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1m
2 m
3 m
4 m
gramineeLolium multiflorum
Lolium multiflorum
Panicum crus-galli
Poa pratensis
Lolium multiflorum
Poa pratensis
Panicum crus-galli
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Lotus corniculatus
Melilotus officinalis
Medicago lupulina
1m
2 m
3 m
4 m
Medicago sativa
Trifolium pratenseTrifolium
repens
Leguminose
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Las mezclas de alto crecimiento contienen semillas de más de 50 clases de plantas
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Para cuidar las interfilas se recomienda utilizar un rodillo apisonando y
doblando (wwww.rolojack.com).
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Debido a su superficie tan específica (50 – 300 m2/g) y a su porosidad, el biocarbón aumenta la capacidad de absorción del agua y de los nutrientes
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Pyro-LP Frühjahr 2010
REM Bild einer Biokohle von Swiss-Biochar (Grünschnitt)
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Tamaño poro
Biocarbón de Bambus: 0,001 – 1000 µmCarbon de legna: 10 -3000 µm
Bakterien: 0,3 – 3 µmFungi: 2 – 80 µmProtozoen: 7 – 30 µmNematoden: 3 – 30 µm
Wurzelhaare: 5 – 17 µmFeinwuzeln: - 800 µm
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Arbuscular mycorrhiza Fungal hyphae growing into biochar Pores from a germinating spore
Source: Ogawa (1994)
Colonizacion microbiologica del biocarbón
Quelle: BIOCHAR, Environmental Management(Lehmann and Joseph) 2009
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Almacenamiento de agua
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Aumento de productividad con biocarbón
Fotos: Christoph Steiner und Bruno Glaser
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aumento del nitrogeno en hojassin y con biocarbón despues 3 años
Delinat-Institut 2010
leg: legumesco: compostbc: biochar
N = 150
optimum
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leg: legumesco: compostbc: biochar
Biocarbón y absorcion de mineralesdéspues 3 años
N = 30
(Optima suivant G. VANEK 1978 und A. FARDOSSI 2001)
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Biocarbón y rendimientodéspues 3 años
leg: legumesco: compostbc: biochar
N = 20
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Biocarbón y calidad de uvadéspues 3 años
N = 400
leg: legumesco: compostbc: biochar
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Biocarbón y oídiodéspues 3 años
Oidium infection rate
leg: legumesco: compostbc: biochar