can make your own worm compost (approximately 50L for each of the biofilter and worm composting systems).
There are, of course, alternative ways it can be made using different ratios and other materials, but this one is thought to be the one which can be achieved successfully by most people and can be adapted to suit local conditions.
2 x 60L containers, e.g. plastic rubbish bins (preferably made of solid, durable inert plastic) 1 x lid 1 x 15L (approx.) bowl of an equal diameter to the container (preferably made of solid durable inert plastic) Water pump/airlift pump for pond or aquarium min. 300 L/hour to a height of 1m 50cm hose pipe (with a diameter which will fit the pump output) Expanded clay ball or porous volcanic rock (microporous materials are good for making a solid habitat for mirco-organisms): approximately 5L for the biofilter and 5L for the worm composter (bedding material for drainage) Straw/dried vegetation (habitat made of materials high in cellulose for micro-organisms), approximately 5L for the biofilter and 5 L for the worm composter Water: approximately 40L Fungi (Trichoderma or Strepomyces) (GHE - BM or Subculture) or rotting organic matter, A good selection of earthworms (min. 50)
1) Worm Composter
2)' Biofilter
3) Biofilter reservoir (receptacle and pump)
1) Drill 7 or 8 small holes in the bottom of one of the 60L containers
Place the container on top of the bowl (biofilter)
3) Fill the worm compost with the following:
1st layer: porous rocks (base layer- made of bedding material suitable for drainage) and straw (this first layer is for earthworm reproduction).
2 ème couche : de déchets organiques et de 20 à 40 lombrics
3 ème couche : de paille (2ème litière de reproduction des lombrics)
4) Recouvrir le lombricomposteur par un couvercle.
1) Percez à l'aide d'une perceuse un trou au centre de votre bassine du diamètre de votre tuyau d'arrosage.
2) Percez de plus petits trous au fond de la bassine. Ils permettront au liquide de circuler de la bassine à la cuve.
3) Posez votre bassine par dessus votre cuve.
4) Faites passer le tuyau par le trou de la bassine en vérifiant que la pompe soit toujours plongée dans l'eau au fond de la cuve.
5) Remplissez la bassine avec la paille, les roches poreuses, les champignons. (à trouver chez GHE - General Hydroponics Europe, 10g/100L ou environ 2 cuillères à café).
Remarque : Il est également possible d'utiliser de la matière organique en décomposition. Les micro-organismes décomposeurs se trouvent par exemple sous une branche en décomposition et reconaissables par un film de moisissure blanchâtre.
6) Déposez éventuellement un bout de toile ajourée au dessus du tuyau permettant à l'eau de circuler sans laisser passer les roches ou la paille dans le tuyau.
1) Connectez votre pompe à votre tuyau d'arrosage.
2) Placez le tout au fond de la deuxième cuve de 60L.
3) Versez 15 à 20L d'eau dans la cuve.
Attention : Le niveau de liquide dans la cuve ne devra pas dépasser 40L afin de conserver un effet de cascade depuis le biofiltre. Le niveau ne devra pas être inférieur à 10L pour éviter de mettre la pompe à sec et risquer de la dégrader.
- une température et une humidité suffisantes : le lombricompost doit rester humide quitte à ajouter un peu d'eau par le dessus. N'hésitez pas à y verser vos fin de théière ou de cafetière (ils aiment beaucoup la caféine). L'eau (non salée!) du riz est aussi un régal pour les lombrics.
- un pH proche de la neutralité : le lombricompost doit être alimenté de manière équilibrée (pas que des pâtes par exemple)
- une bonne aération (une couche de paille d'environ 1cm après chaque ajout de déchet)
Ce biofiltre a été réalisé avec l'aide deThomas Blanguille expert en hydroponie.
Visionner la vidéo Arte Future - Cap sur l'innovation en attendant le tutoriel.
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