Your search keyword '"Nutrient bioavailability"' showing total 2 results

1. Enhanced recovery of waste-born nutrients from sewage sludge ash and fish meal through fungal treatment: Mechanistic insights and impact of heavy metals.

Author

Michellin Kiruba N, Jennifer, Zielinski, Jakub, Winiarski, Julius, Galanty, Agnieszka, Dobrowolska-Iwanek, Justyna, Fotopoulos, Vasileios, and Saeid, Agnieszka

Subjects

*SEWAGE sludge ash, *FISH meal, *WASTE treatment, *BACTERIAL leaching, *ORGANIC acids

Abstract

[Display omitted] • Fungal treatment increased phosphate recovery to 16 % at 10 g/L waste. • Fungal treatment boosted bioavailability of P, Mg, and Fe, but reduced NAC-K. • Heavy metals Pb and Cd didn't affect nutrient bioavailability up to 10 g/L waste. • Fungal treatment enhanced water-extractable P up to 15 g/L waste. • Fungal treatment induced low molecular weight organic acids (LMWOAs). This study investigates the potential of Talaromyces adpressus TCPF to enhance phosphate recovery and nutrient bioavailability from sewage sludge ash (SSA) and fish meal (FM) through co-fermentation. The fungal treatment was found to significantly increase phosphate recovery, achieving up to 16 % efficiency, especially at a 10 g/L waste concentration. The key mechanism behind this enhancement is the production of low molecular weight organic acids (LMWOAs), which played a crucial role in solubilizing nutrients while also mitigating the negative effects of heavy metals like lead and cadmium. Spectroscopic analyses confirmed substantial acid-based leaching and biomineralization processes, with over 70 % of phosphorus successfully bioleached from metal-treated waste. These findings underscore the effectiveness of fungal treatments in transforming waste substrates into valuable bio-organic fertilizers. Fungal treatment boosts phosphate recovery, even in the presence of heavy metals, by employing processes such as bioweathering, bioprecipitation, biocorrosion, and bioleaching. [ABSTRACT FROM AUTHOR]

Published

2024

2. Indispensable role of biochar-inherent mineral constituents in its environmental applications: A review.

Author

Xu, Xiaoyun, Zhao, Yinghao, Sima, Jingke, Zhao, Ling, Cao, Xinde, and Mašek, Ondřej

Subjects

*BIOCHAR, *CARBON sequestration, *BIOAVAILABILITY, *POLLUTANTS, *SORPTION techniques, ENVIRONMENTAL aspects

Abstract

Biochar typically consists of both carbon and mineral fractions, and the carbon fraction has been generally considered to determine its properties and applications. Recently, an increasing body of research has demonstrated that mineral components inherent in biochar, such as alkali or alkaline earth metals in the form of carbonates, phosphates, or oxides, could also influence the properties and thus the applications. The review articles published thus far have mainly focused on multiple environmental and agronomic applications of biochar, including carbon sequestration, soil improvement, environmental remediation, etc. This review aims to highlight the indispensable role of the mineral fraction of biochar in these different applications, especially in environmental applications. Specifically, it provides a critical review of current research findings related to the mineral composition of biochar and the effect of the mineral fraction on the physicochemical properties, contaminant sorption, carbon retention and stability, and nutrient bioavailability of biochar. Furthermore, the role of minerals in the emerging applications of biochar, as a precursor for fuel cells, supercapacitors, and photoactive components, is also summarized. Overall, inherent minerals should be fully considered while determining the most appropriate application for any given biochar. A thorough understanding of the role of biochar-bound minerals in different applications will also allow the design or selection of the most suitable biochar for specific applications based on the consideration of feedstock composition, production parameters, and post-treatment. [ABSTRACT FROM AUTHOR]

Published

2017