Effects of biochar, waste water irrigation and fertilization on soil properties in West African urban agriculture

In large areas of sub-Saharan Africa crop production must cope with low soil fertility. To increase soil fertility, the application of biochar (charred biomass) has been suggested. In urban areas, untreated waste water is widely used for irrigation because it is a nutrient-rich year-round water sour...

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Bibliographic Details
Published in:Scientific reports 2017-09, Vol.7 (1), p.10738-13, Article 10738
Main Authors: Häring, Volker, Manka’abusi, Delphine, Akoto-Danso, Edmund K., Werner, Steffen, Atiah, Kofi, Steiner, Christoph, Lompo, Désiré J. P., Adiku, Samuel, Buerkert, Andreas, Marschner, Bernd
Format: Article
Language:English
Subjects:
631/158/2456
704/158/47/4113
704/172/169/895
Cation exchange
Charcoal
Crop production
Fertilization
Household wastes
Humanities and Social Sciences
Irrigation
Irrigation water
Mineral fertilizers
multidisciplinary
Nutrients
Organic carbon
Organic fertilizers
Organic soils
pH effects
Rice
Sandy soils
Science
Science (multidisciplinary)
Sodium
Soil fertility
Soil pH
Soil properties
Urban agriculture
Urban areas
Wastewater
Wastewater irrigation
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Summary:In large areas of sub-Saharan Africa crop production must cope with low soil fertility. To increase soil fertility, the application of biochar (charred biomass) has been suggested. In urban areas, untreated waste water is widely used for irrigation because it is a nutrient-rich year-round water source. Uncertainty exists regarding the interactions between soil properties, biochar, waste water and fertilization over time. The aims of this study were to determine these interactions in two typical sandy, soil organic carbon (SOC) and nutrient depleted soils under urban vegetable production in Tamale (Ghana) and Ouagadougou (Burkina Faso) over two years. The addition of biochar at 2 kg m −2 made from rice husks and corn cobs initially doubled SOC stocks but SOC losses of 35% occurred thereafter. Both biochar types had no effect on soil pH, phosphorous availability and effective cation exchange capacity (CEC) but rice husk biochar retained nitrogen (N). Irrigation with domestic waste water increased soil pH and exchangeable sodium over time. Inorganic fertilization alone acidified soils, increased available phosphorous and decreased base saturation. Organic fertilization increased SOC, N and CEC. The results from both locations demonstrate that the effects of biochar and waste water were less pronounced than reported elsewhere.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-10718-y