Phytolith‐rich biochar increases cotton biomass and silicon‐mineralomass in a highly weathered soil
|
| |
| Authors: | Zimin Li Bruno Delvaux Johan Yans Nicolas Dufour David Houben Jean‐Thomas Cornelis |
| |
| Affiliation: | 1. Université catholique de Louvain, Earth and Life Institute, soil science, Louvain‐la‐Neuve, Belgium;2. University of Namur, Department of Geology, NaGRIDD, Namur, Belgium;3. Institut Polytechnique LaSalle Beauvais, HydrISE, Beauvais Cedex, France;4. University of Liege, BIOSE department, Gembloux Agro‐Bio Tech, Gembloux, Belgium |
| |
| Abstract: | Non‐essential silicon (Si) is beneficial to plants. It increases the biomass of Si‐accumulator plants by improving photosynthetic activity and alleviating stresses. Desilication, however, takes place because of natural soil weathering and removal of harvested biomass. Pyrolysis transforms Si‐rich biomass into biochar that can be used to supply bioavailable Si. Here, we applied two biochar materials differing in Si content on soils differing in weathering stage: a young Cambisol and a highly weathered Nitisol. We studied the impact of biochar supply on the bioavailability of Si, cotton biomass, and Si mineralomass. The biochar materials derived from, respectively: Miscanthus × giganteus (Mi; 34.6 g Si kg?1 in biochar) and soft woody material (SW; 0.9 g Si kg?1 in biochar). They were compared to conventional Si fertilizer wollastonite (Wo; CaSiO3). Amendments were incorporated in soils at the rate of 3% (w/w). The content of bioavailable Si in soil was determined through 0.01 M CaCl2 extraction. In the Cambisol, the proportion (CaCl2 extractable Si: total Si content) was significantly smaller for Mi (0.9%) than for Wo (5.2%). In the Nitisol, this proportion was much larger for Mi (1.4%) than for Wo (0.7%). Mi‐biochar significantly increased Si‐mineralomass relatively to SW‐biochar in both soils. This increase was, however, much larger in the Nitisol (5.9‐fold) than in the Cambisol (2.2‐fold). Mi biochar is thus an alternative Si fertilizer to Wo to supply bioavailable Si, increase plant biomass, and promote the biological cycle of Si in the soil‐plant system in the Nitisol. Besides, it increased soil fertility and soil organic carbon content. |
| |
| Keywords: | biochar bioavailable silicon cotton soil desilication |
|
|
