Chemical analysis of compost using pineapple leaves and cow dung as bio-activator

Abstract The number of area planted with pineapple at Malaysia is now increasing, especially after the fruit was recognized as one of the key crop under National Key Economic Area (NKEA). In practice, the pineapple plant remains only for one round of harvest cycle. After the fruit harvest, the leave...

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Published inIOP conference series. Earth and environmental science Vol. 756; no. 1; pp. 12080 - 12085
Main Authors Fodzilah, Nurdini I. M., Nor, Maryana Mohamad, Kayat, Fatimah Binti, Abu Bakar, Tengku Halimatun Sa’adiah T., Zakaria, Suhana, Sidik, Nik M., Redwan, Raimi M.
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.05.2021
Subjects
Ambient temperature
Cattle manure
Chemical analysis
Chemical composition
Composting
Composts
Dung
Fruits
Harvesting
Leaves
Odor
Organic fertilizers
Pineapples
Soil conditions
Soil improvement
Styrofoam
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Summary:Abstract The number of area planted with pineapple at Malaysia is now increasing, especially after the fruit was recognized as one of the key crop under National Key Economic Area (NKEA). In practice, the pineapple plant remains only for one round of harvest cycle. After the fruit harvest, the leaves is usually pruned in order to stimulate the growth of suckers for the subsequent planting cycle. The pineapple leaves contained immense potential to be developed into products such as compost. In this study, the pineapple leaves were developed into compost by using the cow dung as the bio-activator and its chemical composition was then compared with the commercial organic fertiliser by using the proximate analysis. The composting process was performed in a styrofoam box and the decomposition process took 24 days for the compost to reach the constant ambient temperature at around 35°C. At the end of the composting, the pile turned to darker black colour, and has inert earthy odour. The result showed that the compost produced using the pineapple leaves with the cow dung has 2.86% nitrogen content, 0.93% ash content, and 33.47 moisture level. These values are significantly lower in comparison to the commercial organic compost. The study signified the potential of the pineapple leaves to be developed into compost to improve the soil condition. Nevertheless, the method and its composition need to be expanded in order to improve its elements availabilities suitable as organic compost.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/756/1/012080