2.2. Measurement of compost paramet

2.2. Measurement of compost parameters
Temperature and moisture content are the two essential parameters
used to measure the efficiency of a composting process. High
temperature reflects more active microbial decomposition in the
compost material while proper moisture content ensures the sustainability
of the microbial activities (Baharuddin et al., 2009; Xiujin
et al., 2008). Measurements for the monitoring of the
temperature and moisture content of the compost materials were
started immediately when the prepared compost materials were
placed in the furrows. The measurement of temperature of the compost
materials was taken everyday at three different positions of
the furrow sections within the time range of 8 a.m.–10 a.m. A special
digital thermometer was used for the measurement of the temperature
of the compost material. The ambient temperature at the
treatment location was taken using a normal glass bulb thermometer.
Throughout the duration of the experiment, the range of ambient
temperature at the treatment location was 25–28 C.
The measurement of the moisture content of the compost material
was taken on weekly basis at three positions on each furrow
section. The determination of moisture content on the samples
was done using the oven-dry method. A total of 360 g samples
were selected from three different locations on each of the treated
compost and were placed in the oven (Memerth, model 500, W.
Germany) for 24 h at 100C temperature to dry. Then, they were
left in the desiccators for 1 h to cool down, after which they were
weighed. A Sartorios B1205 digital electronic balance with reading
accuracy to the nearest 0.0001 g was used to take the weight of the
sample for the calculation of the moisture content. The samples
were taken in three different positions so as to get the average of
moisture content of the compost material within furrow section.
2.3. Statistical analysis of data
A statistical analysis was performed on the experimental data
obtained using Statistical Analysis System (SAS) software. Analysis
of Variance (ANOVA) was conducted to determine the significance
of the treatments and time (day) and their interactions on the measured
variables as the experiment progressed. The treatments considered
were that of compost material mixed with decanter cake
slurry and of the compost without decanter cake slurry. Also, Duncan’s
Multiple Range Test was conducted to compare the means of
the treatments. In order to compare the decomposition rate of the
compost materials subjected to the respective treatments, the SAS
software was used to perform regression analysis on the temperature
and moisture content data obtained from the experiment.
2.4. Compost analysis
Initial samples of the EFB and decanter cake slurry that were
randomly taken in triplicates and sent to the UTCL Laboratory
under Enviro-Green Biotech Sdn. Bhd., Johor, Malaysia, for the
determination of chemical composition. UTCL Laboratory is a government
approved laboratory which complies with the standard
procedures for such analysis. The test was conducted in accordance
with the procedure prescribed under SIRIM MS 417: PART 3–8:
1994 standard procedure.
Analysis for the quality of the compost was done at the end of
the composting process. Three random samples were taken from
the furrows and analyzed for nitrogen, phosphorus, potassium, calcium,
organic matter, organic carbon, C/N ratio, pH and moisture
content. The 500 g sample was cut into smaller pieces and sent
to same laboratory for the analysis.