Arunsiri Kumlung scite author profile

Arunsiri Kumlung

2Publications

4Citation Statements Received

13Citation Statements Given

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Nagoya University

Publications

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Modification of sandy soil hydrophysical environment through bagasse additive under laboratory experiment

El‐Halim¹,

Kumlung²

2015

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Until now sandy soils can be considered as one roup having common hydrophysical problems. Therefore, a laboratory experiment was conducted to evaluate the influence of bagasse as an amendment to improve hydrophysical properties of sandy soil, through the determination of bulk density, aggregatesize distribution, total porosity, hydraulic conductivity, pore-space structure and water retention. To fulfil this objective, sandy soils were amended with bagasse at the rate of 0, 0.5, 1, 2, 3 and 4% on the dry weight basis. The study results demonstrated that the addition of bagasse to sandy soils in between 3 to 4% on the dry weight basis led to a significant decrease in bulk density, hydraulic conductivity, and rapid-drainable pores, and increase in the total porosity, water-holding pores, fine capillary pores, water retained at field capacity, wilting point, and soil available water as compared with the control treatment

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Estimation of Degree of Soil Reformation at Hillside Work Areas by Principal Component Analysis

Kumlung¹,

Tomatsu²,

Takeda³

et al. 1991

Journal of JSRT

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For estimating the effects of hillside works on soil reformation, undisturbed and disturbed soil samples were collected from a hillside works and their circumferences in granite region. Soil properties such as soil pH, total carbon content, total nitrogen content, solid ratio, specific gravity, volume of non-capillary pore ( in diameter) were measured. Comparing the individual soil property of both areas in relation to the lapsed years after hillside works, it was judged that the soils on the hillside work areas would gradually approach those on their circumferences (KUM-LUNG, and TAKEDA, 1991). In this paper, to estimate the soil reformation synthetically, the soil properties are subjected to principal component analysis. Results showed that principal component analysis was a useful method to estimate the degree of soil reformation at the hillside work area. Besides, it was confirmed that solid ratio and total carbon content were closely related to the degree of soil reformation at the hillside work areas. Kumlung et al.: Estimation of Degree of Soil Reformation at Hillside Work Areas by Principal Component Analysis lapsed years after hillside works (NAKASHIMA et al., 1969, and TSUTSUMI, 1963). KUMLUNG, and TAKEDA (1991) reported that each chemical and physical soilproperty on hillside work-sites would gradually approached those on their circumferences with the lapsed years after hillside works. Beside this, KUM-LUNG et al. (1991) also reported that the changes in soil properties on hillside work-sites were influenced by topographic factors such as bearings and altitudes. Generally, the interpretation of soil reformation requires simultaneous consideration of a number of soil properties. KOSAKI, and JUO (1988) stated that principal component analysis is a mathematical technique used to summarize data and investigate the relationships among variables. In this study, the principal component analysis (KENDALL, 1980) was employed to summarize the data in order to estimate the degree of soil reformation at hillside work areas.

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