Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia
Termites are the major decomposers in tropical region but yet their occurrences in oil palm plantation especially in peat soil are generally treated as pest. Three sampling plots of oil palm plantations in peat area with different years of palm establishment period were selected in the central re...
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my-upm-ir.780562022-01-21T01:30:00Z Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia 2013-05 Kon, Thian Woei Termites are the major decomposers in tropical region but yet their occurrences in oil palm plantation especially in peat soil are generally treated as pest. Three sampling plots of oil palm plantations in peat area with different years of palm establishment period were selected in the central region of Sarawak. These were Semanok (SM), Setuan (ST) and Sessang (SS), with years of oil palm establishment at 5-7, 6-8, 13-15 years in the sampling plot respectively. Modified belt transect sampling (50 × 6 m) was used to sample termites species. Soil block (25 × 25 × 30 cm) was collected from each of 10 points in a 50 × 50 m plot at SM site for soil macro-invertebrate study. Modified transect sampling had successfully sampled a total of 18 species of termites from 2 families (Rhinotermitidae and Termitidae), 5 subfamilies (Rhinotermitinae, Coptotermitinae, Termitinae, Macrotermitinae and Nasutitermitinae) and 11 genera (Coptotermes, Schedorhinotermes, Termes, Macrotermes, Nasutitermes, Globitermes, Amitermes, Parrhinotermes, Pericapritermes, Havilanditermes and Prohamitermes). A new species of genus Nasutitermes was found with close relationship with N. regularis. Highest species diversity was shown on site SS (H’= 2.118), followed by ST (H’= 2.048) and SM (H’= 2.002). SM and ST site shared the most similar species as compared to SS site. All plantation sites have termite dominantly feeding on rotten wood as a result of abundant dead woods in the peat soil after site clearing. This also brings the high species richness of wood-nester in SM and ST sites. Site SS had both wood nester and hypogeal nester being the highest nesting groups. Study also showed higher encounter of soil-feeding termite in longer established plantation. It indicates the gradual shifting of soil condition towards a stabilized environment which favours the successful settlement of soil feeder termite species. Results of soil invertebrate sampling in SM site showed highest species diversity in 0-10 cm layer of soil (H’= 2.25), followed by 10-20 cm (H’= 1.45) and 20-30 cm (H’= 0.74). While termite was significantly higher in relative density with increasing depth of soil (0-10 cm= 21.23%, 10-20 cm= 42.52% and 20-30 cm= 81.12%) which could be advantaged from being preyed by ants (Hymenoptera: Formicidae) which were higher in density from soil surface to 10 cm soil depth with relative density of 31.84%. Drained peat soil allowed the presence of soil invertebrates including termites, which also indicated their high tolerance to soil acidity. It is evident from this study that termite which had the ability to kill oil palm tree was attributed to Coptotermes curvignathus. Morphological study of distance of mandible tooth on worker termites showed significant difference among species under genus Coptotermes, Schedorhinotermes and Nasutitermes. Femur-tibia index also showed significant differences among species of genus Coptotermes, Schedorhinotermes and Nasutitermes. Hence, these new morphometric keys might be able to help differentiate termite which has similar morphological appearance. Molecular identification by mitochondrial DNA cytochrome oxidase II (COII) gene and 16S rRNA gene were shown to be able to identify termite species down to genus level. Identification down to species level depends on the availability of gene sequence deposited in the database. Nevertheless, the importance of conventional method shall not be ignored but to work out with molecular method for more convincing termite identification as well as to help in inferring phylogeny relationship of termite species. Termites Agricultural science Termites - Classification 2013-05 Thesis http://psasir.upm.edu.my/id/eprint/78056/ http://psasir.upm.edu.my/id/eprint/78056/1/FSPM%202013%203%20%20ir.pdf text en public masters Universiti Putra Malaysia Termites Agricultural science Termites - Classification Bong, Joseph Choon Fah |
| institution |
Universiti Putra Malaysia |
| collection |
PSAS Institutional Repository |
| language |
English |
| advisor |
Bong, Joseph Choon Fah |
| topic |
Termites Agricultural science Termites - Classification |
