A Dual Isotope Protocol to Separate the Contributions to Phosphorus Content of Maize Shoots and Soil Phosphorus Fractions from Biosolids, Fertilizer and Soil

Graeme Blair ,Richard J. Flavel ,J. Scott Davis

doi:10.12944/carj.6.3.02

Graeme Blair , Richard J. Flavel + Show 1 more

Open Access

https://doi.org/10.12944/carj.6.3.02

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Abstract

Separation of the phosphorus (P) contributions from soil, fertilizer and biosolids to plants has not been possible without the aid of radioisotopes. Dual labelling of soil with 32P and fertilizer with 33P isotopes has been used to partition the sources of P in maize (Zea mays) shoots and in soil P pools. Biosolids containing 4.1% P that had been prepared using Fe and Al were applied to a Kurosol soil from Goulburn, NSW, Australia. The biosolids were applied at five rates up to 60 dry t/ha with and without P fertilizer. Phosphorus derived from fertilizer was determined directly with33 P and that from soil by32 P reverse dilution. Phosphorus derived from biosolids was estimated as the difference between total P and that derived from the soil plus fertilizer calculated from isotope data. Yield and P content of maize shoots increased linearly with the rate of biosolidsapplication. The proportion of P in the plant derived from biosolids also increased with application rate up to 88% for the soil receiving biosolids at 60 dry t/ha with no fertilizer. The corresponding value with fertilizer applied at 80 kg P/ha was 69%. The proportion of P in the maize shoots derived from soil and fertilizer decreased as biosolids application rate increased. Soil total P, bicarbonate extractable P, Al-P, Fe-P and Ca-P increased with biosolids application rate. The increase in plant P uptake and in bicarbonate extractable P in the soil shows that biosolids P provides a readily available source of P. A decrease in uptake of fertilizer and soil P with increasing biosolids application is attributed to the decrease in the proportion of P from these sources in the total pool of available P, rather than to immobilization of P by Fe and Al in the biosolids.

Highlights

Biosolids are highly variable products that can range in composition depending on the treatment process, source, weather and temperature
Biosolids can be applied to agricultural land as a soil amendment with fertilizer properties to improve the growth of plants and to improve the fertility of the soil
The proportion of P in the maize tops derived from the fertilizer decreased from 55.3 % to 6.3 % between the 0 and 60 dry t of biosolids / ha (Figure 2)

Summary

Introduction

Biosolids (formerly known as sewage sludge) are highly variable products that can range in composition depending on the treatment process, source, weather and temperature. It is difficult to produce a standard, homogeneous biosolids. Product to enable the fertilizer potential of treated biosolids to be evaluated. Biosolids contain high concentrations of P and organic matter,[1] and most of the fertilizer value of biosolids is due to P2. Nitrogen is present in biosolids and contributes N to the soil. There are many ions in soil that have the potential to react with P, especially Fe, Al and Ca. Precipitation and sorption reactions of P with these elements have the potential to reduce the bioavailability of P

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