Application of seaweed and pruning residue as organic fertilizer to increase soil fertility and vine productivity

Algae have an indisputable role in coastal ecosystems, but their accumulation and uncontrolled proliferation cause severe damage for the local municipalities. Fertilization with seaweed has been shown to increase soil fertility and crop production reducing ultimately the need for inorganic fertilizers. However, contradictory results of the compost effect have been reported. In the present work, we aimed at testing the suitability of three composted algae materials obtained in a previous study as soil amendments for vines. The composted materials consisted of pruning waste (P) and seaweed (S) mixed (henceforth, P2S1, P1S1 and P1S2, referring the number to the ratio of P to S). Overall, we observed an increase in soil organic matter, phosphorus (P) and potassium (K) in the soil treated in comparison with soils with inorganic fertilization. A moderate N soil enrichment (ca. 20%) was also detected. The leaf analysis reflected generally the greatest concentrations of NPK for the organic treatments, but this was remarkable only during the first year after seaweed application. A noticeable improvement in grape production was detected especially with the P1S1 compost without compromising grape quality although a decrease in sucrose content was noted with the compost with higher productivity (e.g. P2S1 and P1S1). This slight sucrose drop could be attributable to a greater water availability mediated by the compost or to a dilution factor of the sucrose content caused by a greater number of berries in those vines. These findings suggest that although monitoring of the long-term effects is needed, the use of seaweed amendments for agriculture could offer a cost-effective method for coastal municipalities to reduce excessive algae debris while also minimizing the impacts of inorganic fertilization.

Automated summary

Algae play an important role in coastal ecosystems, but their accumulation and uncontrolled proliferation cause significant damage to local municipalities. Fertilization with seaweed has been proven to increase soil fertility and crop production, reducing the need for inorganic fertilizers. However, conflicting results have been reported regarding the compost effect. In this study, the suitability of three composted algae materials as soil amendments for vines was tested, and the results showed an increase in soil organic matter, phosphorus, potassium, and moderate nitrogen enrichment. The use of seaweed amendments for agriculture offers a cost-effective method to reduce excessive algae debris and minimize the impacts of inorganic fertilization.