Nano-potassium intercalated composted coir pith: A slow-release fertilizer suitable for laterite soils of humid tropics of India

High potassium (K)-demanding plantation crops are grown in laterite soils of the humid tropics of India; these soils generally contain low to medium K content. Nano-fertilizers offer an excellent alternative to conventional fertilizers as they release nutrients slowly for a longer period, enhancing...

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Bibliographic Details
Published in:Biocatalysis and agricultural biotechnology 2024-04, Vol.57, p.103054, Article 103054
Main Authors: Bhavishya, Subramanian, Kizhaeral Sevathapandian, Gopal, Murali, Bhat, Ravi, Nair, Swapna Shanmukan, Radhakrishnan, Malavika, Rajesh, Muliyar Krishna
Format: Article
Language:English
Subjects:
Composted coir pith
Laterite soil
Nano-potassium
Slow-release
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Summary:High potassium (K)-demanding plantation crops are grown in laterite soils of the humid tropics of India; these soils generally contain low to medium K content. Nano-fertilizers offer an excellent alternative to conventional fertilizers as they release nutrients slowly for a longer period, enhancing their use efficiency. In this study, nano-zeolite based K fertilizer (NZK) was synthesized and intercalated into raw coir pith (CNZK) and composted coir pith (CCNZK). These were characterized using X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier Transform Infrared Spectroscopy (FTIR), and UV–visible spectroscopy, and the intercalation of NZK was confirmed. The K content in CNZK and CCNZK was estimated to be 27.2% and 31.6%, respectively. Desorption studies indicated that nano-potassium fertilizer alone, and when intercalated into the composted coir pith, was found to release K slowly for a longer period (>480 h) in the laterite soils. Our study suggests that nano-potassium intercalated composted coir pith can be synthesized for slow release of K in the laterite soils of the humid tropics of India. [Display omitted] •Fertilizer composites were synthesized by encapsulating nano-K into raw coir pith (CNZK) and composted coir pith (CCNZK).•The total K content in CCNZK was 31.6%, which was 14% higher than CNZK.•CCNZK released K slowly in laterite soil for more than 480 h against 288 h in KCl.
ISSN:1878-8181
1878-8181
DOI:10.1016/j.bcab.2024.103054