Changes in Soil Organic Carbon After Five Years of Biowaste Compost Application in a Mediterranean Vegetable Cropping System
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Using bio-based fertilizer derived from peri‑urban wastes affects soil properties and lettuce yield and quality
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2023, Journal of Environmental ManagementBiowaste compost amendment modifies soil biogeochemical cycles and microbial community according to aggregate classes
2021, Applied Soil EcologyCitation Excerpt :Five sub-samples (0–20 cm depth) from each plot were collected in November 2013 and mixed. For water stable aggregates (WSA) separation, an aliquot of the field-moist soil was gently broken apart to pass a 10-mm sieve, air-dried and stored at room temperature and then fractionated according to the wet sieving method descripted in Baiano and Morra (2017a,b) in the following classes: macroaggregates (2000–250 μm), free-microaggregates (250–53 μm) and free silt plus clay fraction <53 μm (free-SC). Recoveries from the wet sieving were >97% by weight.
Changes in soil organic carbon pools following long-term fertilization under a rain-fed cropping system in the Loess Plateau, China
2021, Journal of Integrative AgricultureSoil revitalization via waste utilization: Compost effects on soil organic properties, nutritional, sorption and physical properties
2020, Environmental Technology and InnovationCitation Excerpt :A fascinating observation was represented in this study that despite of applying higher percentage of compost (30%) in AS soil (AS30), it showed lesser increment in TKN and AP content when compared with AS20. This fact is due to the significant reduction in porosity, which caused substantial leaching of the nutrients (Baiano and Morra, 2017; Goswami et al., 2017). However, in the case of LS30, the higher amount of TKN and AP concentration was observed as compared to other trials.