ISHS Contact


ISHS Acta Horticulturae 1242: III International Symposium on Horticulture in Europe - SHE2016

Mulch films biodegradation rate in different types of soil

Authors:   E. Duarte, A. Saraiva, R. Costa, N. Fortes, G. Souza, P. Fortes Neto
Keywords:   soil type, biodegradation rate, mulch, Agrobiofilm, respirometric tests
DOI:   10.17660/ActaHortic.2019.1242.2
Nowadays, the use of polyethylene (PE) mulch on horticultural crops leads to negative environmental impacts. To overcome these problems, biodegradable mulches were developed once they can be incorporated at the end of the crop cycle, towards a more sustainable agriculture. The aim of this study was to perform respirometric tests in standardized aerobic conditions using two methods: one in batch conditions (at 28C) and the other in continuous mode (at 25C). Biodegradation tests were developed in three types of soils: Ferralsols (T1), Calcisols (T2) and Arenosols (T3) with: 21 g kg-1 organic matter (OM), sandy-loam texture, 5.8 pH (H2O); 11 g kg-1 OM, clay texture, 7.6 pH (H2O); and 8 g kg-1 OM, sand texture, 6.9 pH (H2O), respectively. Agrobiofilm (15 m, black) was used, in Brazil and Portugal, at real scale with same family crops: Asteraceae, Solanaceae and Cucurbitaceae, for that reason biodegradable mulch was selected. At Taubat University, in T1 soil, a respirometric test was developed in batch system to measure CO2 production. At Lisbon University CO2 production was measured in a continuous aeration test using the soils T1, T2 and T3. The results obtained regarding the Brazil test showed that CO2 production was higher on Agrobiofilm modality with 1.20 against 0.69 mg CO2 g-1 soil on bare soil modality. The data obtained from the trials performed in Portugal was for T1, T2 and T3, on Agrobiofilm modality: 3.04, 0.88, 0.74 mg CO2 g-1 soil, against bare soil: 1.88, 0.58, 0.50 mg CO2 g-1 soil, respectively. From results obtained, CO2 production on continuous aeration methodology was 2.5 times higher than batch methodology. Overall the correlation between biodegradation rate and different soils' characteristics shows a promising approach emphasising the complex mechanisms involved.

Download Adobe Acrobat Reader (free software to read PDF files)

1242_1     1242     1242_3

URL      Hosted by KU Leuven      © ISHS