초록
이 연구(硏究)는 도시유기폐물(都市有機廢物)을 이용(利用)한 유기질비료(有機質肥料)로서 활성오니(活性汚泥) 및 진개퇴비(塵芥堆肥)를 킬레이트화 물질로서 利用(利用)하기 위(爲)해서 이들 물질(物質)의 특성(特性)을 조사(調査)하였다. 철(鐵)킬레이트화에 관여(關與)하는 수용성물질(水溶性物質)을 분자체 분획법(分劃法)으로 분리(分離)하여 자외선(紫外線)및 적외선분광(赤外線分光) 스펙트럼에 의해서 그 구조(構造)를 조사(調査)하였고 이들 킬레이트의 안정도상수(安定度常數)를 이온교환평형법(交換平衡法)으로 측정(測定)하여 이들을 킬레이트 물질로 사용(使用)하했을때 그 안정성(安定性)을 검사(檢討)하였다. 진개퇴비(塵芥堆肥)에서 추출(抽出)된 유기물질(有機物質)은 Sephadex G-25에 의(依)해 4개분획(個分劃)으로 분리(分離)되었고 이중 철(鐵)과 킬레이트를 이루고 있던 분획(分劃)은 분자량(分子量)이 $5000{\sim}10,000$ 사이에 있었고 Polyphenol구조(構造)의 산소군(酸素群)이 킬레이트화(化)에 관여(關與)하고 있었다. 활성오니중(活性汚泥中) 가용성(可溶性) 물질(物質)은 Sephadex G-25에 의(依)해 6개(個)의 분획(分劃)으로 분리(分離)되었고 이중 킬레이트를 이루고 있던 분획(分劃)은 $5000{\sim}10,000$ 또는 5000에 약간 미달(未達)하는 분자량(分子量)을 가지고 있고 Polypeptide의 amide기(基)가 킬레이트화에 관여(關與)하였다. 이들의 안정도상수(安定度常數)도 합성(合成)킬레이트 물질의 안정도상수(安定度常數)와 큰 차이(差異)가 없을 정도(程度)로 안정(安定)하였다.
This study was conducted to study the properties of the water-soluble natural chelating agents from garbage compost and activated sewage sludge responsible for Fe chelation, which is closely associated with the effectiveness in correcting iron chlorosis in plant. The water-soluble fraction of these materials was fractionated by menas of Sephadex gel filtration and the fractions of Fe chehates were traced by radioactive $^{59}Fe$. The fractions were examined by ultraviolet and infrared. spectroscopy and stability constants for Fe. The water-soluble fraction from garbage compost was separated by Sephadex G-25 into approximately four fractions. Most of the added $^{59}Fe$ was associated with fraction I, which appeared at the void volume. Further fractionation by Sephadex G-50 indicated that the molecular weight of water-soluble chelating agents is in the approximate range of 5000 to 10,000. The water-soluble fraction from activated sewage sludge gave six fractions by Sephadex G-25. Most of the added $^{59}Fe$ was found in the fraction I,II, and III, The molecular weights of most chelating agents associated with $^{59}Fe$ appeared to be less than 5,000 and those of fraction I that appeared at the void volume was in the range of 5,000 to 1,000. Discrepancy between radio activity count and UV absorption indicated the heterogeneity of the fractions obtained by Sephadex gel filtration. Ultraviolet absorption spectra of all fractions separated by Sephadex G-25 and containing chelating agents showed no differences. Fraction IV and V of sewage extract showed absorption maxima and shifting similar to nucleic acid components suggesting the presence of decomposition products of nucleic acid. Similarity fraction VI contained phenolic type amino acid groups. Fraction I of compost extract contained most of the added $^{59}Fe$ and showed weak but extra definite absorption in the 1230, and $1270cm^{-1}$ region, suggesting that extra oxygen groups in polyphenolic structure were probably involved in Fe chelation. In sewage extract, fraction I,II, and III in which most of the $^{59}Fe$ was found, showed strong definite polypeptide absorption in the region of $1540cm^{-1}$ due to NH deformation and C-N stretching of amide groups in the peptidebond. These extra functional groups in fraction I, II, and III appeared to be associated with Fe chelation. The other fractions, not associated with $^{59}Fe$, still have carboxyl and hydroxyl groups, suggesting that these functional groups in these water extracts may not independently form the Fe chelates. Precipitation of ferric hydroxide precluded measuring the stability constants for Fe-chelates. However, the formation constants for Zn chelates as log K values for compost extract and sewage extract at pH 4.0 from which the strength of chelation with Fe could be presumed, were 8.23, and 9.75, respectively, indicating strong complexation with metals. The chelating capacity of compost extract containing 6.5 g organic matter per liter was 0.82 mM, and that of sewage extract containing 5.3 g per liter was 0. 64 mM.