Chironomid larvae propagated excessively in eutrophic water body and could not be effectively inactivated by the conventional disinfection process like chlorination due to its stronger resistance to oxidation. In this...Chironomid larvae propagated excessively in eutrophic water body and could not be effectively inactivated by the conventional disinfection process like chlorination due to its stronger resistance to oxidation. In this paper, a pilot-scale study of chlorine dioxide preoxidation cooperating with routine clarification process for Chironomid larvae removal was conducted in Shenzhen Waterworks in Guangdong Province, China. The experimental results were compared with that of the existing prechlorination process in several aspects, including the Chironomid larvae removal efficiencies of water samples taken from the outlets of sedimentation tank, sand filter, the security of drinking water and so on. The results showed that chlorine dioxide might be more effective to inactivate Chironomid larvae than chlorine and Chironomid larvae could be thoroughly removed from water by pre-dosing chlorine dioxide process. The GC-MS examination and Ames test further showed that the sort and amount of organic substance in the treated water by chlorine dioxide preoxidation were evidently less than that ofprechlorination and the mutagenicity of drinking water treated by pre-dosing chlorine dioxide was substantially reduced compared with prechlorination.展开更多
Chironomid larvae propagate prolifically in eutrophic water body and they cannot be exterminated by conventional disinfection process.The inactivation effects of chlorine and chlorine dioxide on Chironomid larvae were...Chironomid larvae propagate prolifically in eutrophic water body and they cannot be exterminated by conventional disinfection process.The inactivation effects of chlorine and chlorine dioxide on Chironomid larvae were investigated and some boundary values in practice were determined under conditions of various oxidant dosage,organic precursor concentration and pH value.In addition,removal effect of different pre-oxidation combined with coagulation process on Chironomid larvae in raw water was evaluated.It was found that chlorine dioxide possessed better inactivation effect than chlorine.Complete inactivation of Chironomid larvae in raw water was resulted by 1.5 mg/L of chlorine dioxide with 30 min of contact time.Additionally,the organic precursor concentration,pH value had little influence on the inactivation effect.The coagulation jar test showed that Chironomid larvae in the raw water could be completely removed by chlorine dioxide pre-oxidation in combination with the coagulation process at chlorine dioxide dosage of 0.8 mg/L.展开更多
Objective: To investigate the use of a biomarker for assessment of the effects on the tropical chironomid, Chironomus javanus(C. javanus), Kiffer of sediment contaminated with an insecticide(chlorpyrifos).Methods: A w...Objective: To investigate the use of a biomarker for assessment of the effects on the tropical chironomid, Chironomus javanus(C. javanus), Kiffer of sediment contaminated with an insecticide(chlorpyrifos).Methods: A wide range of biological responses to the tropical chironomid exposed were measured, including survival, growth rate and Acetylcholinesterase(AChE) activity.Results: The measured median lethal concentration(96 h LC_(50)) of chlorpyrifos to C. javanus was 0.056(95% CI 0.024-0.124)μg/kg. For sub-chronic levels of chlorpyrifos between 0.001 and 0.25μg/kg administered for 10 days, the effects on the growth of C. javanus were reduced(larva size, head structure width and dry weight) at the significance level(P<0.01) and the effects were concentration dependent. Following exposure to chlorpyrifos at the level of 0.001μg/kg for 48 and 96 h, the AChE activity in C. javanus was inhibited compared with control samples(P<0.05).Conclusions: This study demonstrated that C. javanus was sensitive when exposed to chlorpyrifos. This species could serve as a potential biomarker for assessing pesticide contamination at low environmental persistence and provides limited effects data on the sensitivity of tropical biota to contaminants for ecological risk assessment of organophosphate pesticides in the tropical aquatic ecosystem.展开更多
