Characterization and Amelioration of Selected Acid Sulfate Soils in Malaysia
Researchers in the past had focused their study on the common or standard acid sulfate soils, which are characterized by high iron and the presence of jarosite mottles. Little is known about the characteristics and management of iron-poor acid sulfate soils and this study was conducted to provide...
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| Format: | Thesis |
| Language: | English English |
| Published: |
2001
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/10549/1/FP_2001_9.pdf http://psasir.upm.edu.my/id/eprint/10549/ |
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| Institution: | Universiti Putra Malaysia |
| Language: | English English |
| Summary: | Researchers in the past had focused their study on the common or standard
acid sulfate soils, which are characterized by high iron and the presence of jarosite
mottles. Little is known about the characteristics and management of iron-poor acid
sulfate soils and this study was conducted to provide the dearth of information. This
study aimed to characterize and ameliorate acid sulfate soils in Malaysia. Three
common acid sulfate soils in Malaysia namely Teluk, Jawa and Linau series were
investigated in three phases. The first phase was concentrated on the characterization
of the soils. The second phase dealt with laboratory incubation experiments to study
oxidation processes. The third phase was on the ameliorative effects of organic
materials, lime, phosphate and silicate application on acid sulfate soils.
Results of the study revealed the presence of both iron-rich and iron-poor
acid sulfate soils in Malaysia. The former, represented by the Teluk and Jawa soils,
had thick accumulation of iron in the B-horizon. They followed the standard
morphological profile commonly found under tropical monsoon climate. The latter,
represented by the Linau soil, was low in iron content in the B-horizon. They followed the standard
morphological profile commonly found under tropical monsoon climate. The latter,
represented by the Linau soil, was low in iron content in the B-horizon. The low content of iron was most probably due to high organic content enhanced by wet
climate in Malaysia. The formation of Fe (III) oxide was hindered when the
environment was rich in organics.
Incubation study indicated that oxidation of pyrite resulted in a decrease in
pH and the formation of jarosite which, in tum, transformed into short-range order
Fe-oxides. The yellow mottles formed during pyrite oxidation were
jarosite/natrojarosite and alunite as detected by X-ray diffraction analysis. The
oxidation of pyrite was retarded by addition of phosphate and silicate. The
retardation of pyrite oxidation was probably due to coating of insoluble materials on
the pyrite surface. |
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