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Seaweed Biochar (Sourced from Marine Water Remediation Farms) for Soil Remediation: Towards an Integrated Approach of Terrestrial-Coastal Marine Water Remediation

Authors :
Rosanna Ginocchio
Matías Araya
Jéssica Machado
Luz María de la Fuente
Fabiola Orrego
Eduardo Arellano
Loretto Contreras-Porcia
Source :
BioResources, Vol 18, Iss 3, Pp 4637-4656 (2023)
Publication Year :
2023
Publisher :
North Carolina State University, 2023.

Abstract

Biochar made from seaweed biomass of marine farms established for water pollutant remediation may be a promising amendment for soil remediation in the same coastal territory. The study aimed to assess the soil Cu-immobilizing, pH neutralizing, and nutrient improvement capabilities of a seaweed biochar when incorporated into degraded soil of the same coastal territory (Puchuncaví District, central Chile). Experimental design considered five treatments; degraded soil of Puchuncaví valley (C-), C- amended with either local seaweed biochar (B), vermicompost (V), or its mixture (BV), and a background soil (C+). Experimental soils were placed in pots and kept in a greenhouse (4 weeks). Lolium perenne was then sown and cultivated until week 11. Treatments amended with biochar (B and BV) significantly increased soil pH, available nitrogen and decreased Cu2+ ions. These treatments reached very high EC values but had no negative effect on plant yield. Regarding plant growth, V and BV significantly increased biomass, but V resulted in higher yield because of its higher nutritional status. It was concluded that seaweed biochar, made from local seaweed biomass of a coastal marine water pollutant remediation farm, may be an effective soil amendment for degraded soils of the same coastal territory, although its combination with an organic amendment should be considered.

Details

Language :
English
ISSN :
19302126
Volume :
18
Issue :
3
Database :
Directory of Open Access Journals
Journal :
BioResources
Publication Type :
Academic Journal
Accession number :
edsdoj.1727d784fa7b484c973f8705b787a537
Document Type :
article