Bioremediation Bentazon using Minari(Oenanthe stolonifera DC.) Plant.

미나리(Oenanthe stolonifera DC.)를 이용한 Bentazon의 생물학적 분해

Laboratory experiments were conducted to the potential ability of bioremediation with bentazon such as determining the absorption, translocation, and metabolism of $^{14}C-Bentazon$ in minari after foliar applications. The absorption and translocation of $^{14}C-bentazon$ were compared when applied to foliar of minari. In foliar applications, 21% was observed in treated leaves, 66% remained in water extracts of leaf surfaces, and 13% was found in the epicuticular wax layer after 2d. Translocation of the herbicide from treated leaves to roots was very low(79 to 9%). Analysis of methanol-soluble extracts of $^{14}C$ indicated that more than 60% of the foliarapplied herbicide was metabolized in all plant sections after 2d. However, 77% or more of the bentazon was degraded in roots and shoots 2d after root absorption. The major metabolite in these experiments was an unknown compound that was less polar than bentazon and 6- and 8-hydroxy bentazon.

Bentazon의 잔류를 제거하기 위한 미나리의 생물학적 정화능력을 검정코자 $^{14}C-Bentazon$의 흡수(uptake)와 이행(translocation), 그리고 분해(metabolism) 실험을 통하여 비교 실험하였다. 잎에 처리한지 2일 후에 있어서 $^{14}C$의 21%가 처리된 잎에서 관측되었고, 66%는 잎 표면을 물로 세척한 곳에 잔류하고 있었으며, 나머지 13%는 epicuticular wax층에서 발견되었다. Bentazon을 처리한 잎으로부터 $^{14}C$의 79%가 검출되었으며, 뿌리에는 9%만이 검출되어 잎으로부터 뿌리로의 이행은 매우 적었다. 처리한 2일후에 $^{14}C$의 methanol 추출물 분석에서 잎에 처리된 제초제의 60% 이상이 모든 식물체 부위에서 분해되었다. 본 실험에서 발견된 주요 bentazon의 분해물(Metabolites)은 bentazon이나 6-hydroxy 혹은 8-hydroxy bentazon 보다 덜 이온화(Polar)된 알려지지 않은 신 물질(unknown compound)이었다.