Production and evaluation of seaweed-containing plant growth adjuvant formulation

Seaweed has long been known to be an effective fertilizer improving soil quality and also a biostimulant of plant growth. Seaweed contains all the macro and micronutrients needed for plant growth (Verkleij 1992). Also, it has nitrogen (N) content similar to that of most animal manures, high content in potassium (K) (especially brown seaweed) and a modest amount of phosphorus (P) (Stephenson 1974; Senn and Kingman 1978). Seaweed improves soil quality, mainly as a result of its high content in phycocolloids resulting in increased structure, water retention and exchange capacity (Metting et!al. 1990; Lynn 1972; Khan et!al. 2009). By virtue of its high Calcium (Ca) content and the presence of alginates capable of binding aluminium, seaweeds additionally have liming effects (Crouch et! al. 1990; López- Mosquera and Pazos 1997; Eyras et! al. 1998). Also, it facilitates the growth of bene"cial microbiota, thereby increasing biological activity in soil (Kuwada et!al. 2000, 2006; Chen et!al. 2003; Khan et!al. 2009).info:eu-repo/semantics/publishedVersio

Evaluation of compost from seaweed and fish waste as a fertilizer for horticultural use

Composting may be an effective process for treating fish waste and drift seaweed to recover organic matter and nutrient resources and to produce fertilizers for organic agriculture. The aim of this study was to evaluate the use of this type of compost as a fertilizer in a horticultural crop rotation. A greenhouse trial was carried out to test the effects of the compost on a tomato crop and its residual effects on the succeeding lettuce crop. Different compost rates (C1, C2 and C3: 40 t ha(-1), 50 t ha(-1) and 66 t ha(-1)) were compared to single rates of a mineral fertilizer (M) and of a certified organic fertilizer made from dehydrated broiler litter (BL) as well as to the control treatment, which lacked fertilization (C). Tomato yield increased significantly (5.56 kg plant(-1)) with the highest rate of compost compared to the mineral and control treatments (4.54 and 4.58 kg plant(-1), respectively). This increased yield was associated with an increase in the diameter and weight of the fruits. Moreover, the lettuce yield improved with compost rates C2 (395 g lettuce(-1)) and C3 (367 g lettuce(-1)), showing a strong residual effect of the compost. This compost is suitable as organic soil fertilizer and may be recommended for improving horticultural crop yields.The authors acknowledge funding from Xunta de Galicia (Projects PGIDT05TAM097E and 09MRU016291PR and a post graduate grant for Marta Illera-Vives) and from Banco Santander (Mobility grant).info:eu-repo/semantics/publishedVersio