| spellingShingle |
Termites Agricultural science Termites - Classification Kon, Thian Woei Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| description |
Termites are the major decomposers in tropical region but yet their occurrences in
oil palm plantation especially in peat soil are generally treated as pest. Three
sampling plots of oil palm plantations in peat area with different years of palm
establishment period were selected in the central region of Sarawak. These were
Semanok (SM), Setuan (ST) and Sessang (SS), with years of oil palm establishment
at 5-7, 6-8, 13-15 years in the sampling plot respectively. Modified belt transect
sampling (50 × 6 m) was used to sample termites species. Soil block (25 × 25 × 30
cm) was collected from each of 10 points in a 50 × 50 m plot at SM site for soil
macro-invertebrate study. Modified transect sampling had successfully sampled a
total of 18 species of termites from 2 families (Rhinotermitidae and Termitidae), 5
subfamilies (Rhinotermitinae, Coptotermitinae, Termitinae, Macrotermitinae and
Nasutitermitinae) and 11 genera (Coptotermes, Schedorhinotermes, Termes,
Macrotermes, Nasutitermes, Globitermes, Amitermes, Parrhinotermes,
Pericapritermes, Havilanditermes and Prohamitermes). A new species of genus Nasutitermes was found with close relationship with N. regularis. Highest species
diversity was shown on site SS (H’= 2.118), followed by ST (H’= 2.048) and SM
(H’= 2.002). SM and ST site shared the most similar species as compared to SS site.
All plantation sites have termite dominantly feeding on rotten wood as a result of
abundant dead woods in the peat soil after site clearing. This also brings the high
species richness of wood-nester in SM and ST sites. Site SS had both wood nester
and hypogeal nester being the highest nesting groups. Study also showed higher
encounter of soil-feeding termite in longer established plantation. It indicates the
gradual shifting of soil condition towards a stabilized environment which favours
the successful settlement of soil feeder termite species. Results of soil invertebrate
sampling in SM site showed highest species diversity in 0-10 cm layer of soil (H’=
2.25), followed by 10-20 cm (H’= 1.45) and 20-30 cm (H’= 0.74). While termite
was significantly higher in relative density with increasing depth of soil (0-10 cm=
21.23%, 10-20 cm= 42.52% and 20-30 cm= 81.12%) which could be advantaged
from being preyed by ants (Hymenoptera: Formicidae) which were higher in density
from soil surface to 10 cm soil depth with relative density of 31.84%. Drained peat
soil allowed the presence of soil invertebrates including termites, which also
indicated their high tolerance to soil acidity. It is evident from this study that termite
which had the ability to kill oil palm tree was attributed to Coptotermes
curvignathus. Morphological study of distance of mandible tooth on worker termites
showed significant difference among species under genus Coptotermes,
Schedorhinotermes and Nasutitermes. Femur-tibia index also showed significant
differences among species of genus Coptotermes, Schedorhinotermes and
Nasutitermes. Hence, these new morphometric keys might be able to help
differentiate termite which has similar morphological appearance. Molecular identification by mitochondrial DNA cytochrome oxidase II (COII) gene and 16S
rRNA gene were shown to be able to identify termite species down to genus level.
Identification down to species level depends on the availability of gene sequence
deposited in the database. Nevertheless, the importance of conventional method
shall not be ignored but to work out with molecular method for more convincing
termite identification as well as to help in inferring phylogeny relationship of
termite species. |
| format |
Thesis |
| qualification_level |
Master's degree |
| author |
Kon, Thian Woei |
| author_facet |
Kon, Thian Woei |
| author_sort |
Kon, Thian Woei |
| title |
Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| title_short |
Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| title_full |
Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| title_fullStr |
Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| title_full_unstemmed |
Identification and diversity or termite (Insecta: Isoptera) in oil palm plantation on peat soil in Sarawak, Malaysia |
| title_sort |
identification and diversity or termite (insecta: isoptera) in oil palm plantation on peat soil in sarawak, malaysia |
| granting_institution |
Universiti Putra Malaysia |
| publishDate |
2013 |
| url |
http://psasir.upm.edu.my/id/eprint/78056/1/FSPM%202013%203%20%20ir.pdf |
| _version_ |
1747813278315184128 |