Adsorption of Phosphate by Goethite and Zeolite: Effects of Humic Substances from Green Waste Compost

Compost is widely used as a natural soil conditioner and fertilizer supplement in gardening, planting and agriculture. Ability of compost to retain and release nutrients over time offers potential use for control of excessive nutrient release to the environment; this ability may be further improved...

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Bibliographic Details
Published in:Compost science & utilization 2011-06, Vol.19 (3), p.197-204
Main Authors: Gu, Zhimang, Büyüksönmez, Faith, Gajaraj, Shashikanth, Beighley, R. Edward
Format: Article
Language:English
Subjects:
Acids
additives
Adsorbents
Adsorption
carbon
Composting
composts
fulvic acids
gardening
goethite
green waste
humic acids
nutrients
Phosphates
planting
Soil conditioners
zeolites
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Summary:Compost is widely used as a natural soil conditioner and fertilizer supplement in gardening, planting and agriculture. Ability of compost to retain and release nutrients over time offers potential use for control of excessive nutrient release to the environment; this ability may be further improved by the addition of adsorbents to facilitate rapid retention of nutrients. Therefore, we investigated the effects of humic substances extracted from green waste compost on the adsorption of phosphate by goethite (a-FeOOH) and zeolite (SiO2.Al2O3). Humic acid (4.66% by dry-weight) and fulvic acid (1.26% as carbon/w) were extracted from finished compost and purified. The adsorption capacity of goethite (1.18 mmol/g) was slightly higher than zeolite's capacity (1.03 mmol/g). On the other hand, capacity of humic acid was determined much lower (0.51 mmol/g). The addition of fulvic acid resulted in a substantial reduction of adsorption capacities of all three adsorbents. Addition of 5.0 mmol/L of fulvic acid (as carbon) decreased the adsorption capacity of phosphate by goethite, zeolite and humic acid by 94%, 88% and 82%, respectively. Results of kinetics study indicated that the adsorption data fit the first-order kinetic model well with goethite exhibiting higher kinetic constants. The results of this study suggest that metal oxide adsorbents such as goethite could be applied as additives into compost to improve the nutrient holding ability.
ISSN:1065-657X
2326-2397
DOI:10.1080/1065657X.2011.10737000