Starvation metabolism is one of the important parts of respiration for normal activities of chironomids. During April 1996 to March 1997, the relationships of starvation metabolism and tempera-ture, body weight of two...Starvation metabolism is one of the important parts of respiration for normal activities of chironomids. During April 1996 to March 1997, the relationships of starvation metabolism and tempera-ture, body weight of two common chironomids in Biandantang Lake were carefully investigated. The re-sults showed relationship between starvation metabolism (R, mgO2/ind.d) and body weight (Ww, mg wet wt) was: Chironomus plumosus, lgR=-2.573+1.021lgWw (5℃), lgR=-2.710+1.354lgWw (10℃), lgR= -1.824+0.823lgWw (15℃), lgR=-1.364+0.442lgWw (20℃), lgR=-2.763+1.517lgWw (25℃); and Tokuna-gayusurika akamusi, lgR=-2.390+0.752lgWw (5 ℃ ), lgR=-1.978+0.710lgWw (10 ℃ ), lgR=-1.676+ 0.648lgWw (15℃), lgR=-1.517+0.650lgWw (20℃), lgR=-2.434+1.290lgWw (25℃). Relationship of starvation metabolism and temperature (T, ℃) was: C. plumosus, R = -0.051 + 0.021T -0.0006T2 ; T. akamusi, R= -0.051 + 0.021T -0.0006T2. The complex relationship of the three parameters was: C. plu-mosus, R=0.0098Ww0.3882e0.1068T; T. akamusi, R=0.0012Ww1.1936e0.0711T. With the above regressions, the estimated annual starvation metabolisms of the two chironomid species in Biandantang Lake were: C. plumosus, 24.2791 kJ/m2.a; T. akamusi, 8.7864 kJ/m2.a, respectively. This provides a firm foundation for the comparative study of bioenergetics of the chironomids.展开更多
摇蚊幼虫经常污染城市的供水系统,成为饮用水安全面临的新问题.在实验室条件下,使用二氧化氯对其进行灭活试验,得出不同浓度、pH值和接触时间下的灭活效果,并针对源水进行了灭活.对二氧化氯灭活机理及动力学进行了初步探讨.研究表明,二...摇蚊幼虫经常污染城市的供水系统,成为饮用水安全面临的新问题.在实验室条件下,使用二氧化氯对其进行灭活试验,得出不同浓度、pH值和接触时间下的灭活效果,并针对源水进行了灭活.对二氧化氯灭活机理及动力学进行了初步探讨.研究表明,二氧化氯在蒸馏水中投量为9 m g.L-1时,接触30 m in后可达到100%的灭活;二氧化氯灭活效果受接触时间影响较大,受pH值影响较小;摇蚊幼虫被100%灭活时,最佳CT(化学药剂浓度C与接触时间T的乘积)值为400—600 m g.m in.L-1,此时二氧化氯最低投量为5 m g.L-1.展开更多
文摘Chironomid larvae propagated excessively in eutrophic water body and could not be effectively inactivated by the conventional disinfection process like chlorination due to its stronger resistance to oxidation. In this paper, a pilot-scale study of chlorine dioxide preoxidation cooperating with routine clarification process for Chironomid larvae removal was conducted in Shenzhen Waterworks in Guangdong Province, China. The experimental results were compared with that of the existing prechlorination process in several aspects, including the Chironomid larvae removal efficiencies of water samples taken from the outlets of sedimentation tank, sand filter, the security of drinking water and so on. The results showed that chlorine dioxide might be more effective to inactivate Chironomid larvae than chlorine and Chironomid larvae could be thoroughly removed from water by pre-dosing chlorine dioxide process. The GC-MS examination and Ames test further showed that the sort and amount of organic substance in the treated water by chlorine dioxide preoxidation were evidently less than that ofprechlorination and the mutagenicity of drinking water treated by pre-dosing chlorine dioxide was substantially reduced compared with prechlorination.
基金The National Natural Science Foundation of China(NO.503780262)Supporting Certificate of China Postdoctoral Science Foundation(No.20070420882)Heilongjiang Postdoctorial Financial Assistance(No.LBH-Z06115)
文摘Chironomid larvae propagate prolifically in eutrophic water body and they cannot be exterminated by conventional disinfection process.The inactivation effects of chlorine and chlorine dioxide on Chironomid larvae were investigated and some boundary values in practice were determined under conditions of various oxidant dosage,organic precursor concentration and pH value.In addition,removal effect of different pre-oxidation combined with coagulation process on Chironomid larvae in raw water was evaluated.It was found that chlorine dioxide possessed better inactivation effect than chlorine.Complete inactivation of Chironomid larvae in raw water was resulted by 1.5 mg/L of chlorine dioxide with 30 min of contact time.Additionally,the organic precursor concentration,pH value had little influence on the inactivation effect.The coagulation jar test showed that Chironomid larvae in the raw water could be completely removed by chlorine dioxide pre-oxidation in combination with the coagulation process at chlorine dioxide dosage of 0.8 mg/L.
