Aluminum phosphate sludge as a phosphorus source for maize production under low soil phosphorus availability

Ayaobu Tolofari; Theresa Adesanya; Francis Zvomuya; Qiuyan Yuan

doi:10.7717/peerj.13885

Aluminum phosphate sludge as a phosphorus source for maize production under low soil phosphorus availability

PeerJ. 2022 Aug 17:10:e13885. doi: 10.7717/peerj.13885. eCollection 2022.

Authors

Ayaobu Tolofari¹, Theresa Adesanya², Francis Zvomuya², Qiuyan Yuan¹

Affiliations

¹ Civil Engineering, University of Manitoba, Winnipeg, Manitoba, Canada.
² Department of Soil Science, University of Manitoba, Winnipeg, Canada.

Abstract

Background: With increasing food demand as a consequence of the growing world population, there is a corresponding demand for additional sources of phosphorus (P). Alum-phosphate (Al-P) sludge is a by-product of wastewater treatment and can be a good source of P. In this study, the response of maize (Zea mays L.) to Al-P sludge was tested. Maize was chosen as the test crop due to its prevalent use as human and animal food and as a source of biofuel. The objective of the study was to investigate Al-P sludge as a source of P compared to a commercial fertilizer (monoammonium phosphate, MAP).

Methods: A growth chamber assay was conducted over four cropping cycles (45 d each). The application rate was 9.7, 19.4, 29.1 and 38.8 mg P kg^-1 dry soil. Amendments were applied once at the start of the first cropping cycle. Plants were harvested after each cycle and pots were re-seeded. Dry matter yield (DMY), total P uptake, Al-P uptake, soil total P and Olsen-P concentrations, pH, and EC were measured.

Results: DMY was significantly greater in pots amended with Al-P sludge than in pots treated with MAP. There was a significant rate × cropping cycle interaction effect on DMY with the differences among rates in cycle 1 different from those in cycle 4. Phosphorus uptake depended on cropping cycle, P source and P application rate. With sludge uptake higher than MAP in all cycles, the highest P uptake was observed at the highest application rate except for cycle 2 where this was observed at the rate of 29.1 mg kg^-1. For MAP, phosphorus recovery efficiency (PRE) at the highest rate was significantly greater than that at the lowest rate whereas PRE in cycle 1 was significantly higher than that in cycle 4. In the first two cycles, aluminum uptake was negligible in both MAP and Al-P sludge treatments; however, in cycles 3 and 4, there was significantly more Al in maize from sludge amended pots. Our results show that Al-P sludge was as effective as MAP in supplying enough P for biomass yield. We, therefore, conclude that Al-P sludge could be an alternative source of P, especially for growing maize as feedstock for bioenergy.

Keywords: Al-P Sludge; Biofuel; Dry matter yield; Maize; Phosphorus.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Humans
Phosphates / pharmacology
Phosphorus*
Sewage
Soil*
Zea mays

Substances

Soil
Phosphorus
aluminum phosphate
Sewage
Phosphates
aluminum sulfate

Grants and funding

The Niger Delta Development Commission (NDDC) provided Ayaobu Tolofari’s graduate scholarship. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.