Nutrient loss in runoff and growth response of immature oil palm following application of controlled-release fertilizers
Implementation of sound fertilizer management program in the tropics is essential in optimizing production and economic returns. Controlled-release fertilizers (CRFs) are intended to supply plant nutrients in synchrony with crop demand, which should ultimately minimize nutrient loss from crop...
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| Main Author: | |
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| Format: | Thesis |
| Language: | English |
| Published: |
2015
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/67838/1/fp%202015%2060%20ir.pdf |
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| Summary: | Implementation of sound fertilizer management program in the tropics is essential in
optimizing production and economic returns. Controlled-release fertilizers (CRFs) are
intended to supply plant nutrients in synchrony with crop demand, which should
ultimately minimize nutrient loss from crop fields. Studies on the fate and plant
response of CRFs in tropical oil palm agro-ecological fields are still lacking. In this
study, a one-year field trial was established to investigate whether application of CRFs
rather than conventional water-soluble mixture fertilizer can reduce nutrient loss and
enhance growth of oil palm at the immature stage. Soil and nutrient loss were
monitored in 2012/2013 under erosion plots of 16 m2 each planted with immature old
oil palm tree on a 10% slope gradient. Fertilizer treatments applied included granular
and briquette forms of CRFs (AJIB® CRF) in 100% and 60% dosages, a conventional
mixture fertilizer in 100% dosage and an unfertilized control. Water Erosion Prediction
Project (WEPP) model was also used to predict runoff and soil erosion from the study
field. On an annual basis, mean sediments concentration in runoff amounted to about
6.41 t ha-1. On average, total captured runoff as percentage of annual rainfall amounted
to 14 %, with yearly total rainfall events of 219 days. Nutrient loss was higher from
mixture fertilizer treatments than those treated with CRF. Runoff loss of N was greater
(p=≤0.001) in plots that received conventional mixture fertilizer, amounting to 7% of
ammonium sulfate-N applied, and that with CRF application accounted for between 1-
2% N loss. Runoff P losses were usually lower for all fertilized treatments than
unfertilized control. Large runoff losses of K (13%) and Mg (15%) were observed in
plots that received mixture fertilizer. However, runoff losses of K and Mg from applied
CRFs were in the range of 4-7%. Meanwhile, runoff process exported less sedimentassociated
nutrients, ranging from 0.39-0.93 kg N, 0.15-0.31 kg P, 1.03-2.14 kg K and
0.17-0.29 kg Mg ha-1 yr-1 in fertilized plots. Total yearly precipitation, number of
rainfall events and soil loss were predicted fairly well by the WEPP model with a mean
difference of 2% and 4% and 15%, respectively. However, the actual and simulated
yearly runoff volume differed by 36%. Also, the WEPP model showed good tendency
to predict monthly precipitation (r2 = 0.57), rainfall days (r2 = 0.79) and soil erosion (r2 = 0.62). Prediction of monthly runoff was less accurate (r2 = 0.32). Plant growth
parameters such as frond number and bole diameter were significantly greater with
granular CRF (100%) than the control and mixture treatments. In conclusion, CRFs
proved effective in maintaining robust oil palm growth and in reducing runoff associated nutrient loss compared to mixture fertilizer. This could be attributed to the
fact that nutrient elements in CRFs are readily and slowly available for plant uptake
over a given period. |
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