Byong Gu Ko scite author profile

The objectives of this study were (1) to compare the bioavailability of arsenic (As) to plants in an As-spiked agricultural soil and a naturally contaminated mine tailings, (2) to compare the theoretical ability of various chemical amendments to solubilise As in naturally contaminated mine tailings, and (3) to examine the ability of Brassica juncea (Indian mustard) plants to remove the solubilised As from the soil and tailings. The growth media used for this study included mine tailings from a gold mine in Fiji contaminated with As (683 As mg/kg) due to the presence of arsenopyrite in the mined rock, and a pasture soil from New Zealand (Manawatu sandy loam) amended with lime and/or As. Brassica juncea was grown in these substrates in a glasshouse. In a separate batch experiment, we examined the theoretical ability of several chemical extractants to solubilise As from the mine tailings. Of the tested extractants, only hydrochloric acid (HCl) and a mixture containing ammonium oxalate (NH4)2C2O4, oxalic acid, and ascorbic acid were effective in extracting As from the tailings. In the plant growth experiment, solutions of these 2 chemicals were used as soil amendments at 2 different concentrations to increase As uptake by 6-week-old, actively growing B. juncea plants. Arsenic bioavailability as a function of the growth media influenced the germination rate of B. juncea, the As concentration in the plants, and the water-soluble As concentration in the media. There was approximately a 3-fold reduction in the germination of seeds, and a 64- and 380-fold increase in As concentration in plant and soil solution, respectively, in the spiked Manawatu soil compared with the naturally contaminated Fiji mine tailings. The spiking of soil with As did not mimic naturally contaminated tailings in this experiment. The total amount of As taken up by B. juncea plants increased approximately 9 fold with the addition of the amendments. However, the phytoremediation capacity of B. juncea for As extraction in Fiji mine tailings was too low for efficient remediation even in the presence of solubilising chemicals.

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Estimation of Optimum Organic Fertilizer Application under Fertilizer Recommendation System

Kim

Park

et al. 2018

Korean J. Soil. Sci. Fert.

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Organic fertilizer has been one of soil management to improve crop productivity and soil fertility. Unfortunately, there is little information on optimum level of organic fertilizer for crop cultivation. In this study, we were tried to use the fertilizer recommendation system for determining organic fertilizer application under upland soil condition. This work was carried out; 1) to compare the effects of organic fertilizer and compost application on yields of Chinese cabbage, and 2) to estimate optimum levels on three types of organic fertilizer of 0, 50, 100, 200, and 400% with 320 kg N ha -1 . The yield of Chinese cabbage in organic fertilizer plots was ranged from 71.3 to 74.1% compared to yield index of NPK. which was 2-7 times higher than in compost treatments due to improvement of N uptake efficiency. However, organic fertilizer was required addition of about 1.5-2.0 times amount to the 4 Mg ha -1 to gain the same yield of NPK treatment, these was similar soil properties of NPK treatments. This result indicated that fertilizer recommendation system could be alternative to calculate optimum levels of organic fertilizer for crop cultivation in upland soil.

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Effect of the MicroalgaChlorella fuscaCHK0059 on Strawberry PGPR and Biological Control of Fusarium Wilt Disease in Non-Pesticide Hydroponic Strawberry Cultivation

Kim

Shim

2020

J. Microbiol. Biotechnol.

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The purpose of this study was to identify strawberry wilt pathogens and evaluate the efficacy of Chlorella fusca CHK0059 for improving plant growth and suppressing Fusarium wilt. We identified 10 isolates of wilt pathogens of non-pesticide Seolhyang strawberry plant, including Fusarium oxysporum f. sp. fragariae , using morphological and molecular analysis. On the 15 th day after 0.4% CHK0059 treatment, the plant height of the untreated control strawberry plants was significantly greater than that of the CHK0059-treated strawberry plants. After 85 days, both treatments showed a similar tendency regarding the height of the strawberry plants. However, the thickness of strawberry leaves treated with the CHK0059 was found to be 1 mm thicker than that of the untreated control. The flowering percentage of the CHK0059 plants was also 40.2% higher on average than that of the untreated control. The chlorophyll content of strawberry leaves treated with the CHK0059 was also, on average, 6.63% higher than that of the untreated control. After 90 days of the CHK0059 treatment, the incidence of Fusarium wilt in the CHK0059-treated plants had reduced by 9.8% on average compared to the untreated control. The population density of F. oxysporum f. sp. fragariae was also reduced by approximately 86.8% in the CHK0059-treated plants by comparison to the untreated control at 70 days after treatment. The results indicate that the microalga C. fusca CHK0059 is an efficient biological agent for improving strawberry plant growth and suppressing Fusarium wilt disease in organic strawberries.

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Byong Gu Ko

Solute Interactions in Soils in Relation to Bioavailability and Remediation of the Environment

Mobility of copper, chromium and arsenic from treated timber into grapevines

Potential for the phytoremediation of arsenic-contaminated mine tailings in Fiji

Estimation of Optimum Organic Fertilizer Application under Fertilizer Recommendation System

Effect of the MicroalgaChlorella fuscaCHK0059 on Strawberry PGPR and Biological Control of Fusarium Wilt Disease in Non-Pesticide Hydroponic Strawberry Cultivation

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