Recycling Manure as Vermicompost: Assessing Phosphorus Fertilizer Efficiency and Effects on Soil Health Under Different Soil Management
Juan Nieto Cantero, Ana María García‐López, Ramiro Recena, José Manuel Quintero, Antonio Delgado
Abstract
Abstract Vermicompost from organic wastes can provide nutrients and benefits to soil health. Its effects on P availability to plants is still poorly understood, specially under different soil management practices. This work aimed to assess vermicompost as a P fertilizer able to enhance soil functioning. Phosphorus forms of vermicompost were studied by 31 P NMR and chemical P fractionation to explain its efficiency as fertilizer. This efficiency was assessed with a pot experiment using soil from two different soil management (conventional tillage–CT – and non-tillage–NT–) and from two depths (0–5 and 20–40 cm). Under NT, the soil showed a higher initial P bioavailability than under CT. In vermicompost, 65% of total P corresponded to ortophosphate, meanwhile 35.4% was extractable with neutral ammonium citrate. Overall, vermicompost increased the physiological P use efficiency by 87% compared to mineral fertilization, this increase being greater under CT (107%) than under NT (70%). Replacement values on a dry matter basis close or even higher than 100% were observed under CT and in subsurface soils under NT, conditions with the lowest P availability to plants. Vermicompost boosted microbial diversity in soils (by 8% according to Shannon index) and alkaline phosphatase and phytase activities, specially under NT. Vermicompost increased Fe and Zn uptake, while decreased the P to Zn molar ratio in spikes. Vermicompost can be a suitable replacement for P mineral fertilizer, in particular in soils with low P availability, providing further benefits such as improved Fe and Zn nutrition and increased microbial diversity and P cycling capacity in soils. Graphical Abstract