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Biochar in Agriculture for Achieving Sustainable Development Goals
- 1.0558245 - ÚH 2023 RIV GB eng M - Monography Chapter
Mitchell, K. - Beesley, L. - Šípek, Václav - Trakal, L.
Chapter 3 - Biochar and its potential to increase water, trace element, and nutrient retention in soils.
Biochar in Agriculture for Achieving Sustainable Development Goals. London, San Diego, Cambridge, Oxford: Elsevier (Academic Press), 2022 - (Tsang, D.; Ok, Y.), s. 25-33. ISBN 978-0-323-85343-9
Institutional support: RVO:67985874
Keywords : biochar * degraded soil * bulk density * water retention * nutrients * trace metals
OECD category: Hydrology
https://www.sciencedirect.com/science/article/pii/B9780323853439000082?via%3Dihub
The physical and geochemical modifications to soils following biochar amendment are intimately linked, especially in coarse-textured acidic soils, where biochars’ inherent soil water retention abilities effectively hold nutrients and trace elements in pore spaces. The magnitude of these effects is biochar type and dose specific but can be long-lasting. As a result, adding biochars to some degraded soils can increase soil moisture holding, nutrients, and trace element retention such that they can be utilized as a part of plant-based remediation efforts. Here we present and discuss data and review evidence of linkages between soil water retention and nutrient and trace element geochemistry in soils amended with biochars.
Permanent Link: http://hdl.handle.net/11104/0331997
Number of the records: 1