淮海工学院学报(自然科学版)
淮海工學院學報(自然科學版)
회해공학원학보(자연과학판)
JOURNAL OF HUAIHAI INSTITUTE OF TECHNOLOGY(NATURAL SCIENCES EDITION)
2014年
4期
41-43
,共3页
Cd2+%菌群%建筑废弃物%土壤
Cd2+%菌群%建築廢棄物%土壤
Cd2+%균군%건축폐기물%토양
Cd2+%microflora%construction waste%soil
以化工厂含重金属Cd2+的建筑废弃物污染土壤为样品,检测了其中重金属 Cd2+的含量,在此基础上调查了建筑垃圾对污染微生物群落变更的影响。对微生物的生物量测试结果表明,细菌群落中受到影响最大的是以大肠杆菌为代表的革兰氏阳性菌,对真菌菌群的影响不显著。该研究显示,建筑废弃物的堆放可能会对临近的土壤生态带来一定的影响。
以化工廠含重金屬Cd2+的建築廢棄物汙染土壤為樣品,檢測瞭其中重金屬 Cd2+的含量,在此基礎上調查瞭建築垃圾對汙染微生物群落變更的影響。對微生物的生物量測試結果錶明,細菌群落中受到影響最大的是以大腸桿菌為代錶的革蘭氏暘性菌,對真菌菌群的影響不顯著。該研究顯示,建築廢棄物的堆放可能會對臨近的土壤生態帶來一定的影響。
이화공엄함중금속Cd2+적건축폐기물오염토양위양품,검측료기중중금속 Cd2+적함량,재차기출상조사료건축랄급대오염미생물군락변경적영향。대미생물적생물량측시결과표명,세균군락중수도영향최대적시이대장간균위대표적혁란씨양성균,대진균균군적영향불현저。해연구현시,건축폐기물적퇴방가능회대림근적토양생태대래일정적영향。
Soil contaminated by construction waste containing Cd2+was taken as samples.Based on the content of Cd2+ determined previously,the variation of microflorae changes in soil polluted by construction waste was investigated.The results of biomass tests showed that the Escherichia coli,representative of bacterial flora,were affected much more significantly than the fungal flo-ra.And the microbacterial activity was also inhibited due to the pollution of Cd2+contamination. This study shows that construction waste dumps can affect the adjacent soil ecology.
