Ecological Sustainability of Leaching and N Utilisation in Solanum Lycopersicum Var. Cerasiforme Via Green Synthesis of Zeolite LTA
DOI:
https://doi.org/10.58915/ijneam.v19iJune.3380Keywords:
Zeolite LTA, Nitrogen, Leaching, Cherry TomatoAbstract
A sustainable green synthesis of zeolite from kaolin was incorporated into loam to reduce leaching and improve environmental sustainability. This research determined the effects of a cation-binding mineral zeolite on nitrogen leaching, nitrogen absorption, and
cherry tomato yield in pots. There are seven distinct experimental handlings: Control High (CH); Control Attainment (CS); Control Low (CL); 2g of zeolite(2gZ); 4g of zeolite(4gZ); 6g of zeolite(6gZ); and 6g of commercial zeolite (6gIZ) grown in a greenhouse. A design
replicated 30 times. The implementation of the Least Significant Difference (LSD) post-hoc test (P≤0.05) enables the effectiveness measurement of all loam handlings towards leaching and N utilisation in loam. According to the results, 6g of zeolite shows the smallest, highly significant difference in the mean concentrations of nitrite and nitrate compared with the other handlings (p < 0.05). Regarding the average nitrogen concentration in the loam at each harvest, the 6 g zeolite handling distinctly increased the average loam nitrogen concentration compared to other handlings (p < 0.05). There was no statistically significant difference in fruit mass between handlings (p > 0.05); however, the handling with 6 g of zeolite produced the highest mean fruit mass overall. In conclusion, with the zeolite capacity expressed as Cation exchange capacity (CEC), this green-synthesised zeolite reduced water discharge from a container while increasing the average nitrogen concentration in the loam.
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