Litcius/Paper detail

The Fate of Soil Organic Carbon from Compost: A Pot Test Study Using Labile Carbon and 13c Natural Abundance

Marco Grigatti, Claudio Ciavatta, Claudio Marzadori

2024Journal of soil science and plant nutrition7 citationsDOIOpen Access PDF

Abstract

Abstract Recycled organic waste (OW) can be a valuable nutrient source for plant cultivation; however, knowledge is poor regarding its effect on soil carbon conservation, especially in the frame of organic-mineral fertilisation succession. In this study, four composts, green waste (GWC), anaerobically digested bio-waste (DC), sludge (SSC), and bio-waste (BWC), were compared (10 and 20 Mg volatile solids ha −1 ) in a ryegrass pot test over two growing cycles (112 + 112 days), along with an unamended control (Ctrl) and a chemical reference (Chem), with and without mineral nitrogen (N) fertilisation. At the end of the two growth cycles, the pot soil was analysed for total- (TOC) and labile-carbon (C L ) as well as for 13 C isotope natural abundance (δ 13 C and Δ 13 C vs. Chem). At day 112, the pot test showed that Ctrl and Chem gained poor TOC (8.48 g kg −1 ), lower than the compost at both 10 and 20 Mg volatile solids ha −1 (10.01 vs. 11.59 g kg −1 ). At day 224, a deep soil TOC depletion occurred in the pot soil treated with GWC, DC and BWC at both levels (-10 and -20). However, all the compost treatments showed more depleted soil d 13 C vs. the references, especially Chem, thus revealing relevant compost-derived carbon conservation. Regarding the compost treatments, the carbon management index (CMI) increased over time, indicating high soil functionality, also showing a good relationship with δ 13 C, suggesting a probable increase in relative lignin which could have been linked to carbon conservation and increased functionality.

Topics & Concepts

CompostChemistrySoil carbonTotal organic carbonAgronomyEnvironmental chemistryCarbon fibersSoil organic matterSoil waterEnvironmental scienceSoil scienceBiologyComposite materialComposite numberMaterials scienceSoil Carbon and Nitrogen DynamicsComposting and Vermicomposting TechniquesPhosphorus and nutrient management
The Fate of Soil Organic Carbon from Compost: A Pot Test Study Using Labile Carbon and 13c Natural Abundance | Litcius