Incorporation of Biochar Carbon into Stable Soil Aggregates: The Role of Clay Mineralogy and Other Soil Characteristics
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Competitive adsorption of lead and cadmium on soil aggregate at micro-interfaces: Multi-surface modeling and spectroscopic studies
2023, Journal of Hazardous MaterialsDoes biochar application improve soil aggregation? A meta-analysis
2021, Soil and Tillage ResearchBiochar addition leads to more soil organic carbon sequestration under a maize-rice cropping system than continuous flooded rice
2020, Agriculture, Ecosystems and EnvironmentCitation Excerpt :Straw return in paddy soil can promote microbial degradation and CH4 and CO2 losses mainly because of it’s labile C composition (cellulose, hemicellose), while recalcitrant C molecules of biochar can substantially limit C mineralization and consequently increase soil C accumulation (Zhang et al., 2012b; Thammasom et al., 2016; Shen et al., 2014). Biochar C could be incorporated into stable soil aggregates (Kelly et al., 2017) and preferably it goes to larger aggregates than smaller ones (Zhang et al., 2019). As compared with straw addition, biochar supplementation can increase proportion of aromatic C compounds of small macro-aggregate (2–0.25 mm), making it more stable against decomposition (Zhang et al., 2019).
Impact of nanominerals on the migration and distribution of cadmium on soil aggregates
2020, Journal of Cleaner ProductionCitation Excerpt :The mechanical compositions of different textures result in soil aggregates with various compositions, particle sizes, and stabilities. For example, the high clay content of clay soil facilitates the formation of stable soil aggregates (Mikha et al., 2017). With the increase of clay content, the types of clay minerals have a greater influence on the stability of soil aggregates (Bronick and Lal, 2005).