Mitigating water pollution by nitrogen fertilizers through amending ammonium sorption in an acid soil using Calciprill and sodium silicate

Ji, Feng Nga and Osumanu Haruna Ahmed and Latifah Omar and Mohamadu Boyie Jalloh and Yee, Min Kwan and Adiza Alhassan Musah and Ahmed Jalal Khan Chowdhury and Rafeah Wahi and Deborah Renting Jimmy (2024) Mitigating water pollution by nitrogen fertilizers through amending ammonium sorption in an acid soil using Calciprill and sodium silicate. Desalination and Water Treatment, 319. pp. 1-10. ISSN 1944-3986

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Abstract

Use of nitrogen (N) fertilizers is gaining popularity to meet crop nutrient requirement for sustaining the food security of the increasing global population. However, improper management of N fertilizers in acid soils causes leaching and surface runoff because of excessive rainfalls and poor N retention in the tropics in particular. This results in N pollution in water bodies (also known as eutrophication), which degrades water quality to the detriment of aquatic ecosystems near farms. Thus, there is a need for using inorganic soil amendments such as Calciprill and sodium silicate to improve soil N adsorption because of the alkalinity and ability of these amendments to retain N for mitigating excessive N contamination in water bodies. To this end, this N sorption study was conducted to determine the effects of Calciprill and sodium silicate on ammonium (NH₄⁺) adsorption and desorption in an acid soil (Bekenu series, Typic Paleudults). The soil was co-applied with different rates of Calciprill (80 %, 90 %, and 100 % Ca saturations) and sodium silicate (90, 105, 120, 135, and 150 kg ha⁻¹), followed by the NH₄⁺ adsorption capacity determination through the additions of NH₄⁺ isonormal solutions at the five concentrations (0, 25, 50, 75, and 100 mg L⁻¹) to establish a linear relationship between the amount of NH₄⁺ absorbed (qe) and the amount of NH₄⁺ left in the solution (Cₑ) after 24 h of equilibration. Apart from the soil only without any amendment (C0S0), there were another two additional treatments where the soil was added with Calciprill (100 % Ca saturation) (C3) and sodium silicate only (150 kg ha⁻¹) (S5) to determine their respectively effects on N sorption. The collected data were fitted to the Langmuir and Freundlich isotherms. Thereafter, NH₄⁺ desorption was determined using the same soil samples added with 2 mol dm⁻³. Compared with the soil without any amendment (C0S0), the Calcirpill alone (C3) and the combined use of Calciprill and sodium silicate significantly increased NH₄⁺ adsorption at the NH₄⁺ addition of 250 mg L̶1, suggesting that Calciprill is the amendment which dominantly increases NH₄⁺ adsorption and the effects of amendments are more pronounced at the lower soil NH₄⁺ concentration. The results also revealed that the NH₄⁺ adsorption in the soils following the co-application of Calciprill and sodium silicate followed the assumption of Freundlich isotherm. Regardless of the NH₄⁺ concentration used, the effects of Calciprill and sodium silicate on the NH₄⁺ desorption remain unclear, which could be because of the ability of sodium silicate to stabilize the soil structure. This stabilization reaction might have impeded the dissolution of Calciprill and temporarily fixed the absorbed NH₄⁺. These findings suggest that it is possible to use the amendments to amend NH₄⁺ sorption in Bekenu series for mitigating NH₄⁺ leaching and runoff to prevent eutrophication.

Item Type:	Article
Keyword:	Adsorption, Calcium carbonate, Desorption, Freundlich isotherm, Langmuir isotherm, Piper nigrum, Silicon, Water quality
Subjects:	S Agriculture > S Agriculture (General) > S1-(972) Agriculture (General) > S604.8-621.5 Melioration: Improvement, reclamation, fertilization, irrigation, etc., of lands T Technology > TD Environmental technology. Sanitary engineering > TD1-1066 Environmental technology. Sanitary engineering > TD201-500 Water supply for domestic and industrial purposes > TD419-428 Water pollution
Department:	FACULTY > Faculty of Sustainable Agriculture
Depositing User:	SITI AZIZAH BINTI IDRIS -
Date Deposited:	21 Aug 2024 16:45
Last Modified:	21 Aug 2024 16:45
URI:	https://eprints.ums.edu.my/id/eprint/40770

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