Composting of Oil Palm Empty Fruit Bunches with Trichoderma and Organic Nitrogen Supplementation and the Effects of the Compost on Growth of Tomato and Corn
Currently, Malaysia has 3.875 million ha of oil palm plantation. In total, about 90 million t of renewable biomass (trunks, fronds, shells, palm press fibre, and the empty b i t bunches) are produced annually. The empty h i t bunches (EFB) represent about 9 % of this total. EFB are the residue af...
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Format: | Thesis |
Language: | English English |
Published: |
2006
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Online Access: | http://psasir.upm.edu.my/id/eprint/6232/1/FP_2006_18.pdf http://psasir.upm.edu.my/id/eprint/6232/ |
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Institution: | Universiti Putra Malaysia |
Language: | English English |
Summary: | Currently, Malaysia has 3.875 million ha of oil palm plantation. In total, about 90
million t of renewable biomass (trunks, fronds, shells, palm press fibre, and the empty
b i t bunches) are produced annually. The empty h i t bunches (EFB) represent about 9
% of this total. EFB are the residue afler the fresh h i t bunches (FFB) harvested fiom
the oil palm are processed by the mill. About 22% of the processed FFB ends up as
EFB which is a good source of macro and micro nutrients. In order to add value and to
reduce the volume for easier application, composting of EFB has become increasingly
popular. By composting the properties of the organic matter are easier to handle, more
suitable as soil conditioners and organic fertilizer and do not adversely affect the
environment. However, composting of EFB is generally time consuming. Therefore,
the ability of Trichoderma and organic N was tested as activators that can accelerate the
maturity and enhance the quality of oil palm EFB compost within a shorter period of
time. In this study, screening of Trichoderma isolates was done in vitro for their ability
to decompose cellulose and production of polyphenol oxidase. Six isolates were
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selected to further study the in vitro decomposition of EFB and their phytopathogenicity
against seed germination. Biodegradation of EFB supplemented with Trichoderma and
organic N was examined, and the compost was tested for crop growth under field
condition.
The results showed that most of the Trichoderma isolates exhibited an excellent
growth performance to cellulose and tannic acid media and had a high ability to utilize
different carbon sources. Of the 71 isolates tested, 56 isolates formed a clearing zone
between 60-80 mm (75-100 % of Petri dish diameter) on Avicel substrate. Thirteen
isolates had clearing zones between 40-60 mm (50-75 % of Petri dish diameter) and two
isolates between 20-40 mm (25-50 % of Petri dish diameter). While on CMC substrate,
68 isolates formed a clear zone between 60-80 mm (75-100 % of Petri dish diameter)
and three isolates formed between 40-60 mm (50-75 % of Petri dish diameter). Besides,
68 isolates could form dark brown color on tannic acid medium. Thus, they were able to
decompose cellulose and synthesized polyphenol oxidase. Cluster analysis identified
four clusters of the isolates with the ability to degrade cellulose and tannic acid. Based
on this analysis, it was observed that 60 isolates had high ability to degrade carbon
sources. From the EFB decomposition test, six selected isolates could decrease carbon
and increased nitrogen contents at 3 until 6 weeks of decomposition thus leading to a
decrease in C/N ratio and was significantly different compared to control. The decrease
in C/N ratios of isolates T24 (T. harzianum) and T43 (T. koningii) were higher than
those of other isolates. These isolates also did not posses any harmful characters
detrimental to the crop plants, based on the plant performance against fungal biomass
(FBM) and fungal metabolite (FM) tests. Therefore, T24 and T43 were selected as the
best potential isolates for rapid composting of EFB.
Biodegradation of EFB supplemented with Trichoderma and organic N (chicken
manure) gave significant changes compared to Trichoderma or chicken manure alone.
Supplementation Trichoderma and chicken manure resulted in a higher decrease in the
percentage of cellulose (50.35 - 56.07) and hemicellulose (58.50 - 62.43). The C/N
ratio, Germination Index of tomato seeds, and plant growth of tomato profiles showed
that the compost had reached a satisfactory level of maturity on the 28" day of
composting, and was acceptable for application to soil. The contents of N, P, K, Ca,
and Mg of the 28 day-old EFB compost treated with Trichoderma and chicken manure
were 2.19 - 2.3296, 1.35 - 1.48%, 3.99 - 4.08% 3.49 - 3.67% and 1.41 - 1.63%,
respectively, and have significant inorganic fertilizer replacement value for these major
plant nutrients.
Under field condition, it showed that application of EFB compost significantly
improved the soil chemical and biological characteristics and also significantly
increased plant growth and yield. Application of EFB compost at a rate of 15 tha
seemed to be optimum for dry weight of tomato on the first planting and grain yield of
corn on the second planting. Results of this test also indicated that EFB compost and
chicken manure at the same rate (7.5 t/ha), respectively induced a similar effect in the
soil and plant growth. This means that EFB compost could be as good as chicken
manure for crop cultivation. |
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