基金funded by the Higher Education Research Promotion and National Research University Project of Thailand(Grant number:W-2553-Ph.D.-05)
文摘Objective: To investigate the use of a biomarker for assessment of the effects on the tropical chironomid, Chironomus javanus(C. javanus), Kiffer of sediment contaminated with an insecticide(chlorpyrifos).Methods: A wide range of biological responses to the tropical chironomid exposed were measured, including survival, growth rate and Acetylcholinesterase(AChE) activity.Results: The measured median lethal concentration(96 h LC_(50)) of chlorpyrifos to C. javanus was 0.056(95% CI 0.024-0.124)μg/kg. For sub-chronic levels of chlorpyrifos between 0.001 and 0.25μg/kg administered for 10 days, the effects on the growth of C. javanus were reduced(larva size, head structure width and dry weight) at the significance level(P<0.01) and the effects were concentration dependent. Following exposure to chlorpyrifos at the level of 0.001μg/kg for 48 and 96 h, the AChE activity in C. javanus was inhibited compared with control samples(P<0.05).Conclusions: This study demonstrated that C. javanus was sensitive when exposed to chlorpyrifos. This species could serve as a potential biomarker for assessing pesticide contamination at low environmental persistence and provides limited effects data on the sensitivity of tropical biota to contaminants for ecological risk assessment of organophosphate pesticides in the tropical aquatic ecosystem.
基金Supported by NSFC (No. 30270278, 39430101 and 3960019)
文摘Starvation metabolism is one of the important parts of respiration for normal activities of chironomids. During April 1996 to March 1997, the relationships of starvation metabolism and tempera-ture, body weight of two common chironomids in Biandantang Lake were carefully investigated. The re-sults showed relationship between starvation metabolism (R, mgO2/ind.d) and body weight (Ww, mg wet wt) was: Chironomus plumosus, lgR=-2.573+1.021lgWw (5℃), lgR=-2.710+1.354lgWw (10℃), lgR= -1.824+0.823lgWw (15℃), lgR=-1.364+0.442lgWw (20℃), lgR=-2.763+1.517lgWw (25℃); and Tokuna-gayusurika akamusi, lgR=-2.390+0.752lgWw (5 ℃ ), lgR=-1.978+0.710lgWw (10 ℃ ), lgR=-1.676+ 0.648lgWw (15℃), lgR=-1.517+0.650lgWw (20℃), lgR=-2.434+1.290lgWw (25℃). Relationship of starvation metabolism and temperature (T, ℃) was: C. plumosus, R = -0.051 + 0.021T -0.0006T2 ; T. akamusi, R= -0.051 + 0.021T -0.0006T2. The complex relationship of the three parameters was: C. plu-mosus, R=0.0098Ww0.3882e0.1068T; T. akamusi, R=0.0012Ww1.1936e0.0711T. With the above regressions, the estimated annual starvation metabolisms of the two chironomid species in Biandantang Lake were: C. plumosus, 24.2791 kJ/m2.a; T. akamusi, 8.7864 kJ/m2.a, respectively. This provides a firm foundation for the comparative study of bioenergetics of the chironomids.
文摘摇蚊幼虫经常污染城市的供水系统,成为饮用水安全面临的新问题.在实验室条件下,使用二氧化氯对其进行灭活试验,得出不同浓度、pH值和接触时间下的灭活效果,并针对源水进行了灭活.对二氧化氯灭活机理及动力学进行了初步探讨.研究表明,二氧化氯在蒸馏水中投量为9 m g.L-1时,接触30 m in后可达到100%的灭活;二氧化氯灭活效果受接触时间影响较大,受pH值影响较小;摇蚊幼虫被100%灭活时,最佳CT(化学药剂浓度C与接触时间T的乘积)值为400—600 m g.m in.L-1,此时二氧化氯最低投量为5 m g.L-1.