Biomass ashes and their phosphorus fertilizing effect on different crops

Abstract: The reutilization of biomass ashes in agriculture is an important issue to create nutrient cycles and to save fertilizer. To analyse the P fertilization effect of crop biomass ashes (rape meal ash (RMA), straw ash (SA), and cereal ash (CA)) in interaction with different crops, two pot experiments with a poor loamy sand deficient in P were carried out. Besides the three ash treatments, other treatments included triple superphosphate (TSP) as a high soluble P source, potassium chloride (KCl) as a high soluble K … Show more

“…Suspensions of 0.5 g of biomass ash were put into contact with 50 mL of 0.1 M NaNO 3 solutions with different pH values (3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14), adjusted with HNO 3 and NaOH. The suspensions were agitated for 8 h in a shaker at 350 rpm until an equilibrium pH value was reached.…”

The Physicochemical Properties and Composition of Biomass Ash and Evaluating Directions of its Applications

“…Suspensions of 0.5 g of biomass ash were put into contact with 50 mL of 0.1 M NaNO 3 solutions with different pH values (3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14), adjusted with HNO 3 and NaOH. The suspensions were agitated for 8 h in a shaker at 350 rpm until an equilibrium pH value was reached.…”

The Physicochemical Properties and Composition of Biomass Ash and Evaluating Directions of its Applications

“…Secondly, soil nutrient availability is determined by a combination of three factors: (i) nutrient addition from the ash; (ii) shifts in pH-dependent soil chemical equilibria; and (iii) the extent of change in soil microbial activity. Thus, CFA and wood ash do not seem to be optimal sources of plant available P, particularly when compared with biomass ash (Schiemenz and Eichler-Lobermann, 2010).…”

“…However, P in CFA is often in forms that are not readily plant available (Page et al, 1979;Adriano et al, 1980;Jala and Goyal, 2006). In comparison with CFA, biomass ash contains high concentrations of P that range from 0.01% in bagasse ash (Jamil et al, 2004) to 10.4% in cereal biomass ash (Eichler et al, 2008;Schiemenz and Eichler-Lobermann, 2010;Schiemenz et al, 2011). Schiemenz et al (2011) reported that the water soluble P in biomass ash is low; however, about 80% of P is soluble in citric acid, which is potentially bioavailable.…”

“…In comparison with CFA, biomass ash contains high concentrations of P that range from 0.01% in bagasse ash (Jamil et al, 2004) to 10.4% in cereal biomass ash (Eichler et al, 2008;Schiemenz and Eichler-Lobermann, 2010;Schiemenz et al, 2011). Schiemenz et al (2011) reported that the water soluble P in biomass ash is low; however, about 80% of P is soluble in citric acid, which is potentially bioavailable. Generally, the P fertilizing effect of biomass ashes is comparable to that of highly soluble P fertilizers such as triple superphosphate (Schiemenz et al, 2011).…”

“…Schiemenz et al (2011) reported that the water soluble P in biomass ash is low; however, about 80% of P is soluble in citric acid, which is potentially bioavailable. Generally, the P fertilizing effect of biomass ashes is comparable to that of highly soluble P fertilizers such as triple superphosphate (Schiemenz et al, 2011).…”

Opportunities and challenges in the use of coal fly ash for soil improvements – A review

Introduction to Cellulosic Energy Crops