Hydrological quantification of oil palm catchments for an improved streamflow modelling

Despite the encouraging numbers of hydrological studies conducted in Malaysia, relatively little quantitative information is available to date on the effects of establishing or replanting oil palm. The hydrological properties of oil palm catchments in Sedenak Estate, Johore, were examined by establi...

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Main Authors: Yusop, Zulkifli, Chong , Meng Hui, Abu Bakar, Siti Nurhidayu, Mohamed, Maketab, Mohd. Nasir, Kamarul Azlan, Nik, Abdul Rahim
Format: Monograph
Published: Faculty of Chemical and Natural Resource Engineering 2007
Online Access:http://eprints.utm.my/id/eprint/9122/
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spelling my.utm.91222017-08-14T07:54:57Z http://eprints.utm.my/id/eprint/9122/ Hydrological quantification of oil palm catchments for an improved streamflow modelling Yusop, Zulkifli Chong , Meng Hui Abu Bakar, Siti Nurhidayu Mohamed, Maketab Mohd. Nasir, Kamarul Azlan Nik, Abdul Rahim Despite the encouraging numbers of hydrological studies conducted in Malaysia, relatively little quantitative information is available to date on the effects of establishing or replanting oil palm. The hydrological properties of oil palm catchments in Sedenak Estate, Johore, were examined by establishing three experimental catchments. Each catchment represents different growing stage of oil palm, i.e., C1 (2 years), C2 (5 years) and C3 (8 years). In general, the storm hydrographs of all catchments are flashy and comparable to forested catchments. The time to peak ranges from 5 to 115 minutes with an average of 53 minutes. On an evently basis, baseflow contributes between 65% and 74% of the total flow. Stormflow and peakflow are strongly correlated with rainfall. The threshold rainfalls that produce stormflow are very similar in all the three catchments, between 14.4 mm and 14.9 mm. Evapotranspiration (ET) rates were estimated using five methods, namely the Penman, Penman-Monteith, Blaney-Criddle, Short-time Period Waterbudget (SPWB) and Water Balance models. Among these models, the ET values estimated by Penman, Penman-Monteith and SPWB show comparable trends and magnitudes whilst the Blaney-Criddle gives relatively high values. On the other hand, the ET values derived from Water Balance show large fluctuations. It is possible to improve the ET estimates by taking into account the spatial variation in soil moisture. The newly planted catchment, C1 has better hydrological properties in term of Minimum Contributing Area (MCA) compared to the more established and matured catchment, C3. The higher MCA value in C3 is attributed to compacted ground surface due to the passage of fruit harvesting machinery and dying off of cover crop. It is important to establish cover crop species that are more shade tolerant to reduce surface runoff. Faculty of Chemical and Natural Resource Engineering 2007-06-30 Monograph NonPeerReviewed Yusop, Zulkifli and Chong , Meng Hui and Abu Bakar, Siti Nurhidayu and Mohamed, Maketab and Mohd. Nasir, Kamarul Azlan and Nik, Abdul Rahim (2007) Hydrological quantification of oil palm catchments for an improved streamflow modelling. Project Report. Faculty of Chemical and Natural Resource Engineering, Skudai, Johor. (Unpublished)
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
description Despite the encouraging numbers of hydrological studies conducted in Malaysia, relatively little quantitative information is available to date on the effects of establishing or replanting oil palm. The hydrological properties of oil palm catchments in Sedenak Estate, Johore, were examined by establishing three experimental catchments. Each catchment represents different growing stage of oil palm, i.e., C1 (2 years), C2 (5 years) and C3 (8 years). In general, the storm hydrographs of all catchments are flashy and comparable to forested catchments. The time to peak ranges from 5 to 115 minutes with an average of 53 minutes. On an evently basis, baseflow contributes between 65% and 74% of the total flow. Stormflow and peakflow are strongly correlated with rainfall. The threshold rainfalls that produce stormflow are very similar in all the three catchments, between 14.4 mm and 14.9 mm. Evapotranspiration (ET) rates were estimated using five methods, namely the Penman, Penman-Monteith, Blaney-Criddle, Short-time Period Waterbudget (SPWB) and Water Balance models. Among these models, the ET values estimated by Penman, Penman-Monteith and SPWB show comparable trends and magnitudes whilst the Blaney-Criddle gives relatively high values. On the other hand, the ET values derived from Water Balance show large fluctuations. It is possible to improve the ET estimates by taking into account the spatial variation in soil moisture. The newly planted catchment, C1 has better hydrological properties in term of Minimum Contributing Area (MCA) compared to the more established and matured catchment, C3. The higher MCA value in C3 is attributed to compacted ground surface due to the passage of fruit harvesting machinery and dying off of cover crop. It is important to establish cover crop species that are more shade tolerant to reduce surface runoff.
format Monograph
author Yusop, Zulkifli
Chong , Meng Hui
Abu Bakar, Siti Nurhidayu
Mohamed, Maketab
Mohd. Nasir, Kamarul Azlan
Nik, Abdul Rahim
spellingShingle Yusop, Zulkifli
Chong , Meng Hui
Abu Bakar, Siti Nurhidayu
Mohamed, Maketab
Mohd. Nasir, Kamarul Azlan
Nik, Abdul Rahim
Hydrological quantification of oil palm catchments for an improved streamflow modelling
author_facet Yusop, Zulkifli
Chong , Meng Hui
Abu Bakar, Siti Nurhidayu
Mohamed, Maketab
Mohd. Nasir, Kamarul Azlan
Nik, Abdul Rahim
author_sort Yusop, Zulkifli
title Hydrological quantification of oil palm catchments for an improved streamflow modelling
title_short Hydrological quantification of oil palm catchments for an improved streamflow modelling
title_full Hydrological quantification of oil palm catchments for an improved streamflow modelling
title_fullStr Hydrological quantification of oil palm catchments for an improved streamflow modelling
title_full_unstemmed Hydrological quantification of oil palm catchments for an improved streamflow modelling
title_sort hydrological quantification of oil palm catchments for an improved streamflow modelling
publisher Faculty of Chemical and Natural Resource Engineering
publishDate 2007
url http://eprints.utm.my/id/eprint/9122/
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score 13.211869