Title: | Getting to the root of the matter: Water-soluble and volatile components in thermally-treated biosolids and biochar differentially regulate maize (Zea mays) seedling growth |
Author(s): | Backer R; Ghidotti M; Schwinghamer T; Saeed W; Grenier C; Dion-Laplante C; Fabbri D; Dutilleul P; Seguin P; Smith DL; |
Address: | "Department of Plant Science, Macdonald Campus, McGill University, Sainte-Anne-de-Bellevue, Quebec, Canada. Department of Chemistry 'Giacomo Ciamician', CIRI-EA and CIRSA, Ravenna Campus, University of Bologna, Ravenna, Italy" |
DOI: | 10.1371/journal.pone.0206924 |
ISSN/ISBN: | 1932-6203 (Electronic) 1932-6203 (Linking) |
Abstract: | "The use of thermally treated biomass, including biochar, as soil amendments can improve soil fertility by providing nutrients, stable C and improving soil water-holding capacity. However, if the degree of carbonization is low, these soil amendments can lower crop productivity as a result of high salinity or organic compounds. The overall effect of these soil amendments is mediated by complex relationships between production conditions, soil properties and environmental conditions. This study aimed to 1) characterize the physiochemical properties and organic compounds released by three soil amendments (softwood biochar or pyrogenic carbonaceous biosolids), 2) determine the effects of these amendments on maize (Zea mays) seedling productivity, and 3) relate properties of these amendments to effects on maize seedling productivity under controlled environment conditions. Physicochemical properties and mobile organic compounds (water-soluble and volatile organic compounds were determined. The amendments were tested in maize germination and greenhouse experiments. Chemical fingerprinting of volatile and water-soluble compounds revealed over 100 mobile organic species. Increasing treatment temperature from 270 to 320 degrees C reduces phytotoxicity of pyrogenic carbonaceous biosolids soil amendments. Water-soluble components of pyrogenic carbonaceous biosolids produced at 270 degrees C (inorganic N, Na and/or organic compounds) were associated with reduced maize seedling productivity. Volatile components of pyrogenic carbonaceous biosolids produced at 320 degrees C were associated with improved maize seedling productivity; nitrogen uptake was increased in spite of smaller root systems as a result of increased mineralization of soil or amendment N and/or uptake of organic N compounds. These results suggest that pyrogenic carbonaceous biosolids have potential benefits to provide plant nutrients when the amount of organic and inorganic species are limited during early growth stages, under greenhouse conditions. Future studies should examine these effects under field conditions to confirm whether controlled environment results translate into effects on yield" |
Keywords: | Biomass Charcoal/*pharmacology Germination/drug effects Hot Temperature Seedlings/*drug effects/growth & development Soil/chemistry Solubility/drug effects Volatile Organic Compounds/chemistry/pharmacology Water/chemistry Zea mays/*drug effects/growth & d; |
Notes: | "MedlineBacker, Rachel Ghidotti, Michele Schwinghamer, Timothy Saeed, Werda Grenier, Claudia Dion-Laplante, Carl Fabbri, Daniele Dutilleul, Pierre Seguin, Philippe Smith, Donald L eng Research Support, Non-U.S. Gov't 2018/11/06 PLoS One. 2018 Nov 2; 13(11):e0206924. doi: 10.1371/journal.pone.0206924. eCollection 2018" |