Influence of biowaste compost amendment on soil organic carbon storage under arid climate

• Published in: Journal of the Air & Waste Management Association (1995) Vol. 69; no. 7; pp. 867 - 877
• Main Authors: Mekki, Ali, Aloui, Fathi, Sayadi, Sami
• Format: Journal Article
• Language: English
• Published: United States Taylor & Francis 03.07.2019; Taylor & Francis Ltd
• Subjects: Agriculture - methods; Arid climates; Aridity; Biological activity; Carbon cycle; Carbon dioxide; Carbon Dioxide - chemistry; Carbon sequestration; Climate; Composting; Composting - methods; Composts; Fertilization; Incubation; Microbial activity; Microorganisms; Organic carbon; Organic matter; Organic soils; Soil - chemistry; Soil amendment; Soil degradation; Soil fertility; Soil improvement; Soil investigations; Soil organic matter; Soil properties; Soil quality; Soil stabilization; Terrestrial environments; Weight
• ISSN: 1096-2247; 2162-2906
• DOI: 10.1080/10962247.2017.1374311

Organic matter amendments have been proposed as a means to enhance soil carbon stocks on degraded soils, particularly under arid climate. Soil organic carbon (SOC) plays a critical role in terrestrial carbon cycling and is central to preserving soil quality. The effects of biowaste compost (BWC) on soil carbon storage were investigated. In addition, changes in soil organic matter (SOM) and even soil organic carbon (SOC) in BWC-amended soils following different applications were studied. The added BWC quantities were as followed: BWC/soil (weight/weight (w/w) respectively: 1/8, 1/4, and 1/2). The different BWC-amended soils were assessed during 180 days under arid ambient conditions and in comparison with control soil. Results showed a significant increase in SOM and SOC with relation to BWC quantities applied. This increase was relatively clear up to 120 days, after which decrease in SOM and SOC levels were observed. Furthermore, results showed improved microbiological activities of the amended soils in comparison with the control soil. This was reflected by the increase of the amended soils' respirometric activities as cumulative carbon dioxide carbon (C-CO 2 ) as function of incubation time and also in terms of specific respiration expressed as C-CO 2 /SOC ratios. Implications: Mediterranean soils under arid climate such as Tunisian soils are poor in organic matter content. Biowastes are potential source for soil fertilization. Composting process is the best method for the stabilization of organic matter of diverse origins. The biowaste compost amendment improves the soil organic carbon storage and enhances the soil microbial activity.