10.30486/ijrowa.2022.1944998.1372

Aquacultural sludge recovery and vermicomposting for soil amendment: A useful strategy for sustainable agriculture

  1. University of Blida 1, Faculty of Nature and Life Sciences, Biology Department, Blida, Algeria
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Published 2023-11-17

How to Cite

Belmeskine, H., Dilmi, N., & Tsagadirts, Z. (2023). Aquacultural sludge recovery and vermicomposting for soil amendment: A useful strategy for sustainable agriculture. International Journal of Recycling of Organic Waste in Agriculture, 12(1). https://doi.org/10.30486/ijrowa.2022.1944998.1372

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Abstract

Purpose Our study concerned the recovery and reuse of sludge from aquaculture system implemented in Ain Defla District situated in the North-West of Algeria. As a biotreatment and ecological stabilization technique, vermicomposting of aquacultural sludge with Eisenia fetida earthworms has been advocated. The main goals were to assessthe impact of vermicomposting on the quality of aquacultural sludge in terms of stabilization and hygienization, and to investigate its potential use in agriculture as a biofertilizer without compromising the quality of agricultural products. Method The vermicompost was used to amend the soil and assess its impact on some growth parameters of Phaseolus vulgaris.L snap bean was considered. The physical and chemical parameters of sludge were also evaluated. Results Significant increase of earthwormsâweight and length by more than 27 and 22%, respectively, after 21 days of sludge vermicomposting was obtained. Also, significant differences were noted for selected plantsâ agronomic parameters in soils amended with aquacultural sludge, compared to the control (unamended soil). In fact, beans with vermicomposted sludge had substantial increases in plant height, leaves weight, and chlorophyll (a) level of 29 cm, 3.6 g, and 0.8 g/g, respectively, compared to 20 cm, 1.5 g, and 0.46 g/g in control.The results also showed that the vermicomposting process allowed for decreased faecal coliforms and streptococcus in the aquacultural sludge. Conclusion The end-product was a safe biofertilizer for use in agriculture. Highlights
  • Vermicomposting of aquacultural sludge, using Eisenia fetida earthworms was assessed for 21 days.
  • Eartworms present the ability for acclimatization during vermicomposting.
  • A significant decrease in pathogens was noted after 21 days-vermicomposting periods.
  • The final products, with environmental acceptability, were used as soil amendments.
  • They positively enhanced the vegetative parameters of snap bean Phaseolus vulgaris L.

Keywords

  • Biofertilizers,
  • Bioremediation,
  • Dissolved organic matter,
  • Faecal coliforms,
  • Snap bean,
  • Waste management
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