Evaluation of compost application on soil organic carbon sequestration and physic-chemical properties in olive grove agroecosystems of NE Portugal

Toloto, Matheus de Oliveira; Lima, Arthur A.J.; Segatelli, Ana; Royer, Ana Caroline; Gusmão, Andressa Griebler; Hernandez Hernandez, Zulimar; Figueiredo, Tomás de

http://hdl.handle.net/10198/30050

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Autores

Toloto, Matheus de Oliveira

Lima, Arthur A.J.

Segatelli, Ana

Royer, Ana Caroline

Gusmão, Andressa Griebler

Hernandez Hernandez, Zulimar

Figueiredo, Tomás de

Gusmão, Andressa Griebler

Resumo(s)

Global carbon (C) cycle and atmosphere pollution remediation depended directly on C terrestrial sequestration and storage. In this context, soil organic carbon (SOC) plays an extremely important role by creating and enlarging C pools, such as organic amendments input over croplands. The present research aims to evaluate the outcomes from three types of compost (A, B and C) to a Leptosol, in an olive grove (NE Portugal) and its relationship with soil physic-chemical properties. The compost production is derived from an agroindustry by-product, namely olive pomace mixed with sheep manure and almond shell in different proportions. Preview studies showed no significant difference for SOC concentration on top layer soil (0-5 cm) for different dosage (10 and 40 ton ha-1) after 1 year application. The olive grove conservative management also presented no significant difference of SOC concentration among spatial distribution (elevation, x and y coordinates), which means there is practically no soil loss in 15% slope. Furthermore, the soil ΔpH (from KCl to H2O) presented variable charge of 1.21 in the control group, for that reason, the ΔpH was used as an indicator due the organic matter input. Besides, results presented a ΔpH of 0.98, 1.15 and 0.71, respectively for treatments A, B and C (10 ton ha-1) on 0-5 cm layer soil, with significant difference between treatments, which demonstrated to be originated exclusively from the organic matter, varying on the C quality of each one of the composts and not from the mineral fraction of the soil. For 40 ton ha-1 dosage, the treatments A and B presented significant difference compared to C (ΔpH 1.15, 1.18 and 0.56, respectively). In general terms, there is directly causeeffect over compost application and analytical analyzes, independently of dosage application and type of compost.

Palavras-chave

Organic amendments Soil organic carbon Olive grove

URI

http://hdl.handle.net/10198/30050

Citação

Toloto, Matheus, Lima, Arthur, Segatelli, Ana, Royer, Ana, Gusmão, Andressa, Hernández, Zulimar; Figueiredo, Tomás de (2024). Evaluation of compost application on soil organic carbon sequestration and physic-chemical properties in olive grove agroecosystems of NE Portugal. In Encontro Anual das Ciências do Solo 24: Solo, Pilar de uma Só Saúde: livro de resumos. Porto. ISBN 978-989-99665-1-2