Abstract
The behaviors of inorganic nitrogen derived from solid animal waste in soil has been received too much concern partly because nitrate which occurred from nitrification can act as a pollutant to soil and groundwater and partly because the loss of nitrogen from surface soil by downward movement of water is disadvantageous in the view of plant nutrient. This present study was conducted to get fundamental imformations on nitrogen behavior and to provide improved basical concepts on the management of animal waste. Fresh or fermented pig manure was mixed with a sandy loam soil in the ratio of 2:1(soil:pig manure), packed into test tube and incubated at $30^+/-1^{\circ}C$ for 8 weeks under aerobic- or anaerobic condition. Sample tubes were taken at the one week interval and analyzed on pH, the amount of $CH_4$ produced under anaerobic condition and inorganic nitrogen. The pH of soil treated with fresh pig manure under anaerobic condition was lowered by 1.87 unit compared to that of under aerobic condition, but at the treatment with fermented pig manure, pH change was very little between aerobic and anaerobic condition. The coefficients of regressional equations which were obtained from pH and incubation time were -0.114 in fresh pig manure and -0.089 in fermented pig manure, and the extent of pH decrease due to incubation was greater in fresh pig manure than that of fermented pig waste. No differences in the amounts of $CH_4$ produced under anaerobic condition between fresh and fermented pig manure was observed until 3 weeks of incubation, however, after that the amount of $CH_4$ produced in fresh pig manure was abruptly increased and cumulative amont of $CH_4$ was reached 8.6 mole/g. K values on $CH_4$ production in fresh and fermented pig manure was 0.211 mole/g/day and 0.046 mole/g/day, respectively, for 5 weeks from the 3rd to the 8th week. $NH_4-N$ concentration at aerobic condition with fresh pig manure treatment was lowered by passing time of incubation, but $NO_3-N$ concentration was elevated from 11.2 ppm at initial state to 67.3 ppm after incubation and this trend on $NH_4-N$, $NO_3-N$ concentration was very similar to the treatment of fermented pig manure. While $NH_4-N$ concentration under anaerobic condition was greatly increased. $NO_3-N$ concentartion was not only very low but also no great changes, that was ranged from 4 to 8 ppm.
혐기(嫌氣) 및 호기(好氣)조건하에서 토양(土壤)에 처리(處理)된 돈분(豚糞) 중 질소행동(窒素行動)에 관한 기초자료(基礎資料)를 얻고자 사양토(砂壤土)에 생돈분(生豚糞) 및 발효돈분(醱酵豚糞)을 2:1로 혼합하고 혐기(嫌氣) 및 호기조건하(好氣條件下)에서 8주간(週間) 항온(恒溫)($30^+/-1^{\circ}C$) 하면서 토양(土壤)과 돈분(豚糞) 혼합물(混合物)의 pH 변화와 $CH_4$ 발생량(發生量) 그리고 무기태질소(無機態窒素) 농도(濃度)변화를 조사(調査)하였다. 토양(土壤)에 생돈분(生豚糞)처리시 혐기조건(嫌氣條件)에서의 pH가 호기조건(好氣條件)에서 보다 1.87 단위(單位) 낮아졌고 발효돈분(醱酵豚糞) 처리에서는 혐기(嫌氣), 호기조건(好氣條件) 간에 pH 차이가 적었다. 혐기(嫌氣)조건에서 항온기간(恒溫期間) 경과에 따른 pH 감소(減少) 회귀식(回歸式)(P<0.01)으로 부터 얻어진 회귀계수(回歸係數)는 생돈분(生豚糞)에서 -0.114, 발효(醱酵)돈분에서 -0.08로 발효돈분(醱酵豚糞)에 비하여 생돈분(生豚糞)에서 pH 감소율(減少率)이 컸다. 생돈분(生豚糞), 발효돈분(醱酵豚糞)을 토양에 처리시 혐기(嫌氣)조건에서 $CH_4$ 발생량은 항온(恒溫) 3주(週)까지는 두처리 간에 차이가 없었으나 3주(週) 이후에는 생돈분(生豚糞)에서의 $CH_4$ 발생량이 현저히 증가되었으며 8주(週) 까지의 누적(累積) $CH_4$ 발생량은 발효돈분(醱酵豚糞)에 비하여 3.2배(倍) 증가되었다. 항온(恒溫) 3주(週)부터 8주(週)까지 일당(日當) $CH_4$ 발생량은 생돈분(生豚糞)에서 0.211 mole/g, 발효돈분(醱酵豚糞)에서 0.046 mole/g였다. 호기조건(好氣條件)에서 생돈분(生豚糞)처리시 $NH_4-N$ 농도는 항온기간(恒溫期間)이 경과(經過)됨에 따라 점차 감소(減少)되었으며 $NO_3-N$ 농도는 초기(初期)에 11.2 ppm에서 8주(週) 후(後)에 67ppm으로 6배(倍) 증가되었는데 이러한 결과는 호기(好氣)조건의 발효돈분(醱酵豚糞)에서도 유사(類似)한 경향이었다. 그러나 혐기(嫌氣)조건에서는 항온기간별(恒溫期間別) $NH_4-N$ 농도가 급격(急激)히 증가되었으나 $NO_3-N$ 농도는 4~8ppm으로 호기조건(好氣條件)에 비하여 매우 낮았다.
(Agricultural Sciences Institute, RDA)
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