CAJ | 학술논문

为了研究外源微生物对营养土堆制过程的影响,选择复合微生物菌剂(HBH-Ⅱ)开展了污泥堆制营养土的试验.结果表明:①复合微生物制剂的添加增加了总氮的损失,但大幅度提高了碱解氮、有效磷含量及发芽指数,而对总磷、钾含量的增加率贡献较小.②总氮与所有指标均呈负相关,其他指标之间都为正相关;在0.05的水平下,HBH-Ⅱ的添加量与总氮呈显著负相关、与有效磷及发芽指数呈显著正相关;在0.01的水平下,总氮与碱解氮、有效磷呈极显著负相关,而HBH-Ⅱ投量与碱解氮、碱解氮与有效磷呈极显著正相关.③菌剂中存在对氮、磷元素转化非常活跃的微生物种群,能够将非碱解氮成分转化为碱解氮、固态氮转化为气态氮,还能提高非有效磷转化为有效磷的效率.④HBH-Ⅱ对污泥堆制营养土过程中营养学指标及发芽指数的影响次序为碱解氮>发芽指数>(总氮=有效磷)>钾>总磷.
위료연구외원미생물대영양토퇴제과정적영향,선택복합미생물균제(HBH-Ⅱ)개전료오니퇴제영양토적시험.결과표명:①복합미생물제제적첨가증가료총담적손실,단대폭도제고료감해담、유효린함량급발아지수,이대총린、갑함량적증가솔공헌교소.②총담여소유지표균정부상관,기타지표지간도위정상관;재0.05적수평하,HBH-Ⅱ적첨가량여총담정현저부상관、여유효린급발아지수정현저정상관;재0.01적수평하,총담여감해담、유효린정겁현저부상관,이HBH-Ⅱ투량여감해담、감해담여유효린정겁현저정상관.③균제중존재대담、린원소전화비상활약적미생물충군,능구장비감해담성분전화위감해담、고태담전화위기태담,환능제고비유효린전화위유효린적효솔.④HBH-Ⅱ대오니퇴제영양토과정중영양학지표급발아지수적영향차서위감해담>발아지수>(총담=유효린)>갑>총린.
In order to study the impact of external micro-organisms on the process of nutritional soil composting, the compound microorganism preparation ( HBH-Ⅱ ) was applied to test sludge composting nutritional soil. The results show that ① HBH-Ⅱ addition can increase the loss of total nitrogen, substantially raise the alkali-hydrolyzable nitrogen, available phosphorus and germination index, while the addition rates of total phosphorus and potassium are increased less;②The total nitrogen has a negative correlation with other indexes, while there is a positive correlation among other indexes. At 0.05 level, HBH- Ⅱ has a significant negative correlation with the total nitrogen, whereas it has a significant positive correlation with the available phosphorus and the germination index. At 0.01 level, the total nitrogen has a highly significant negative correlation with alkali-hydrolyzable nitrogen and available phosphorus, while there is a highly significant positive correlation between HBH- Ⅱ and alkali-hydrolyzable nitrogen and between alkali-hydrolyzable nitrogen and available phosphorus;③HBH- Ⅱ includes some microorganisms which are very active to nitrogen and phosphorus transformation, they can transform non-alkali-hydrolyzable nitrogen into alkali-hydrolyzable nitrogen, and solid state nitrogen into gaseous nitrogen. The microorganisms also increase the efficiency of non-available phosphorus into available phosphorus;④ The nutrients and germination index in the sludge composting process are affected in the order;alkali-hydrolyzable nitrogen > germination index > total nitrogen = available phosphorus > potassium > total phosphorus.